KR101686799B1 - Small hydro-power plant which is united rotor and driving turbine shaft - Google Patents

Abstract

More particularly, the present invention relates to a small-hydro-power generator, and more particularly, to a small-hydro-power generator in which an aberration shaft 2 and a generator rotor 4 are integrally formed so as to rotate within a generator stator 8 around a pivot shaft 6, (2), a rotor (4) of a generator (3) directly connected to the aberration shaft (2), a pivot flange (4) of the generator (3) And a stator 8 fixed to the casing 7 of the generator 3. The pivot shaft 6 is fixed to the casing 5 to maintain the stability of rotation of the rotor 4. [

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a small hydro-power plant,

More particularly, the present invention relates to a small hydropower generation apparatus, and more particularly, to a small hydropower generation apparatus that generates driving force by a fluid force using a flow rate having a potential energy flowing into a aberration runner blades and rotates the generator rotor directly connected to the axis of the runner blade, The present invention relates to a small-sized hydro-electric power generator which is easy to maintain and which can be rotated in a stator of a small-

It can be said that the small hydro generator is competitive because it is mechanically efficient and simple in structure and easy to maintain / repair. The high efficiency means that there should be no loss when transmitting the rotational power of the aberration to the rotational force of the generator. Most of the small power generation apparatuses are provided with a gear box composed of a series of gears, You need an accelerator to increase it.

In general, the speed increasing device increases the number of revolutions due to the tastes of the multi-stage gears, so friction loss between the gears can not be avoided and oil for frictional heat cooling between the gears is required. If oil leakage occurs, it will cause environmental pollution, and periodic oil change is necessary to ensure normal operation.

Therefore, in order to directly drive the runner rotation axis of the aberration and the rotor of the generator, an integrated device of the runner rotation axis of the aberration and the runner axis of the generator is required.

Another requirement of the small hydropower generation system is that the rotor of the aberration and generator is a rotating mechanism, so it supports the vertical load of the rotating shaft and properly arranges the bearing to ensure the stability of rotation and to block the water flowing into the rotating shaft of the aberration It is absolutely necessary. In order to ensure the rotational stability of the bearing, it is essential to supply and circulate the lubricating oil. If a part of the water flowing along the axis of rotation of the aberration is introduced into the bearing, the viscosity of the oil is lowered and the oil film formation becomes difficult. This is one cause. Maintenance for checking the condition of the components of such aberration should be designed to be easy to perform.

Although the scale of a small hydro power plant is small, it requires complicated, expensive, and difficult to maintain the equipment because it requires almost the same type of auxiliary machinery as a large scale hydraulic system. It is necessary to improve the structure.

Open Patent Publication No. 10-2003-0068520 (published on Aug. 21, 2003) Generator using wind power Open Patent Publication No. 10-2012-0097129 (2012.03.03. Open) Small Hydro Power Generation Device Using EPM Generator Open Patent Publication No. 10-2011-0006349 (Published Jan. 20, 2011)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a small-hydro-electric power generating apparatus with improved efficiency and easy maintenance.

In order to accomplish the above object, the present invention provides a turbine generator comprising an aberration axis and a rotor of an electric generator formed integrally with each other, and when water is introduced into the aberrone runner to generate a rotational force, the aberration axis is fixed to a pivot flange There is provided an aberration shaft and a generator rotor integrated small-sized hydroelectric power generator in which electric power is generated by rotation of a rotor in a stator fixed to a generator casing around a pivot axis to generate electric power.

Preferably, the aberration axis and the generator rotor are integrally joined together by bolts, the rotor rotates about a pivot axis fixed to the pivot flange on the generator upper cover side, and the rotor supports a direction and a vertical load on the pivot axis The pivot shaft is rotatably supported by two bearings, and a temperature sensor for detecting an abnormal state of the bearing is installed on the pivot shaft so that the pivot shaft can be easily recognized from the outside.

Preferably, the generator is provided with a mechanical seal on the upper part of the runner of the aberration axis so as to block the inflow of water rising along the aberration axis rotated by the pressure difference between the inside and the outside with respect to the airstream runner, do.

