JP2010101298A - Vertical type collateral output collecting wind turbine generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem wherein there is no successful wind turbine generator with a problem of safety, weak wind force, or the like in a comparatively low place although a vertical type has been considered as a conventional wind turbine generator for an ordinary household. <P>SOLUTION: Several wind receiving devices are erected in parallel, and a power generator 3 is installed at only one of them, while the others are made only for collecting wind force to make almost all the received wind force of the wind receiving devices erected in parallel, into turning force which is concentrated on the generator 3 to increase output. A vertical multistage type wind turbine generator easy in maintenance management, low in cost and suitable for the ordinary household is thus developed. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

The present invention relates to the discovery of a method that can increase the wind receiving efficiency and increase the output in the process of developing the generator, which is applied to the previously developed prior art.

  No. 37188839   No. 4000536

The prior art wind receiving mechanism is a mechanism that mainly directs the wind force of the received wind with the guide blades and rotates the rotating blades, and removes the part that becomes the reverse wind. Therefore, it was not possible to find a power generator corresponding to this kind of conventional generator, so in the process of developing a power generator unique to the prior art, the method in the prior art Was a mechanism in which one generator was attached to one wind receiving mechanism. According to the policy of the prior art, the reverse wind on one side of the wind receiving mechanism was considered to be unrelated to power generation. Looking at the wind power, it was found that the next wind power can be applied to the wind power, and the reverse wind can be applied to the wind power.

In the generator, as shown in FIG. 6, the magnet (9) is attached to the lower part of the rotating blade (1), and the coil (8) is attached to the fixed side of the lower part of the guide blade (2). As a matter of fact, the magnet and the coil are repeatedly moved close to and away from each other by rotating to generate electricity. In this way, as shown in Fig. 1, when three units are arranged side by side and a weak wind is used as an opponent, all three units generate electricity. From the installation of the machine (3), it was considered that the two units would only have a rotational force and concentrated on one central generator (3). In addition, as shown in FIG. The guide wind (2) was used to remove the splashes, but for the most efficient application, a thin plate called the sorting plate (13) was changed to wind power as shown in "Fig. 2". Affixed to the guide wing (2) in the target direction, and the headwind is completely distributed to the left and right as if it is congruent with the adjacent rotational force. , Was a method that can be applied to all of the wind to the rotational force,

As shown in "Fig. 5", three outputs are arranged side by side, two are not equipped with generators, the remaining one is equipped with a generator (3), and two torques are applied to the belt ( 6) If they are combined into one unit, etc., weak winds gather together to increase the output, the output waveform becomes single, and a further arranged wind receiving mechanism that is an effective mechanism for electric motor control is shown in FIG. As shown in Fig. 4, if the lower mounting plate (10) and the upper mounting plate (4) are sandwiched and integrated, standardized and connected to the underframe (7), the side-by-side mechanism can be easily assembled and disassembled. Can be repaired, inspected and maintained, or replaced with disassembled parts.

The present invention is a method that allows wind power to pass through the rotor blades as in a conventional vertical wind power generator, or a method that cannot be applied to the propeller type, and even wind power that can avoid backwind in prior art applications. Was specified, but it was not specified until it was surprisingly effective after that. The efficiency by this method is difficult with other methods, and will be explained in detail with the drawings of this application.

Although the present invention has been advanced for general households with a power generation method applied to the prior art, it has become a relatively lowland application, and the relatively weak wind power has been a problem from the beginning.If this problem can be solved, It was thought that it would be useful in every direction as well as ordinary households.
As for the wind receiving device this time, it was completed in the prior art, so when developing the improved generator (3) corresponding to that, unexpectedly, when the wind receiving mechanism of the prior art was juxtaposed , It was found that the wind force from which the reverse wind was removed was combined with the adjacent rotational force, and that most of the received wind force became the rotational force. If only one generator (3) is installed and only one in the center is installed, and the three are connected by a belt, chain, gear, or crank type lot, the rotational force of the three units is concentrated in one in the center. In addition, since the wind force of the head wind can be applied to the rotational force, the calculation that draws out the output of the conventional 5 units theoretically, with the exclusion of the head wind, is the most effective way to apply the weak wind. It is a method that has never been obtained as a method of light wind application that has obtained the results It is,

In this invention, since the head wind is applied to the rotor blade (1) without waste, the distribution plate (13) is attached to the guide blade (2) as shown in FIG. The wind power is reliably distributed to the left and right, the left is the rotor and the right is guided to the next rotor.

