KR20120015755A - Power generator using flowing water - Google Patents

Abstract

PURPOSE: A small hydro power generator is provided to control the balance of a water turbine by successively filling sealed spaces symmetrically located with water. CONSTITUTION: A small hydro power generator comprises concentric partitions(220), radial partitions(230), side plates(240), and injection ports(241). The concentric partitions are arranged between a rotary shaft(100) and a blade plate(250). The radial partitions are radially arranged around the rotary shaft to divide the concentric partitions into equal parts. The side plates are attached on both ends of a space formed by the partitions to seal the space. The injection ports are formed in the side plates and inject water into the sealed space.

Description

Hydrogen Generator {Power generator using flowing water}

The present invention is a hydrophobic power generator which is provided on a water channel and generates power of rotation of aberrations in which a plurality of wing plates are arranged at equal intervals on a concentric circle of a rotating shaft and the rotating shaft, and disposed between the rotating shaft and the wing plate. Concentric bulkhead; A radial partition wall radially disposed at the center of rotation of the rotation axis to divide the concentric partition wall into equal parts; Side plates attached to lateral both ends of the space consisting of the partition walls to seal a space formed of the concentric partition and the radial partition wall; And an injection hole provided in the side plate to inject water into a confined space consisting of the concentric partition wall, the radiation partition wall and the side plate.

In order to use and enjoy civilization in modern society, there are many situations in which so-called power of electric energy must be borrowed. However, the reality is that most of the electrical energy relies on fossil fuels, that is, coal-fired power plants that burn coal and oil to return steam turbines. However, fossil fuels have limited reserves, and problems such as environmental pollution and global warming due to carbon dioxide generated when burning fossil fuels have always emerged.

Therefore, research on solar energy, nuclear energy, hydro energy, tidal energy, etc. has been conducted as alternative energy of fossil fuels, but among these, nuclear energy has high costs such as radioactive waste disposal and nuclear accidents such as radioactive leakage. There is a problem, and in addition, the above-mentioned nuclear energy, hydro energy, and tidal energy have a problem of a large scale of business and a geographical limitation of a national unit.

However, since many demands for electric energy require small power such as homes, businesses, and agriculture, solar energy has emerged as a power generation method that meets this demand. However, these solar energy also had a limit that can be used only during the daytime when the sun is floating, there is a problem that power generation efficiency is lowered when the weather is cloudy or the sun obscures the cloud. Therefore, in order to solve the problems mentioned above, there is a need for a form of power generation without using fossil fuels, without danger of releasing harmful substances, and without significantly affecting weather changes.

As one of the methods for solving the above-mentioned problems, a small hydro power generator has attracted attention. The hydropower generator is a power generation method that generates electric energy by installing aberrations in the middle of waterways such as rivers and streams without installing a dam, and is capable of producing relatively stable power except in the event of extreme drought.

However, even in the case of such a hydroelectric power generator, the flow rate and flow rate are not always constant, so there is a problem in that power generation efficiency is lowered. In this case, since the amount of electrical energy produced by the generator is irregular, there are many restrictions on the efficient use of electrical energy.

Therefore, in order to overcome the limitations of the flow rate and flow rate, which are changed at every moment, as shown in the cross-sectional view of the conventional hydrophobic aberration generator of FIG. This problem was solved by increasing the rotational inertia of. In this case, unless the flow rate and flow rate change excessively, the change of the flow rate and the flow rate to some extent can be solved by the rotational inertia force by the inertial weight 2.

However, the prior art also requires a lot of effort to move and install by binding the inertial weight at the time of manufacture to produce the finished product, and also the flow rate and flow rate is different depending on the place where the aberration is installed, even in one place according to the season Since hemp flow rate and flow rate are changed, the weight of the inertia weight should be set according to the standard flow rate and flow rate.

Therefore, there is a need for a hydrophobic generator having aberrations capable of adjusting the weight of the inertia weight according to environmental requirements such as the place and season where the aberration is installed.

Therefore, the object of the present invention, by filling the water in the closed space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 to act as an inertial weight, there is no need to hang the inertial weight when manufacturing installation weight It is to provide a small hydro power generator that is light and easy to move and install.

Another object of the present invention, without filling all the sealed space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 sequentially fill the closed space of the symmetrical position and balance and inertia of the aberration 200 By adjusting the weight of the weight, it is to provide a hydropower generator that can easily adapt the weight of the inertia weight to the change of season or the installation site.

It is still another object of the present invention to provide a hydrophobic power generator having a wide range of choices in the selection of transportation means since each component can be assembled and installed in the field.