Preferably, a bearing oil injection path is provided at the center of a pivot shaft fixed to the pivot flange on the generator upper cover side, so that bearing oil can be injected / replaced without disassembling the generator, and a temperature sensor is installed in the oil injection path This makes it easy to observe the abnormality of the bearing.

In addition, the power generation device in which the rotor is rotated around the aberration axis of the rotor-integrated type and the fixed pivot axis can be easily assembled and disassembled, thereby saving maintenance cost of manpower and equipment.

The hydro-electric power generation system utilizes the potential energy of water, and the energy density is high and carbon dioxide gas emission is the least, and it is attracting attention as an environmentally clean energy source. This small-scale hydroelectric power generation system is a distributed power system that utilizes the water flow existing in nature as an energy source and utilizes it as a small-scale energy source applicable to our daily life. In addition, it is a system for increasing the efficiency of the energy source generated by the flow of water present in nature. In addition, the present invention enables efficient distributed energy generation to avoid large-scale hydroelectric power plants that are environmentally problematic, and can be applied to the mountain valleys, farming embankments in rural areas, small beams to prevent flooding, Distributed power systems, which can efficiently utilize abandoned water and produce small scale electricity anywhere, are eco-friendly small power generation systems that produce electricity easily at low cost.

In addition, the present invention can be said to be an apparatus that can be easily disassembled and assembled at the time of maintenance / repair in hydroelectric power generation, thereby reducing manpower and cost. In the existing system, it is necessary to completely separate the generator and the aberration completely from the power plant during maintenance, but the power generator of the present invention can be easily disassembled / assembled in a place where it is installed, and maintenance thereof is easy.

In addition, in the aquafarinchaft integrated small-hydroelectric generator according to the present invention, since the rotation axis of the rotating aberration due to the potential energy of water and the rotor of the generator are directly connected, a separate connection device such as a gear box or coupling for increasing the rotation speed is required It is possible to simplify the injection / removal of the bearing oil through the bearing oil inlet into the pivot shaft fixed to the pivot flange on the generator upper cover side, The mechanical structure of the whole system is simple, so there is no fear of failure and special maintenance is not necessary.

In addition, the small hydrostatic power generator of the present invention has a simple mechanical structure and is easy to install even in a small installation area, and since the generator rotor rotates about the pivot shaft, vibration noise is small and rotational stability can be ensured, It has high efficiency and energy saving effect. It can easily solve the problem of global warming with eco-friendly power generation facilities and the development of distributed power source in rural and rural areas in Korea.

1 is a cross-sectional view schematically showing the entire structure of a water turbine and a generator rotor-integrated small hydropower generator according to an embodiment of the present invention.
Fig. 2 is an external view of the small hydroelectric power generating apparatus shown in Fig. 1. Fig.

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

FIG. 1 is a cross-sectional view of a small hydroelectric power generating apparatus according to an embodiment of the present invention. FIG. 2 shows a schematic outline of the small hydro power generating apparatus. In the small hydroelectric power generating apparatus of this embodiment, , And the amount of electricity produced is determined by the flow rate and the drop of water.

The small hydropower generation apparatus of the present embodiment includes an aberrander 1 rotationally driven by a water flow introduced from the outside, an aberration shaft 2 axially coupled to the aberration 1 at one end, a generator 3), a pivot shaft (6) fixed to the pivot flange (5) of the generator (3) to maintain the rotation stability of the rotor (4), a casing (7) of the generator A ball bearing which is mounted on the pivot shaft 6 and rotatably fixes the rotor 4 and supports the load of the aberration 1 and the load of the generator 3, (9) and a bi-directional shaft bearing (10).
In the present embodiment, an insertion groove 2a into which the pivot shaft 6 is inserted is formed in the axial direction at the other end of the aberration shaft 2, and an outer periphery of the pivot flange 5 is formed in the casing (7) and the pivot shaft (6) is fixed to the inner center portion.