"Fig. 3" shows the central view of 3mm from the side, in which the wind receiving device, the generator (3), the lower installation plate (10) and the upper installation plate (4) are integrated. The lower part is attached to the underframe (7) and the upper part is attached to the upper support (14). The three installation plates (10) on the lower part are almost the same as "Figure 4", but both sides generate power. Since there is no machine, the coil mounting seat (15) is unnecessary, it is attached to the base frame (7) with bolts at the long holes, the upper mounting plate (4) is circular, and it is attached to the upper support (14).
As explained in Fig. 1, the upper support (14) is provided with a joint (16), and in the case of temporary removal such as repair and inspection, it can be removed temporarily, so that the work can be done easily and during the removal. Others have a structure that does not interfere with operation. However, when applied to a building wind, etc., the lower frame (7) is unnecessary, and it is used as a structural material between buildings in the same way as the upper and lower parts. It is a policy to tighten,

Although the present invention was established with the aim of applying ordinary winds to general households, as described above, as a method for efficiently capturing wind power, it seems that it can be applied to other methods, so that Enumerate the merits,

In the conventional vertical type, half will receive the reverse wind of the rotation, but in this proposal, the guide wing (2) will remove the splash, and if the wind receiving mechanism is arranged side by side, the removed wind will be combined with the adjacent rotational force, This ability to convert to a rotational force, which was made sure by attaching a sorting plate (13),

If the rotational force of the arranged wind turbines is connected by the belt (6) shown in FIG. 5 or the like, it is not necessary to attach a generator (3) to each, and the output has the generator (3) therein. It can be integrated into one unit, the structure is simple, the production cost is low, and the maintenance is easy. (Hereafter, the wind turbine without a generator is called a subordinate vehicle)

If the subordinate vehicle connects three units via the belt wheel (5) and the belt (6) etc., the three units automatically align with each other, and the subordinate vehicle also functions as a flywheel, The waveform is also relatively unified, which is convenient for electrical control.

Conventional moment of inertia is a thing that calculates the turning radius from the total mass from the center of the rotating body to the peripheral edge, so there is a loss of swinging the mass until then, but in the rotor blade (1) of this proposal In the sky, there is little such loss, but the power generation cocking is absorbed by wind power, absorbing efficiency is good, and it is possible to increase output in a very effective way to use weak wind, Suitable for general house bottom,

Because it is a more efficient system due to the fact that it is lined up, there are conditions that cannot be eliminated by conventional wind power generators, such as building winds, river winds, windstorms, substitution of windbreak forests, and other uses of heat and remote areas So I think that the scope of use will be expanding,

The present invention is a method in which the direction of wind force is not present in the case of a single unit, but there was an opinion that when the distribution plate (13) is installed, the direction can be achieved, but the wind force is distributed over the distribution plate (13 ), The direction of the wind force depends on the terrain, and it seems out of the question.

In this mechanism, for example, if you remove one subordinate vehicle for repair, each unit is integrated, so the other two units can be operated normally.
The above conditions are conditions that cannot be achieved with any other vertical type or propeller type, and are considered to be a good method for extracting output that is equivalent to strong winds by applying weak winds.

In order to fully demonstrate the above-mentioned specificity, the means will be described, that is, “FIG. 1” is a side view in which three units are arranged side by side, and the upper circular view is a plan view of the upper portion, “FIG. 2”. Is a plan view showing the relationship among the rotary blade (1), the guide blade (2) and the sorting plate (13), and the guide blade (2) is a mechanism for guiding the wind force received in a fixed manner and blowing it to the rotary blade (1). “FIG. 3” shows that the wind receiving mechanism, the generator (3), the lower installation plate (10), and the upper installation plate (4) are integrated into the base frame (7) and the upper support (14). In the attached side view, the subordinate vehicle, which is a set of the center, is the same as the one with the generator (3) taken, "Fig. 4" is a plan view of the lower mounting plate (10), and the guide wing ( The generator coil (8), which shows the mounting hole (11) that holds the guide wing (2) by inserting the column (12) of 2), is also attached to this plate. There are four mounting positions on the mounting seat (15). However, it is not necessary for the installation plate (10) of the subordinate vehicle. The upper installation plate (4) is a circular one. "Fig. 5" Fig. 6 shows a driving state in which three units arranged side by side are linked via a belt (6) and a belt wheel (5). Installed at the four positions shown in the figure. There are currently nine magnets (9) on the rotor blade (1) and four coils (8) on the fixed part. The number used is not limited, but the drawings used for this application are excerpts from the production drawings. If there is a request for examination, we will submit a reference drawing and explain it by interview.

