KR20170129791A - Simplified hydropower - Google Patents

Abstract

It is installed in a small number of waterways, and provides a simplified hydroelectric power plant which collects the water flow to perform highly efficient power generation.
The simplified hydropower generation apparatus supports the rotor shaft 6 of the horizontal shaft rotor 4 between the front bearing and the rear bearings 8 and 9 via the vertical shaft supports 7 and 10 so that the front and rear of the turbine housing 2 A horizontal shaft rotor 4 having a lifting type blade 5 installed in a channel 3 passing through the horizontal shaft 4; A power generator installed above a water turbine housing (2), wherein the generator (12) and the main shaft (6) of the horizontal shaft rotor (4) are connected by a generator (11); And a pair of openable and closable water diaphragms provided on the right and left sides of the front of the aberration housing 2. [

Description

Simplified hydropower

The present invention relates to a hydroelectric power generating apparatus and a simplified hydropower generating apparatus which is installed in a narrow channel and collects the water flow of the channel to efficiently generate electric power.

A representative example of a hydroelectric power generating apparatus to be embedded in a hydroelectric power generation channel or the like is disclosed in Patent Document 1.

JP 2007-177797 A

The hydro-electric power generating apparatus disclosed in Patent Document 1 includes a pair of left and right rotor blades in a vertical axis in a casing member, and a float portion is formed on an upper portion of the casing member. When the hydrostatic generator is floated on the water channel, the rotor blade is rotated by the water flow in the water channel, but the casing member largely fluctuates by the water flow. Further, although a section for increasing the convergence speed is provided in the front portion of the casing member, only a water stream striking the front of the casing member can enter the casing member. On the other hand, the vertical rotor blade causes the water flow to move in the centrifugal direction of the casing member, causing interference in the water flow moving by the pair of left and right rotor blades. Therefore, it is difficult to increase the rotation efficiency of the rotor blades.

According to the present invention, by providing a pair of open / close water level plates so as to open like a double door on the right and left sides of the front portion of the water turbine housing, the water flow is clogged by the open / close water level plate even if the water level is low in the water channel, So that efficient development can be achieved.

Specific examples of the present invention are as follows.

(1) a horizontal shaft rotor having a lifting blade, which is mounted in a shaft passing through the front and rear of the aberration housing by supporting the rotor shaft of the horizontal shaft rotor between the front and rear bearings through the vertical shaft support;

A generator installed in an upper portion of the aberration housing, wherein the generator and the main shaft of the horizontal shaft rotor are connected by transmission means; And

And a pair of opening and closing water level plates provided on the left and right of the front of the water turbine housing.

(2) In the above-mentioned (1), each of the pair of right and left side plates includes a rear divergent portion which is laterally expanded from the rear, Device.

(3) In the above-mentioned (1) or (2), the vertical axis support in the waterway is a watertight tube body, and a simple hydraulic power Generator.

(4) In any one of (1) to (3), the opening / closing diverter plate is pivoted to the left and right of the front portion of the aberration housing so as to open like a double door, And the front surface is formed as a curved surface protruding forward.

(5) The simplified hydrostatic generator according to any one of (1) to (4), wherein each of the openable and closable water diaphragms is formed such that the height at the tip thereof is lower than the height of the base end.

(6) The simplified hydrostatic generator according to any one of (1) to (5), wherein the bottom plate of the aberration housing is set to be gradually lower toward the arrangement portion of the horizontal shaft rotor with a lowered shear.

(Effects of the Invention)

According to the present invention, the following effects are provided.

In the simplified hydrostatic power generator described in (1) above, since the horizontal shaft rotor is provided in the waterway of the water turbine housing and the water turbine is provided in the front portion of the water turbine housing as a double door, a large amount of water is guided by the open / Efficient power generation can be performed.

In addition, when the water depth is shallow, the opening / closing diaphragm acts to block the water flow, and the opening / closing diaphragm can be opened / closed corresponding to the width of the water channel. Also, the opening of the aberration housing may be closed by the opening / closing diaphragm.

Since the vertical support in the rear part can be made thin, the vertical support scarcely obstructs the flow of water and the manufacturing cost is low.

Since the rear divergent portion of each of the side plates of the watercraft described in (2) is widened laterally and the width of the watercourse is formed wide rearward, the watercurrent flows to the rear of the watercourse at a high speed Thereby efficiently increasing the rotational speed of the rotor.

In the simple hydrostatic power generator described in (3), since the vertical axis support member at the rear portion is formed into a watertight tube shape, the electric power shaft is safely protected.