The hydrophobic power generator of the present invention is installed on a water channel and generates power by rotating torque of aberrations 200 in which a plurality of wing plates 250 are arranged at equal intervals on the concentric circle of the rotating shaft 100 and the rotating shaft 100. In the hydrophobic generator, the concentric bulkhead 220 is disposed between the rotary shaft 100 and the blade plate 250; A radial partition wall (230) radially disposed at the center of rotation of the rotation shaft (100) so as to divide the concentric partition wall (220); Side plates 240 attached to both lateral ends of the space consisting of the partition walls to seal a space formed of the concentric partition wall 220 and the radiation partition wall 230; And an injection hole 241 provided in the side plate 240 to inject water into a confined space formed of the concentric partition wall 220, the radiation partition wall 230, and the side plate 240. It is done.

In the hydrophobic generator of the present invention, by filling the water into a confined space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 to act as an inertial weight, there is no need to suspend the inertial weight during manufacturing installation weight Lightweight, easy to move and install has the effect.

In addition, the hydrophobic generator of the present invention, without filling all the sealed space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 sequentially fill the closed space of the symmetrical position of the balance of the aberration 200 and By adjusting the weight of the inertial weight, there is an effect that can easily apply the weight of the inertial weight appropriate to the change of season or the installation place.

In addition, since the hydrophobic generator of the present invention can be installed by assembling each component in the field, there is a wide range of choices in the selection of the transportation means.

1 is a perspective view of a hydropower generator according to an embodiment of the present invention.
2 is a cross-sectional view of the aberration of the hydrophobic power generator according to the embodiment of the present invention.
3 is a cross-sectional view of the aberration of the conventional hydropower generator.

Hereinafter, the hydrophobic power generator according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a hydropower generator according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the aberration of the hydrophobic power generator according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the aberration of the conventional hydropower generator.

As shown in FIGS. 1 and 2, the hydrophobic power generator according to the embodiment of the present invention has a rotating shaft 100, a guide 210, a concentric partition wall 220, a radial partition wall 230, a side plate 240, and a wing plate ( 250).

Rotating shaft 100 is a cylindrical shape that is commonly used, the aberration 200 is finally mounted, the drive shaft and aberration 200 to transmit the rotational force of the aberration 200 to the generator 300 to produce electrical energy ) As a support.

Both ends of the rotation shaft 100 are connected to the pedestal 110 to enable a rotational movement, and the guide 210 of the aberration 200 is fixedly mounted at the middle of the rotation shaft 100. On the other hand, either end of the rotary shaft 100 is provided with a pulley 120 to be connected to the motor shaft of the generator 300, the motor of the generator 300 through a belt 121 connected to the pulley 120 Rotate the shaft to generate electrical energy. However, not connected in the form of the pulley 120 and the belt 121, it is also possible to connect by gears, chains and the like. In addition, the rotary shaft 100 is also directly connected to the motor shaft of the generator 300, it is also possible, the rotational force of the rotary shaft 100 is transmitted to the motor shaft of the generator 300 is any form that can generate electrical energy Of course it is possible.

The aberration 200 is inserted into the middle part of the rotation shaft 100 and fixedly transferred to the rotation shaft 100 by converting the potential energy or kinetic energy of the water into rotation energy, and the aberration 200 according to the embodiment of the present invention is a guide. It consists of 210, the concentric partition 220, the radiation partition 230, the side plate 240, and the wing plate 250. As shown in FIG.

Looking at this in more detail, the guide 210 is located in the center of the aberration 200, the inner circumference is in close contact with the outer circumference of the rotary shaft 100 is firmly fixed. The guide 210 serves as a fixing member in which the radial partition wall 230 of the aberration 200 is mounted at equal intervals, and serves as a power transmission member for transmitting the rotational force of the aberration 200 to the rotating shaft 100.

The concentric partition wall 220 is disposed between the rotation shaft 100 and the wing plate 250, and a strip-shaped partition wall is disposed on the concentric circle of the rotation shaft 100 to form a cylindrical shape. The concentric bulkhead 220 is combined with the radial bulkhead 230 to be described below to form a space to trap water.

Radiation partition wall 230 is made of a plate-like, a plurality of radially centered on the center point is arranged so as to form an equal interval radially so that one end is fixed to the guide 210. The radial partition wall 230 forms a space by dividing the concentric partition wall 220 arranged to be concentric with the rotation shaft 100.

Side plate 240 is attached to both sides of the space consisting of partitions to seal the space consisting of the concentric bulkhead 220 and the radial bulkhead 230, the side plate 240 of the concentric bulkhead 220, the radial bulkhead 230 Injecting water 241 is provided on one side to serve as an inertial weight by injecting water into the closed space consisting of.

On the other hand, the side plate 240 may selectively seal the space in the symmetrical position with respect to the rotation axis 100 of the space consisting of the concentric partition wall 220 and the radiation partition wall 230, in this case the side plate 240 The space not sealed by) has a shape penetrated from the side.

