KR20130076951A - Wind and solar power and wind power complex with heat - Google Patents

Abstract

PURPOSE: A combined wind power generator using wind, solar heat, and heat is provided to feed and compress the wind, the solar heat, and the heat, and to directly transmit the solar heat or the heat to blades at a rotating body, thereby generating electric energy with the rotational force of the rotating body. CONSTITUTION: A combined wind power generator using wind, solar heat, and heat includes a rotating body (1), a tower (2), and a nacelle (3). The rotating body converts wind energy into mechanical energy, and comprises blades (10), a shaft (12), a cover ring (12), a heat supply compressor (6), and a solar heat collecting panel (4). The tower is coupled with the solar heat collecting panel. The nacelle comprises a lower bearing, an accelerator (17), a generator (18), a storage battery (19), an inverter (20), an automatic control unit (21), and a temperature detecting sensor (22). [Reference numerals] (17) Accelerator; (18) Generator; (19) Storage battery; (20) Inverter; (21) Automatic control unit; (22) Temperature detecting sensor

Description

Wind and solar power and wind power complex with heat {wind and solar power and wind power complex with heat}

The present invention relates to a combined wind power generator using wind, solar heat, and heat, and more particularly, using wind when there is wind, and supplying heat during the day and heat at night in a wind-free high temperature and high humidity climate. Compressing, by directly injecting the solar heat or heat to the blades constituted by the rotating body, the rotating body obtains the rotational force to produce electric energy, characterized in that the wind and solar heat and the combined wind power generator using heat.

Wind power generators use the aerodynamic properties of the kinetic energy of the air flow to rotate the rotor to convert it into mechanical energy and obtain electricity from the mechanical energy. However, in a climate of high temperature and high pressure, there is a problem in that the windless rotor is not able to obtain rotational force of the wind turbine.

Due to such a problem, the rotational force of the rotating body was obtained by using the solar heat collected from the solar heat collecting plate, and by spraying the collected solar heat on the entire rotating body to have the rotational force of the rotating body, The problem of inefficient efficiency due to the dissipation of solar heat between the wing and the wing and the outside of the rotor, and the problem of not being able to obtain the rotational force of the rotating body by using the solar heat at night when the sun disappeared and the rotational power of the rotating body using the heat There is a problem in that propulsion and efficiency are reduced by dispersing heat to the outside of the wing and the wing which are configured as a whole, and when heat and heat are combined, heat is discharged to the solar heat collecting plate.

Therefore, the present invention allows the rotating body to have a rotational force using the wind when there is a wind, the solar heat during the day in the climate of high temperature and high humidity, the rotation body to obtain the rotational power by using heat at night, solar heat or Solar heat or heat must be supplied and compressed to increase the power of heat, and heat must not be released to the solar heat collecting plate when heat is used. The objective is to provide a combined wind power generator using wind, solar heat and heat that is injected into the front of the engine to provide propulsion.

The configuration of the present invention and the rotating body for converting the wind energy into mechanical energy; The rotating body includes a wing, a shaft configured to be coupled with the wing, a covering configured to be coupled with the shaft, an upper end portion of the central shaft configured to be coupled with the covering, and a bearing configured to be coupled to the upper end portion of the central axis; A heat supply compression device configured to be coupled with a bearing, a heating wire configured to be coupled with the heat supply compression device, a heat supply separator configured to be coupled with the heating line, a solar heat collector configured to be coupled with the heat supply separator, and the solar heat collecting plate; A tower configured to be coupled, an upper bearing configured to be coupled with the tower, a central shaft middle portion coupled to the upper bearing, a central shaft lower portion coupled to the central shaft middle portion, and a lower portion of the central shaft; A lower bearing configured to be coupled and a nacelle configured to be coupled to the lower bearing; The nacelle includes a speed increaser for increasing the rotational speed of the rotating body, a generator configured to be coupled with the speed increaser, a storage battery coupled to the generator, an inverter coupled to the storage battery, and an automatic control coupled to the inverter. Apparatus, the automatic control device and the temperature sensor provides a combined wind power generator using the wind, solar and heat, characterized in that the configuration is configured.