In the simplified hydrostatic power generator described in (4) above, since the opening and closing diaphragm can be opened to the left and right in the form of a double door at the front part of the aberration housing, the generator is installed at the center of a wide channel, By opening one of the sides of the plate wide, the water depth is shallow and a large amount of water flow can be collected. In addition, since the opening / closing water level plate is formed as a curved surface that protrudes forward when viewed in plan when the opening / closing water level plate is opened, the flow rate of the water flow along the front face is increased to enter the waterway. By closing the plate, the amount of contact with the rotor is controllable.

In the simplified hydrostatic power generator described in (5), since the height of the tip of the opening / closing water level plate is lower than the height of the base end, any waste introduced when the opening / closing water level plate is opened is set to a low height And then flows out to the downstream side.

Since the bottom plate of the aberration housing is formed such that the front end thereof is low and the horizontal rotor is set to be gradually higher toward the portion where the rotor is located, the water flow in the bottom layer is directed upward and the amount of the water flow is increased, So that the rotational speed of the rotor increases.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view of a simplified hydroelectric power generating apparatus according to an embodiment of the present invention; FIG.
2 is a cross-sectional view taken along line II-II in Fig. 1;
3 is a front view of Fig.
4 is a front view of the simplified hydroelectric power unit installed in the water channel.

Hereinafter, the present invention can be described with reference to the drawings.

First Embodiment

In Fig. 1, a longitudinally extending passage 3 is provided in the aberration housing 2 of the simplified hydrostatic power generator 1. The rotor shaft 6 of the horizontal shaft rotor 4 extending in the longitudinal direction is rotatably supported by the front bearing 8 and the rear bearing 9 in the channel 3.

The aberration housing 2 is formed in a rectangular box shape. The width of the side plate 2C from the narrow passage 3B to the discharge port 3C after the width of the pair of right and left side plates 2C gradually narrows from the inlet 3A to the inside becomes It gradually widen. A rear divergent portion 2D is formed at a rear portion of the aberration housing 2 so as to extend rearward in both lateral directions, and the length of the rear portion is also long. With this structure, with respect to the water flow flowing into the channel 3, the rear portion serves as a negative pressure region, and the water flow is pulled toward the rear portion according to the water pressure difference. As a result, the water flow passes from the waterway 3 to the rear part at a high speed to increase the rotation speed of the rotor.

The front bearing (8) is supported by a support arm (7) located at the center of the channel (3) in the vertical direction. The support arm 7 protrudes from the cylindrical shaft support 10 suspended vertically from the upper plate 2A of the aberration housing 2. [ The rear bearing (9) is fixed to the lower end of the cylindrical shaft support (10).

The transmission shaft (11) of the transmission means is installed inside the shaft support (10). Transmission means (11A, 6A) composed of bevel gears are respectively installed between the transmission shaft (11) and the rear portion of the rotor shaft (6), and both bevel gears are meshed with each other.

The generator 12 is installed on the upper plate 2A, and the main shaft 13 protrudes from the generator 12 to the rear side. A transmission means 11B composed of a bevel gear fixed to the upper end of the transmission shaft 11 is connected to the rear end of the main shaft 13 through a transmission means 13A composed of a bevel gear. The generator (12) and the shaft support (10) are covered with a cover (14) so that they can maintain watertightness.

A plurality of lifting blades 5 of the horizontal shaft rotor 4 are arranged to be positioned in the narrow passage 3B and the front portion of the rotor shaft 6 is supported by the front bearing 8 provided on the waterway 3 And the rear portion of the rotor shaft 6 is horizontally supported by the rear bearing 9. [

The horizontal shaft rotor 4 is fixed to the rotor shaft 6 and the plurality of lifting type blades are fixed to the circumferential surface of the hub 4A of the horizontal shaft rotor 4. [ Each leading end of each lifting blade is formed as an inclined portion 5A inclined in the upstream direction.

The water flow striking the inclined portion 5A acts to move backward in the centrifugal direction, and the water flow rotates the plurality of lifting type blades 5.

As shown in Fig. 2, the pair of opening / closing diaphragms 16 and 16 are rotated at the front ends of the left and right side plates of the aberration housing 2 through the hinge 15 in the vertical direction. The opening and closing diaphragm 16 can be opened and closed by a double door opening.