Since the start of the development of the generator corresponding to the prior art, every time the experiment is repeated, the side effect inevitably turns the headwind into the rotational force, and the effective use of the weak wind increases the output. , And confirmed that side by side is very effective for the use of weak winds,

In "Fig. 1", when wind force is received from the direction shown in the figure, the distribution plate (13) of "Fig. 2" is surely guided to the left and right, and the left acts directly on the rotor blade (1). When the three units are arranged side by side in this way, the two units have rotational forces on both sides, counting from the left, and the third unit is a half and a total of five sides. You will receive the wind power of the wind as a rotational force,

The present invention can increase the output by applying a weak wind by consolidating the rotational force of the number of parallel units into one set of generators (3), and also the action of the flywheel in the subordinate vehicle In FIG. 5, the generator (3) is installed in one of the centers and the generators (3) are not installed in the two on the left and right. However, the load on the subordinate vehicle is light, and even the same wind force rotates to fill these variations, and the subordinate vehicle also functions as a flywheel, making a single adjustment of the output waveform. It can be said that it is convenient for future power adjustments.

Next, I will explain "Fig. 3". The figure shows a central windmill with a generator (3), but the subordinate car has almost the same structure, depending on whether or not it has a generator. Yes, as shown in the figure, each is integrated with the installation plate (10), and "Fig. 1" is a side view of these installation plates (10) connected to the underframe (7). Subordinate vehicles have the following benefits by connecting them at appropriate intervals according to the long holes of the installation plate (10).
Belt tension can be adjusted easily, replacement of parts for repair and inspection can be done easily, even if one of the subordinate vehicles is removed, the other two units can be operated normally, next to the headwind , The spacing can be adjusted to the most effective state.

This development is basically based on connecting the integrated objects to the underframe (7) as described above and arranging the generator (3) on one of them and concentrating wind power on that one. Then, the generator (3) to which to attach depends on the situation of the equipment location, this time it was attached to the center,

With regard to this development, in the prior art, the configuration of the windmill has already been described, and a side-by-side drawing has also been described, but the effect was not described in the scope of the claims. On the way, it is very effective that the wind force in the opposite wind is synchronized with the adjacent rotational force, and by integrating the wind receiving mechanism, maintenance management is easy, and now global warming Since it seems to be a thing attached to the condition of correspondence, I will explain the effect with the addition of a new discovery below.

The wind receiving area of the propeller system described for the wind power application of this mechanism is lower than the wind receiving circle area drawn by the propeller, because the wind power efficiency is only in terms of the propeller, and the wind power is still converted by 90 degrees. In contrast to vertical types, many of them are passed through the inside of the rotor blade (1) so that the wind is not turned into a rotating force, and the remaining part is applied by the moment of inertia calculated from the minimum to the maximum. However, in this formula, most of the wind force of the direct wind area received by the direct wind is added to the wind force, and the wind force is almost the same. Since it is concentrated and converted to rotational force with direct current, it is efficient and does not produce sound.It is an efficient method like this, but paralleling is a set of standardization, so switching functions, Parts can be replaced, disassembled and assembled relatively easily and repairs can be maintained. Easy and therefore, maintenance also think easy, it seems the effect is large compared them to conventional ones,

BEST MODE FOR CARRYING OUT THE INVENTION

As mentioned above, this power generation system can be applied widely as a substitute for wind power generators used in ordinary homes and modern ones by combining several rotating powers into one unit and skillfully applying weak wind power. It can be said that it is an unprecedented method, but there is still room for development, even if the shape of the blade is changed, there is room for change depending on the result of implementation. I think that it is a promising idea that has room for development with an incomplete but deep method, like a freshly developed airplane,
As I mentioned earlier, today we are crying out to prevent global warming, and if I can help with help, it will be an unexpected joy, and as a peace industry, I want to support the public,

Side view and top plan view of triple side by side of the present invention Plan view showing the relationship between rotor blades, guide blades and sorting plate Side view of basic structure of vertical wind receiving mechanism Plan view of the installation plate Side view showing drive relationship Side view of the generator

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Rotating blade 2 Guide blade 3 Generator 4 Upper installation board 5 Belt wheel 6 Belt 7 Base frame 8 Coil 9 Magnet 10 Lower installation board 11 Mounting hole 12 Support | pillar 13 Distribution board 14 Upper support 15 Coil installation seat 16 Joint

Claims (1)

    Several vertical wind receiving devices composed of rotor blades (1) and guide blades (2) are installed in parallel, and only one of them is equipped with a generator (3), and the others receive wind. A dedicated wind turbine, which is the back wind of each, is also provided with a sorting plate (13) to ensure that it is returned to the output-assisted rotational force, and almost all of the wind received is rotated by direct current wind power. Vertical type combined output wind turbine generator that collects power as power to the generator (3), strengthens weak wind power, and generates power

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