In this embodiment, in order to securely ensure the rotatability of the bearings 9 and 10, an oil inlet 11 for stable supply and circulation of the lubricant is formed in the pivot shaft 6, and bearings 9 and 10 The temperature sensor 12 is embedded in the oil inlet 11 for monitoring the state of the gas sensor.

In addition, a mechanical seal 13 is provided to prevent the water flowing along the rotary shaft 2 from flowing into the generator due to the difference in the vertical pressure of the rotating aberration runner.

In the present embodiment, the aberration 1 is a propeller-type aberration that converts the flow of water into mechanical energy to maximize the efficiency and to prevent cavitation phenomenon, which causes surface erosion and deterioration of efficiency, It is desirable to make a 5-axis machining machine to design the shape mechanically by using the multi-objective optimization technique and to maintain the perfect balancing. In order to improve the efficiency of the aberration, the surface is smoothly post- Let it flow smoothly with minimum resistance.

On the other hand, the aberration 1 is assembled with the aberration shaft 2 in a heat-fitting manner, and the hub 14 is fixed to the aberration shaft 2 with a bolt in order to reduce vortex generated after the aberration.

The number of wings of the aberration 1 is ideally 5 or 6 but is not limited.

In the drawing, reference numeral 16 denotes a cover provided outside the aberration axis 1, reference numeral 17 denotes an upper cover which covers the pivot flange 5, and reference numeral 18 denotes a generator fixing plate.

In this embodiment, the generator 3 is supported by the upper pivot flange 5, and the lower portion is assembled to be separated from the aberration by the generator fixing plate 18.

The generator 3 is in the form of a permanent magnet synchronous generator in which a permanent magnet having a high magnetic flux density is used to drive the permanent magnet rotor 2 directly connected to the aberration shaft 2 at a low rotational speed generated in the propeller- 4 are rotated and converted into electricity, and electricity is transmitted to the outside through the distributor 15.

The aberration shaft 2 and the generator rotor 4 are integrally connected by a bolt (not shown), and the pivot shaft 3 fixed to the center of the generator 3 during rotation of the aberration 1 The rotor 4 is rotated by the rotating shaft, and thus induction electromotive force is generated in the stator 8 composed of coils.

In the small hydropower generation apparatus of this embodiment configured as described above, the aurical axis and the generator rotor are integrally formed, and the rotating power generated in the aberration is not lost by the mechanical friction, and the rotor rotates in the stator of the generator about the pivot axis as it is. In the present invention, since a turbine shaft and a generator used in a conventional hydraulic power generator are separated, there is no power transmission device such as a gear box or a coupling when the rotational force of the aileron shaft is transmitted to the generator, There is also an advantage of easy maintenance.

1: aberration
2: aberration axis
2a: insertion groove
3: generator
4: Rotor
5: Pivot flange
6: Pivot axis
7: Casing
8: Stator
9: Ball bearing
10: Bi-directional shaft bearing
11: Oil inlet
12: Temperature sensor
13: Mechanical seal
14: Hub
15: Dispenser
16: aberration axis cover
17: Upper cover
18: generator fixing plate

Claims (4)

Aberration axis 2 in which the aberration 1 is axially coupled at one end, a rotor 4 of the generator 3 directly connected to the aberration axis 2, a pivot flange A pivot shaft 6 fixed to the casing 5 to maintain the rotation stability of the rotor 4, a stator 8 fixed to the casing 7 of the generator 3, A ball bearing 9 and a bi-directional shaft bearing 10 installed to support the rotor 4 in a rotatable manner and to support the load of the aberration 1 and the load of the generator 3;
An insertion groove 2a into which the pivot shaft 6 is inserted is formed in the axial direction at the other end of the aberration shaft 2. The outer periphery of the pivot flange 5 is fixed to the casing 7 of the generator 3 And a pivot shaft 6 is fixed to an inner center portion of the pivot shaft 6. An oil inlet 11 for supplying lubricating oil to the bearings 9 and 10 is formed in the pivot shaft 6, And a temperature sensor (12) for monitoring the state of the turbine shaft (9, 10) is embedded in the turbine shaft and the generator rotor. delete delete delete

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