In addition, the solar heat supply pipe coupled to the solar heat collecting plate, and the heat supply separator coupled to the solar heat supply pipe; The heat supply separator includes a blocking portion, an opening / closing portion coupled to the blocking portion, a beads coupled to the opening / closing portion, and a heat supply compression device coupled to the beads; The heat supply compression device includes a lower housing, an upper housing coupled to the lower housing, a compressed heat outlet coupled to the upper housing, a heat supply tube coupled to the compressed heat outlet, and the heat supply tube. The heat injector is configured to be coupled with, characterized in that the heat injector and the blade is configured to be combined.

In addition, the automatic control device is coupled to the temperature sensor, the storage battery is coupled to the automatic control device, the heat supply compression device is coupled to the storage battery; The heat supply compression device includes a lower housing, a heating wire coupled with the lower housing, an upper housing coupled with the heating wire, a compressed heat outlet coupled with the upper housing, and coupled with the compressed heat outlet. A heat supply pipe, a heat injector configured to be coupled with the heat supply pipe, and the heat injector and the blade are configured to be configured to be coupled.

In addition, the heat injector is an inner portion coupled to the heat supply pipe, the heat dissipation portion coupled to the inner portion, the cover front portion coupled to the elliptical cover coupled to the heat discharge portion, and the cover The front portion and the back portion is characterized in that the combination is made.

Combined wind power generator using the wind and solar heat and heat of the present invention using the wind when there is wind, the effect of the rotor to obtain the rotational power by using the heat of the sun at night and heat at night in a high temperature and high humidity climate The heat loss generated by combining solar heat and heat is effective in that the heat generated from the heating wire by the heat supply separator is not discharged to the solar heat collecting plate. By having a driving force to increase the efficiency of solar heat or heat has the effect of increasing the rotational force of the rotating body.

Therefore, there is an effect of producing electric energy using a composite wind power generator using wind, solar heat and heat according to the present invention, and since it is a pollution-free resource development, it will have a very useful effect in the renewable energy industry while having an eco-friendly effect. .

1 is a perspective view showing a combined wind power generator using the wind and solar and heat of the present invention.
Figure 2 is a front view showing a combined wind power generator using the wind and solar heat and heat of the present invention.
3 is a cross-sectional view showing a solar heat supply apparatus of a combined wind power generator using the wind, solar heat and heat of the present invention.
Figure 4 is a front view showing the solar heat and heat supply (solar heat collector and heating line and heat compression supply device) of the combined wind power generator using the wind and solar heat and heat of the present invention.
Figure 5 is a perspective view showing a heat injector of the combined wind power generator using the wind and solar heat and heat of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a combined wind power generator using the wind, solar heat and heat of the present invention, Figure 2 is a front view showing a combined wind power generator using the wind, solar heat and heat of the present invention, Figure 3 is 4 is a cross-sectional view illustrating a solar heat supply apparatus of a combined wind power generator using wind, solar heat, and heat, and FIG. 4 is a view illustrating a solar heat supply of a combined wind power generator using wind, solar heat, and heat of the present invention. Apparatus) is a front view, Figure 5 is a perspective view showing a heat injector of a combined wind power generator using the wind, solar and heat of the present invention.

As shown in Figures 1 to 5, the present invention includes a rotating body (1) for converting wind energy into mechanical energy; The rotor 1 is coupled to the wing 10, the shaft 13 is configured to be coupled with the wing 10, the covering 12 is configured to be coupled to the shaft 13, and the covering 12 A central shaft upper end portion 11a configured, a bearing 6d coupled with the central shaft upper portion 11a, a heat supply compression device 6 coupled with the bearing 6d, and the heat supply A heating line 9 coupled with the compression device 6, a heat supply separator 30 coupled with the heating line 9, a solar heat collecting plate 4 coupled with the heat supply separator 30, and A tower 2 coupled to the solar heat collecting plate 4, an upper bearing 16a coupled to the tower 2, and a central shaft 11b coupled to the upper bearing 16a; , A central shaft lower end portion 11c coupled with the central shaft middle portion 11b, and a lower bearing 16b coupled with the central shaft lower portion 11c. And a nacelle 3 coupled to the lower bearing 16b; The nacelle 3 is configured to combine with the generator 18 and the generator 18 coupled with the speed increaser 17 to increase the rotational speed of the rotor 1 and the speed increaser 17. Storage battery 19, the inverter 20 is configured to be coupled with the battery 19, the automatic control device 21 is configured to be coupled with the inverter 20, the automatic control device 21 and the temperature sensor ( 22) provides a combined wind power generator using the wind, solar and heat, characterized in that consisting of a combination.

