KR20040080635A - The improvement method of reservoir quality with a wind power - Google Patents

Abstract

PURPOSE: To avoid the stagnation of a bottom water layer in water bodies by circulating water bodies vertically with wind mill, thereby inhibiting algal bloom. CONSTITUTION: The apparatus comprises a frame part with buoys at one side thereof; a driving part with a fan(11) being engaged with a shaft(12), wherein the shaft is supported by a housing(10) having a power transmission part(13) therein; an impeller(21) being rotated by the fan engaged with a shaft(22); and a means for driving the fan stable by wind force control.

Description

The improvement method of reservoir quality with a wind power}

The present invention circulates deep water and surface water with wind power when contaminated by the infiltration of various wastewaters in a place where water is stored, such as a reservoir or a lake, so that decomposition of organic matter is promoted by oxygen supply by up and down circulation. The present invention relates to a method for improving reservoir water quality using wind power that maximizes self-cleaning ability by suppressing prosperity, and more specifically, by circulating up and down by allowing surface water to be deeply driven by wind power so that water such as reservoirs can be circulated more efficiently. In addition, the present invention relates to a method for improving reservoir water quality using wind power, which can simplify the construction and reduce manufacturing costs.

In general, when wastewater penetrates into a reservoir where water does not flow, such as a dam, a lake, or a reservoir, when the water exceeds its midnight capacity, the water itself decays due to depletion of dissolved oxygen due to the generation of algae such as green algae and red tide. In recent years, the pollution phenomenon such as the Sihwa Lake is the same as blocking the infiltration of wastewater has a limit, so the pollution degree is getting serious.

It is most desirable to purify and discharge the waste water as a way to improve such a problem, but most plants and facilities are difficult to solve the unauthorized discharge without operating these devices.

Another method is to maximize the self-purification capacity of dams, lakes, etc., and as a part of such a method, utility model registration application No. 95-10864 (named: Reservoir Water Quality Improvement Device) that comes from reservoirs, dams, etc. By using wind as a power source, it provides a device that circulates deep water to the surface. This water quality improving device has a problem that when driving the impeller underwater by the rotational force of the windmill blades, the direction of movement is vertically crossed so that the device is crossed with the wind so that the rotation of the driving fan is weakened and not stable.

In order to solve such a problem, Utility Model Registration No. 98-15213 (name: No-power reservoir water quality improvement device) has been filed, and this water quality improvement device uses a vane wheel as a driving unit for generating power and raises deep water. Also, the power switching is performed at both ends of the vane wheel shaft at the same time so that the direction of movement is reversed, eliminating the wind direction and the deflection phenomenon.

Such water quality improvement devices use wind power without any special power, and thus, once installed, the water quality purification is possible permanently. However, when the wind is blowing strongly, the strong wind pressure hits the drive fan strongly and the drive fan is excessively rotated more than necessary, thereby causing a problem in the drive system of the device there is a problem that is not stable and durability is reduced.

Thus, in order to solve the above problems, a wind fan reservoir water quality improvement method and apparatus that can be rotated at a low speed even when the wind blows strongly can be stably rotated and improve the durability (patent 328857). Has been filed and registered.

Looking at the configuration and effect of the wind reservoir water quality improvement method and apparatus are as follows.

First, Figures 1 to 4 is a view of the wind reservoir water quality improvement apparatus according to the present invention, Figure 1 is a perspective view taken from the upper configuration of the frame, Figure 3 is a partial cutaway plan view, Figure 3 is a configuration and operation 4 is a partially enlarged view of FIG. 3.

5 is a side view of the main portion showing the configuration and operation.

As shown, the wind reservoir water quality improvement apparatus is attached to the buoyancy body (1), (2), (3) to the frame portion (a) to support the device while floating on the water surface, and the upper surface of the frame portion (a) A drive unit (B) in which the drive fan 11 is condensed to the shaft 12 and the protective housing 10 of the drive unit (B) by relying on both protective housings 10 having the power conversion units 13 on both sides thereof. ) Feeding conduit 20 is extended from the lower side to the bottom of the reservoir, and the upper part of the feeding conduit 20, the impeller 21 which rotates by the driving force of the drive fan 11 is fed to the shaft 22 (C) and a wind control unit (D) for stably rotating the drive fan 11 by adjusting wind power.

The frame part (a) is formed of a crossbar (4) and a vertical bar (5) by using a metal material or synthetic resin such as aluminum, and the buoyancy body (1), (2), (3 ) Is shown as a fixed installation consisting of a rectangular tetrahedron, but may be in various other forms, such as polygons, discs, if necessary, buoyancy body (1), (2), (3) is foamed Resin, ball balloon, metal pressure vessel and the like can be used.

The drive unit (b) is coupled to the drive fan (11) by the shaft (12) on both sides of the protective housing (10), and transmits the driving force to the power conversion unit (13) to rotate the impeller (21) of the water induction unit (C). It is supposed to be.