The wing plate 250 is fixed at the other end of the radial partition wall 230 or fixed at equal intervals to the concentric partition wall 220 disposed at the outermost side with respect to the rotation axis 100 to transmit kinetic energy or potential energy of water. Although the shape of the side plate 240 is connected between each of the wing plates 250, but not limited to this, only the wing plate 250 without the side plate 240 is connected, triangular side plate ( Various forms, such as the form of 240, the shape of the bucket (Bucket) is possible, and any structure can be any of the structure that receives the potential energy or kinetic energy of the water directly to the aberration 200.

On the other hand, the inertia added aberration 200 is also applied to the inertial force in the stationary state, so it takes time to slowly accelerate to obtain a smooth rotational inertia. Since the power generation efficiency may be deteriorated because sufficient torque is not obtained during this time, an electric motor (not shown) or a manual handle (not shown) that initially drives the aberration 200 in a stationary state to generate a rotational inertia force at one end of the rotating shaft 100. The initial drive device, such as h) may be further included.

Looking at the state of use of the hydrophobic generator of the present invention having such a structure, the closed space is easily moved to the installation place aberration 200 is coupled to the rotating shaft 100 and the pedestal 110, the generator 300 After connecting each of the fixing parts, by determining the flow rate and flow rate of the water to open the inlet 241 of the closed space to inject water to act as an inertial weight.

At this time, the water is injected in pairs in a vertically and symmetrically closed space according to the flow rate and flow rate, it is not necessary to inject water into all the sealed space.

For example, in Korea, where the flow rate is abundant in the summer and the flow rate is insufficient in the winter, in the summer, the water is filled in each enclosed space, and in the winter, water is extracted from a plurality of pairs of confined spaces that form rotational inertia. Make it adjustable.

At this time, filling the water from the closed space in the distant place based on the rotation axis 100 may receive a large rotational inertia force, but may also fill the water from the closed space close to the situation according to the situation, to limit the order in the present invention It is not.

In addition, the hydrophobic power generator of the present invention may be installed by moving the aberration 200, the assembly of which is not filled with water at the factory, to the installation place, but may be installed by assembling each component by transporting it to the site. Therefore, when a large aberration (200) is required, there is no need for a large truck to transport it, thereby reducing the cost of transportation, and also because it can transport a narrow road that cannot be entered by a small truck to a small place. There is a wide range of choices for transportation.

Thus, the hydrophobic power generator of the present invention, by filling the airtight space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 to act as an inertial weight, there is no need to suspend the inertial weight during manufacturing installation It is light in weight and easy to move and install.

In addition, the hydrophobic generator of the present invention, without filling all the sealed space consisting of the concentric bulkhead 220, the radial bulkhead 230 and the side plate 240 sequentially fill the closed space of the symmetrical position of the balance of the aberration 200 and By adjusting the weight of the inertia weight, the weight of the inertia weight can be easily applied to the change of season or the installation place.

In addition, since the hydrophobic generator of the present invention can be installed by assembling each component in the field, there is a wide range of choices in the selection of the transportation means.

100: rotating shaft 110: pedestal
120: pulley 121: belt
200: aberration 210: guide
220: concentric bulkhead 230: radial bulkhead
240: side plate 241: inlet
250: wing 300: generator

Claims (4)

In the hydrophobic power generator which is installed on the water channel, the plurality of wing plates 250 are arranged at equal intervals on the concentric circle of the rotating shaft 100 and the rotating shaft 100 to generate power as a power.
A concentric partition wall 220 disposed between the rotation shaft 100 and the wing plate 250;
A radial partition wall (230) radially disposed at the center of rotation of the rotation shaft (100) so as to divide the concentric partition wall (220);
Side plates 240 attached to both lateral ends of the space consisting of the partition walls to seal a space formed of the concentric partition wall 220 and the radiation partition wall 230; And
An injection hole 241 provided in the side plate 240 to inject water into a closed space consisting of the concentric partition wall 220, the radiation partition wall 230, and the side plate 240;
Small power generator, characterized in that configured to include. The method of claim 1,
The concentric partition wall 220, a hydrophobic generator characterized in that a band-shaped partition wall is arranged on the concentric circle of the rotating shaft 100 to form a cylindrical shape. The method of claim 2,
The radial partition wall 230, the hydrophobic power generator, characterized in that the plurality is arranged in the same interval is arranged in a plate. The method of claim 3, wherein
The side plate 240 selectively seals a space at a position symmetrical with respect to the rotation axis 100 in a space formed by combining the concentric partition wall 220 and the radiation partition wall 230. Hydropower generator.

Images