In addition, a solar heat supply pipe (5) coupled to the solar heat collecting plate (4), and a heat supply separator (30) coupled to the solar heat supply pipe (5); The heat supply separator 30 has a blocking portion 30c, an opening and closing portion 30b coupled to the blocking portion 30c, a marble 30a coupled to the opening and closing portion 30b, and the beads. A heat supply compression device 6 coupled with the 30a; The heat supply compression device 6 includes a lower housing 6a, an upper housing 6b coupled to the lower housing 6a, and a compression heat outlet 6c coupled to the upper housing 6b. , A heat supply pipe 7 coupled to the compressed heat outlet 6c, a heat injector 8 coupled to the heat supply pipe 7, and a heat injector 8 and a wing 10. It is characterized by consisting of a combination.

In addition, the automatic control device 21 is configured to be coupled to the temperature sensor 22, the storage battery 19 is configured to be coupled with the automatic control device 21, the heat supply compression is configured to be coupled to the storage battery 19 Apparatus 6; The heat supply compression device 6 includes a lower housing 6a, a heating line 9 coupled with the lower housing 6a, an upper housing 6b coupled with the heating line 9, and the upper portion. Compression heat outlet 6c coupled to the housing 6b, a heat supply tube 7 coupled to the compression heat outlet 6c, and a heat injector 8 coupled to the heat supply tube 7. ) And the heat injector 8 and the blade 10 are configured to be coupled.

In addition, the heat injector 8 includes an inner portion 8a coupled to the heat supply pipe 7, a heat exhaust portion 8b coupled to the inner portion 8a, and the heat exhaust portion 8b. The cover front part 8d and the cover front part 8d and the cover rear part 8e are configured to be configured to be combined with the oval cover 8c and the cover.

Looking at the effects of the combined wind power generator using the wind and solar heat and heat of the present invention configured as described above are as follows.

First, looking at the effect of using the wind of the combined wind power generator using the wind, solar heat and heat, the front surface 14 having a high resistance coefficient to the wind blowing from the front to have a rotational force of the rotating body (1), the front The rear surface 15 having a low resistance coefficient coupled with the lower portion 14 lowers the resistance of the wind blowing in front of the rotational direction of the rotating body 1, and the front surface 14 and the rear surface 15 are configured to form an oval shape. The blade 10 is provided, the shaft 13 is coupled to the wing 10 and the rotating body 1 is formed by coupling the shaft 13 and the covering 12 is the wind energy to mechanical energy By converting, the nacelle (3) coupled to the rotating body (1) has the effect of producing mechanical energy as electricity, more specifically the mechanical energy by the rotating body (1) is the covering 12 Combined with Rotational force is transmitted to the central axis 11 is formed, the rotational force is increased by the speed increaser 17 is configured to be coupled to the central axis 11, the generator is coupled to the speed increaser 17 There is an effect that the electricity is produced by (18), there is an effect that can accumulate the electricity produced by the storage battery 19 is coupled to the generator 18, the inverter coupled to the storage battery 19 By 20, there is an effect that can use electricity according to the user's use, there is an effect that can use a higher wind speed than the ground by the tower (2) coupled to the rotating body (1), the rotating body In the central shaft 11 coupled with (1), the central shaft middle portion 11b and the upper bearing 16a are combined with the central shaft lower portion 11c and the lower bearing 16b with the tower 2. Effect that has the rotational force and safety of the central shaft (11) And a, a nacelle 3 which is configured in combination with the tower (2), there is an effect that it is possible to expedite the troubleshooting when problems caused by the installation on the ground.

In addition, looking at the effect of using solar heat in the combined wind power generator using the wind, solar heat and heat, because the wind is not generated or the wind speed is very low in the region of high temperature and high pressure high pressure of the rotating body (1 ) Does not have mechanical energy, and in such a climate, high temperature and solar heat are strong, and such high solar heat is available, and a solar heat collecting plate 4 capable of collecting solar heat, and the solar heat collecting plate 4 The heat collected through the solar supply pipe (5) coupled to the supply and compression to the lower housing (6a) of the heat supply compressor 6, the solar heat supplied and compressed by the lower housing (6a) As the air flows, it rises to the upper housing 6b, and the solar heat rising to the upper housing 6b is strong by the narrow compressed heat outlet 6c. And the solar heat discharged through the heat supply pipe (7) coupled to the compressed heat outlet (6c) is strongly injected to the outside by the heat injector (8), the solar heat is injected to the heat injector ( 8 to the front surface 14 of the wing 10 is coupled to the opposite direction of the rotation direction of the rotating body 1 or the rotating body 1 is composed of the blade 10 can be obtained a rotational force There is an effect that can produce electrical energy even in a climate where high temperature and high pressure high pressure is sustained.