The power converter 13 includes an electric gear 14 fixed to both ends of the shaft 12, a bevel gear 15 engaged with the spur gear 15a by the electric gear 14, and the impeller 21. It is composed of a bevel gear 16 is fixed to the upper end of the shaft 22 of the bevel gear 15 to be engaged with the bevel gear 15.

The power conversion unit 13 converts the direction of movement by 90 degrees by the bevel gears 15 and 16 provided in both protective housings 10, and the shaft of the impeller 21 below the bevel gear 16. 22) is connected, but such a power transmission structure is installed on both sides of the shaft 12 such that the bevel gears rotate in opposite directions.

The wind power control unit (D) rotatably couples the first control plate 30 to the hinge portion 31 on the upper portion of the frame 6, and between the driving unit (B) and the distal end of the first control plate 30. The control plate 32 is rotatably coupled to the hinge portion 33 and the rear end portion of the second control plate 32 is coupled to the lower side of the front end of the first control plate 30 so as to overlap the elastic double acting portion 34 for double acting. The water induction pipe (C) is a hollow water supply pipe (20) fixed to the bottom of the frame part (a) and connected to the connection (23) and extended on the road. On the lower side of the filtering membrane 24 is installed to filter the water flowing into the inlet (20a).

The elastic double acting part 34 fixes a pair of supporting rods 35 to the upper surface of the frame 6, connects one end of the spring 36 to the upper end of the supporting rod 35, and the other end of the spring 36. The end is connected to the rear end of the second control plate 32.

When a process such as coupling the sliding contact member 40 such as a rolling roller to the front end of the first adjustment plate 30 may be in smooth contact with the upper surface of the second adjustment plate 32.

This sliding contact member 40 may have a structure which accumulates three ball bearings in the front-end | tip of the 1st adjustment board 30, for example as shown in FIG. In addition, it is coupled to a suitable position, such as the upper edge of the sliding contact member 40, the lower end of the bottom.

The connection pipe 23 is the lower portion is submerged in the water is to be discharged in the lateral direction without rising the deep water rises above the water surface, the impeller 21 is connected to the frame 6 by the lower end connection line 25 In addition, the anchor 6 is connected to the frame 6 by a connecting line 8.

And, on both of the protective housing 10, a warning light 41 is coupled to the safety of the ship active in the surroundings at night.

The operation relationship of the water quality improving apparatus of the present invention having such a configuration is as follows.

When wind blows in the direction of arrow W shown in FIG. 2, the driving fan 11 of the driving unit (B) starts to rotate by the wind, and as the shaft 12 rotates, the electric gear 14 and the bevel gear 15 are rotated. ), 16 is rotated, the impeller 21 is rotated while the shaft 22 is rotated to draw water in the direction of arrow F shown in Figures 3 and 4 to flow.

Then, both impellers 21 are rotated by the driving force converted by the power converter 13 of both side protective housings 10, so that the rotation directions of both bevel gears 15 and 16 rotate in opposite directions. Since it is installed so that the water is inhaled from the deep but left and right side balance without taking the phenomenon is to inhale and flow.

In addition, when the wind blows strongly, the first control plate 30 is rotated to overcome the elasticity of the spring 36, the front end portion of the first control plate 30 by the sliding contact member 40 to the rear end of the second control plate 32 The second adjustment plate 32 is rotated by pressing from the top while being in smooth sliding contact, and the amount of air acting on the driving part (b) decreases as the tip portion thereof rises upward, and rotates stably.

When the strength of the wind is weakened again, the first control plate 30 and the second control plate 32 are doubled by the restoring force of the spring 36.

Thus, after fully operating the apparatus of the present invention, when the connecting line 25 is pulled and the lower membrane 24 is cleaned, the water can flow smoothly.

For example, the driving fan 11 may be manufactured in a size of about 2 m in diameter and about 5 m in length, and the manufacturing dimensions of the driving fan 11 and other components may be arbitrarily determined depending on the installation location.

Therefore, the surface water of the reservoir, etc. is circulated to the surface, but natural wind power is used as a power source, so no special maintenance is required after the installation is completed, and it is economically very advantageous to install and maintain, especially when the wind is strong. There is an advantage that the operation is stabilized and the durability is extended by rotating the drive fan by adjusting the strength by the air volume control tube.

However, as described above, the wind reservoir water quality improving device is a method of rotating the impeller by the power conversion unit to rotate the driving fan caused by the wind, thereby increasing the reservoir deep water to the surface layer. In addition, in order to increase the depth of the water by installing a water inlet containing a separate water supply conduit, there is a problem that is difficult to install due to the difficulty of the configuration and also requires a large installation cost.

In addition, the hassle of having to pull up the manure membrane at the bottom of the water supply conduit every predetermined period of time to clean.

Accordingly, the present invention has been made to solve the above problems, by allowing the surface water to be pushed deeper by the wind to circulate up and down, so that the water, such as the reservoir more circulate more efficiently and the configuration more The purpose of the present invention is to provide a method for improving the reservoir water quality using wind power, which can simplify manufacturing costs.