These opening / closing diaphragms 16 and 16 can be rotated by 270 degrees, and each opening / closing diaphragm is formed into a curved surface whose front surface protrudes forward. In addition, these openable / closable water diaphragm 16 can also close the inlet of the aberration housing 2 from the right and left sides.

2, although the width of the water passage 17 is larger than the width of the aberration housing 2, the leading end of each of the opening and closing water diaphragms 16, as shown in Fig. 2, The water in the water channel can be effectively guided to the waterway (3) of the water hammer housing (2) by the curved surface of the water guide plate.

In this case, when the water channel 17 is shallow, the opening and closing water channel plates 16 and 16 serve as a shutter ring board and the flowing water is blocked to raise the water level of the water hammer housing 2 .

Further, as shown in Fig. 1, the height of the front end of each of the opening / closing water level plates 16, 16 is lower than the height of the base end thereof. Accordingly, when the open / close water diaphragms 16 and 16 are opened as shown in Fig. 2, the flowing solids flow after moving to the lower end portions of the open / close water diaphragms 16 and 16, and are discharged in the downstream direction.

4 is a front view showing a state in which the aberration housing 2 is hung horizontally by a hanging column 19 on a support plate 18 provided on each of the side plates of the water channel 17. The hanging column 19 is stabilized by supporting the aberration housing 2 at two points forward and rearward and a screw is formed in the hanging column 19 to move the aberration housing 2 up and down.

According to the simplified hydroelectric power generator 1 installed as described above, the opening and closing water leveling plates 16 and 16 are opened in the double door state as shown in FIG. 2, The flow of the water flowing along the flow path increases due to the Coanda effect and is introduced into the water inlet of the aberration housing 2 and flows into the waterway 3 effectively.

The water stream of the channel 3 has a very large vertical section area as compared with the longitudinal section area of the introduction port 3A and when a strong water flow is generated toward the narrow passage 3B and passes through the narrow passage 3B , The water flows at a high speed and is discharged from the outlet opening 3C of the aberration housing 2 to the rear.

A water flow faster than the water flow of the water channel 17 is generated by the water turbine housing 2 and the open / Thus, efficient power generation can be performed in a narrow channel or a gentle channel. Referring to FIG. 2, a dust removing filter 20 is provided at a front portion of the aberration housing 2.

(Industrial applicability)

Since the hydroelectric power generating apparatus of the present invention is simple in its installation, small in size, and light in weight, it can be easily installed in a small number of water reactors and efficiently produce electricity.

1. Simple hydropower generator 2. Water turbine housings
2A. Top plate 2B. Bottom plate
2C. Shroud 2D. The rear divergent part
3. Waterway 3A. Introduction port
3B. Narrow passage 3C. outlet
4. Horizontal axis rotor 4A. Herb
5. Lifting blade 5A. Inclined portion
6. Rotor shaft 6A. Transmission means
7. Support arm 8. Front bearing
9. Rear bearing 10. Shaft support
11. Transmission shafts 11A and 11B. Transmission means
12. Generator 13. Spindle
13A. Transmission means 14. Cover
15. Hinge 16. Opening and closing frequency plate
17. Water channel 18. Support plate
19. Hanging column 20. Waste filter

Claims (6)

A horizontal shaft rotor having a lifting blade, which is installed in an aisle passing through the front and rear of the aberration housing by supporting the rotor shaft of the horizontal shaft rotor between the front and rear bearings through the vertical axis support;
A generator installed in an upper portion of the aberration housing, wherein the generator and the main shaft of the horizontal shaft rotor are connected by transmission means; And
And a pair of opening and closing water level plates provided on the left and right of the front of the water turbine housing. The method according to claim 1,
Wherein each of the pair of right and left side plates includes a rear divergent portion that is laterally expanded from the rear side so that the width of the channel greatly widens rearward. 3. The method according to claim 1 or 2,
Wherein the vertical axis support in the waterway is a watertight tube body and a transmission shaft for connecting the main shaft and the rotor shaft of the generator is provided inside the tube body. 4. The method according to any one of claims 1 to 3,
Wherein the opening and closing diaphragm is pivoted to the left and right of the front portion of the aberration housing such that the opening and closing diaphragm is opened like a double door and each opening and closing diaphragm is formed as a curved surface, Device. 5. The method according to any one of claims 1 to 4,
Wherein each of the opening and closing water level plates is formed such that the height at the front end is lower than the height of the base end. 6. The method according to any one of claims 1 to 5,
Wherein the bottom plate of the aberration housing is set to be gradually higher toward the placement portion of the horizontal shaft rotor with a lowered shear.

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