The solar heat collecting plate 4 is not limited to being configured to be coupled with the tower 2 as shown in FIG. 1, but the user may determine the size and location of the coupling according to the surrounding conditions and the power generation capacity. 6 is configured to be coupled to the lower end of the rotating body 1, the lower housing (6a) of the heat supply compression device 6 is fixed to the upper portion (2a) of the tower (2), the lower housing The upper housing 6b coupled to the upper portion 6a prevents solar heat supplied to the heat supply compression device 6 from being discharged to the outside, and the upper housing 6b has a bearing 6d at the upper end portion 11a of the central shaft. ) Combined with the upper housing (6b) to have a smooth rotational force, and the compression heat outlet (6c) coupled to the upper housing (6b) is configured as the number of the wings 10 of the rotating body 1, the heat Rotation by pressure of heat injected from injector 8 When (1) a to the rotation should be to the rotation as shown in the upper housing (6b), only the rotating body (1).

Since the solar heat collecting plate 4 is larger than the heat supply compressing device 6, a lot of solar heat is collected in the solar heat collecting plate 4 and is naturally compressed while being supplied to the narrow heat supply compressing device 6. The heat of (6) is because the heat injector 8 is where heat is discharged in accordance with the flow of air.

In addition, looking at the effect of using heat in the combined wind power generator using the wind, solar heat and heat, the rotational force of the rotating body (1) can be obtained by using the solar heat during the day in the region where the high temperature and high humidity is sustained, but at night In order to produce electricity by using high heat at night because there is a disadvantage that the solar heat can not be obtained, the heating wire (9) combined with the lower housing (6a) of the heat supply compression device (6) generates heat. When the heat is discharged through the narrow compressed heat outlet 6c coupled with the upper housing 6b, the heat discharged through the heat supply pipe 7 coupled with the compressed heat outlet 6c is a heat injector ( 8) is strongly sprayed to the outside, the heat is sprayed toward the front surface 14 of the wing (10) coupled to the heat injector (8) or half of the rotational direction of the rotor (1) Orienting the direction that the rotor 1 is composed of the rotor 10 is configured to obtain a rotational force has an effect that can produce electrical energy even in the night of the climate where the high temperature and high humidity high pressure, the lower housing (6a) Operation of the heating wire (9) is installed in the automatic control device 21 reads the on / off setting value previously set by the user by the temperature sensor 22 configured in the nacelle (3) storage battery (19) Heat is generated in the heating line 9 by using the electricity stored in the.

And in a climate where high temperature, high pressure and high pressure are maintained, a high temperature is maintained at night as in the day, and due to such high heat, the heat of the heating line 9 generates heat even if only a little heat, such as heat by daytime solar heat. It is possible to obtain an effect, and even in a climate in which hot and humid high pressure is maintained, the rotational force of the rotating body 1 is controlled by the hot air discharged through the heat injector 8 from the compressed heat in the heat supply compression device 6. There is an effect that can be obtained, the electricity supply of the heating line 9 is not limited to the storage battery 19, it can be supplied by using a solar generator.

In addition, when looking at the effect of the heat supply separator 30 coupled to the end portion 5a of the solar heat supply pipe 5 in the combined wind power generator using the wind, solar heat and heat, in the solar heat collecting plate (4) When the collected heat is used, the beads 30a are pushed by the pressure of the heat and open the opening / closing portion 30b to supply the collected heat to the heat compression supply device 6, and generate heat from the heating line 9. When the heat is used, the beads 30a are positioned on the heating line 9 and are closed by the pressure of the heat rising from the bottom to close the opening and closing part 30b, wherein the beads 30a are closed by the narrowed blocking part 30c. It does not enter the solar heat supply pipe 5, there is an effect that the heat generated from the heating line (9) is not discharged to the solar heat collecting plate (4).

In addition, looking at the effect of the heat injector (8), the high heat supplied through the heat supply pipe (7) is discharged to the heat discharge portion (8b) open from the inner portion (8a), the heat discharge portion ( 8b) is strongly discharged to the outside of the low heat through the front portion (8d) of the large front cover has the effect of obtaining the propulsion force of the rotor (1) by the principle of action and reaction.