1 is a perspective view of a conventional wind reservoir water quality improving apparatus.

Figure 2 is a partially cutaway plan view of the conventional wind reservoir water quality improving apparatus.

Figure 3 is a partially cutaway side view of the wind reservoir water quality improving apparatus disclosed in the prior art.

4 is an enlarged view of a portion of FIG. 3.

Figure 5 is a side view showing the main configuration and action of the conventional wind reservoir water quality improvement apparatus disclosed in the prior art.

Figure 6 is a side view showing the main configuration and operation of the device for implementing the method of improving the water quality of the reservoir using the wind according to the present invention.

7 is an operating state diagram schematically showing the operating relationship of FIG.

<Description of the symbols for the main parts of the drawings>

A: Frame part B: Driving part

6: frame 11: drive fan

12 axis 13 power conversion unit

21: impeller 22: shaft

The method of improving the water quality of the reservoir using the wind power of the present invention for achieving the above object, both the frame portion for supporting the device while floating on the surface by attaching a buoyant body, both built-in power converter on the upper surface of the frame portion A driving unit in which a driving fan is axially axially relied on a protective housing, an impeller axially axially rotated by a driving force of the driving fan at a lower side of the protective housing of the driving unit, and for controlling the wind to stably rotate the driving fan. In the method for improving the water quality of the reservoir by using a wind power, comprising a wind control unit (D), the driving fan is rotated by the wind, the rotation of the drive fan converts the rotation of the drive fan to the impeller is rotated As a result, the surface water of the reservoir is circulated while being pushed down to the depth.

In this case, the impeller is characterized in that the water of the upper portion is configured to be pushed down according to the rotation.

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

FIG. 6 is a sectional view showing main parts of a reservoir water quality improving apparatus for illustrating a method of improving reservoir water quality using wind power according to the present invention, and FIG. 7 is an operating state diagram schematically showing an operation relationship thereof.

In describing the present invention, the same reference numerals are given to the same parts as in the related art, and repeated descriptions thereof will be omitted.

As shown, the frame portion (a) for supporting the device while floating on the surface by attaching buoyancy bodies (1), (2), (3), and the power conversion portion on both sides on the upper surface of the frame portion (a) The driving fan (B) in which the driving fan 11 is fixed to the shaft 12 by relying on both protective housings 10 having the built-in, and the driving fan under the protective housing 10 of the driving part (B). The device is configured to include an impeller 21 fixed to the shaft 22 so as to rotate with the driving force of 11, and a wind control unit (D) for stably rotating the drive fan 11 by controlling wind power. It is.

In the device having the above configuration, the drive fan 11 is rotated by wind power, and the power conversion unit 13 rotates the impeller 21 by changing the direction of the rotation of the drive fan 11. In turn, the surface waters of the reservoir are circulated down to the depths.

In this case, the impeller 21 is applied to a structure that pushes the water of the upper side rather than the structure of pulling the water of the lower side according to the rotation.

Therefore, the impeller 21 does not have to raise the depth of water while rotating, bar configuration can be excluded, including the conventional water induction pipe as in the prior art.

As described above, according to the method for improving the water quality of the reservoir using the wind according to the present invention, the surface water is pushed downward by the wind, and thus the force is less than that of the conventional water. In addition, the circulation efficiency is increased such that the load of the impeller is reduced, and thus the oxygen supply is smoother than the conventional top-down, so that the water quality is excellently improved, and the configuration of the feeding portion including the water supply pipe to guide deep water can be eliminated. There is a useful effect that the installation is easy due to the simplification of the configuration, the production cost is reduced.

In addition, due to the exclusion of the water induction pipe including the water supply conduit as in the prior art, the filter membrane for removing foreign matters of the deep water installed at the bottom of the water supply conduit and transported to the surface layer is also excluded. There is a useful effect that there is no inconvenience.

Claims (2)

A frame part (a) for supporting the device while floating on the surface by attaching buoyancy bodies (1), (2), and (3), and a power converter (13) on both sides on the upper surface of the frame part (a) The driving force (B) in which the driving fan 11 is fixed to the shaft 12 by the two protective housings 10, and the driving force of the driving fan 11 under the protective housing 10 of the driving portion (B). Impeller 21 is condensed to the shaft 22 so as to rotate in the wind, and the wind control unit (D) for stably rotating the drive fan 11 by adjusting the wind power is composed of the water quality of the reservoir using the wind power In a method for improving the The drive fan 11 is rotated by the wind, the power conversion unit 13 converts the rotation of the drive fan 11, the impeller 21 is rotated, so that the surface water of the reservoir is circulated as it is pushed down deep Method for improving the water quality of the reservoir using the wind power. The method of claim 1, The impeller (21) is a water quality improvement method of the reservoir using the wind, characterized in that configured to be pushed down to the bottom of the water in accordance with the rotation.