As described above, the present invention has been described with reference to the exemplary embodiments in the drawings, but this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1: rotating body, 2: tower, 2a: tower upper part, 3: nacelle, 4: solar heat collecting plate, 5: solar heat supply pipe, 5a: end, 6: heat supply compression device, 6a: lower housing, 6b: upper part Housing, 6c: compressed heat outlet, 6d: bearing, 7: heat supply tube, 8: heat sprayer, 8a: inside, 8b: heat outlet, 8c: cover, 8d: front cover, 8e: back cover, 9 : Heating wire, 10: wing, 11: center shaft, 11a: center shaft upper part, 11b; center shaft middle part, 11c: center shaft lower part, 12: covering, 13: shaft, 14: front side, 15: rear side, 16a : Upper bearing, 16b: Lower bearing, 17: Accelerator, 18: Generator, 19: Battery, 20: Inverter, 21: Automatic controller, 22: Temperature sensor, 30: Heat supply separator, 30a: Bead, 30b: Opening and shutting part, 30c: Blocking part

Claims (4)

A rotor 1 for converting wind energy into mechanical energy; The rotor 1 is coupled to the wing 10, the shaft 13 is configured to be coupled with the wing 10, the covering 12 is configured to be coupled to the shaft 13, and the covering 12 A central shaft upper end portion 11a configured, a bearing 6d coupled with the central shaft upper portion 11a, a heat supply compression device 6 coupled with the bearing 6d, and the heat supply A heating line 9 coupled with the compression device 6, a heat supply separator 30 coupled with the heating line 9, a solar heat collecting plate 4 coupled with the heat supply separator 30, and A tower 2 coupled to the solar heat collecting plate 4, an upper bearing 16a coupled to the tower 2, and a central shaft 11b coupled to the upper bearing 16a; , A central shaft lower end portion 11c coupled with the central shaft middle portion 11b, and a lower bearing 16b coupled with the central shaft lower portion 11c. And a nacelle 3 coupled to the lower bearing 16b; The nacelle 3 is configured to combine with the generator 18 and the generator 18 coupled with the speed increaser 17 to increase the rotational speed of the rotor 1 and the speed increaser 17. Storage battery 19, the inverter 20 is configured to be coupled with the battery 19, the automatic control device 21 is configured to be coupled with the inverter 20, the automatic control device 21 and the temperature sensor ( 22) wind turbines, solar and heat using a combined wind power generator, characterized in that consisting of a combination. A solar heat supply tube (5) coupled to the solar heat collecting plate (4), and a heat supply separator (30) coupled to the solar heat supply tube (5); The heat supply separator 30 has a blocking portion 30c, an opening and closing portion 30b coupled to the blocking portion 30c, a marble 30a coupled to the opening and closing portion 30b, and the beads. A heat supply compression device 6 coupled with the 30a; The heat supply compression device 6 includes a lower housing 6a, an upper housing 6b coupled to the lower housing 6a, and a compression heat outlet 6c coupled to the upper housing 6b. , A heat supply pipe 7 coupled to the compressed heat outlet 6c, a heat injector 8 coupled to the heat supply pipe 7, and a heat injector 8 and a wing 10. Combined wind turbines, solar and heat using a combined wind power generator, characterized in that consisting of. The automatic control device 21 is configured to be coupled to the temperature sensor 22, the storage battery 19 is configured to be coupled with the automatic control device 21, the heat supply compression device is configured to be coupled to the storage battery ( 6); The heat supply compression device 6 includes a lower housing 6a, a heating line 9 coupled with the lower housing 6a, an upper housing 6b coupled with the heating line 9, and the upper portion. Compression heat outlet 6c coupled to the housing 6b, a heat supply tube 7 coupled to the compression heat outlet 6c, and a heat injector 8 coupled to the heat supply tube 7. ), And a combined wind generator using wind, solar heat and heat, characterized in that the heat injector (8) and the blade (10) is configured to be coupled. The method according to claim 2 or 3.
The heat injector 8 includes an inner portion 8a coupled to the heat supply pipe 7, a heat exhaust portion 8b coupled to the inner portion 8a, and the heat exhaust portion 8b. It is characterized in that the cover front part 8d and the cover front part 8d and the cover rear part 8e are configured to be coupled to each other.

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