KR20220032531A - Solar-wind hybrid power generation device - Google Patents

Abstract

The present invention relates to a solar-wind hybrid power generation device capable of organically linking a solar power generating means and a wind power generating means, and increasing power generation efficiency. A solar-wind hybrid power generation device (100) of the present invention comprises: a support (110); a slip ring (120) which is disposed in an upper part of the support (110); a rotating body (140); a connection reinforcing member (135) which crosses the middle of the inner space of the rotating body (140) to be coupled thereto, so as to support the slip ring (120); a rotating shaft (130); a flexible photovoltaic film (150); a cable (155) which is installed to rotate along with the rotating body (140) while maintaining a contact state of the end thereof; a generator (160) which generates power by using the rotational force of the rotating body (140); and a capacitor (190) which accumulates power which is generated in the photovoltaic film (150) and transmitted through the cable (155), and the power generated by the generator (160).

Description

Solar-wind hybrid power generation device

The present invention relates to a solar-wind power hybrid power generation device capable of organically linking a solar power generating means and a wind power generating means and increasing power generation efficiency.

Amid the growing interest and need for renewable energy, a number of technologies for mixing solar power generation means and wind power generation methods have been disclosed.

The description of the background technology related to the solar-wind power generation is replaced by the [Patent Document] list presented below.

However, conventional solar-wind power generation technologies are,

1) lack of organic linkage between solar power generation and wind power generation;

2) It lacks compact space composition and flexibility applicable to various applications.

3) The technical composition that can increase both solar power generation efficiency and wind power generation efficiency is not presented.

1. Patent Publication 10-2009-0112930 "Solar Wind Power Hybrid Generator" 2. Laid-open Patent 10-2015-0137160 "Wind-solar energy generating device installed on a pole" 3. Patent Publication 10-2008-0104434 "Combined power generation device of solar and wind power" 4. Registered Patent 10-1064086 "Independent power supply system and method using wind and solar power generation" 5. Registered Patent 10-1776573 "Solar and wind power generation device with increased power generation efficiency" 6. Registered Patent 10-2142365 "Buoyancy device on the rotating shaft of a power generation device in which wind power generation and solar power generation are formed on the same rotating shaft" 7. Registered Patent 10-1512093 "Solar and Wind Hybrid Utilization System"

The present invention overcomes the problems of the prior art, secures organic linkage between solar power generation and wind power generation, secures a compact space configuration and variability applicable to various applications, and solar power generation efficiency and wind power generation efficiency It is an object to provide a solar-wind hybrid power generation device that can increase the

The present invention is "support 110; a slip ring (Slip Ring, 120) disposed on the support (110); a spherical or hemispherical rotating body 140 coupled to the rotating shaft 130 and rotating by an external force; a connection reinforcing member 135 coupled across the middle of the inner space of the rotating body 140 to support the slip ring 120; The lower end passes through the slip ring 120 and the connection reinforcing member 135 and is inserted into the upper end of the support 110 , and a large gear 131 on the outer periphery between the connection reinforcing member 135 and the support 110 . The rotation shaft 130 is formed; a flexible solar film 150 coupled along the outer edge of the rotating body 140; The front end is fixed to the solar film 150, and the end is in contact with the conductor ring of the slip ring 120 in a non-fixed state, maintaining the contact state of the end, and the rotating body 140 and cables 155 installed to rotate together; a generator 160 that generates electricity using the rotational force of the rotating body 140 via the small gear 161 meshing with the large gear 131; and a capacitor 190 for accumulating the power generated in the photovoltaic film 150 and transmitted through the cable 155 and the power generated by the generator 160 ; Including, the support 110, the generator 160, and the capacitor 190 are all disposed in the inner space of the rotating body 140 - Solar-wind power hybrid power generation device 100" is provided. .

In addition, the present invention is a housing 10 with an open top; Further comprising, the support 110, the generator 160 and the capacitor 190 are coupled to the bottom of the housing 10, characterized in that the rotating body 140 is configured to cover the upper end of the housing (10) It provides a solar-wind hybrid power generation device 100 together.

The following effects can be expected from the present invention.

1. By combining a flexible solar film along the outer edge of a spherical or hemispherical rotating body, it is possible to receive sunlight regardless of the altitude and orientation of the sun, thereby increasing the solar power generation efficiency.

2. By configuring the rotating shaft of the rotating body to pass through the slip ring, it is possible to achieve smooth wind power generation without twisting the cables connected to the photovoltaic film.

3. By combining a number of wind resistance blades in a spherical or hemispherical shape, a venturator-type rotating body can be constructed, so that the ventilation function is performed along with solar and wind power generation. can

4. The space inside the rotating body can be used as an arrangement space for cables, generators, first and second charging controllers, capacitors, and inverters.

[FIG. 1] is a cross-sectional view of an embodiment of a solar-wind hybrid power generation device provided with a spherical rotating body.
[FIG. 2] is an external view of an embodiment of a solar-wind hybrid power generation device provided with a resistance plate on the side of a hemispherical rotating body.
[FIG. 3] is an external view of an embodiment of a solar-wind hybrid power generation device provided with a resistance plate under a hemispherical rotating body.
[FIG. 4] is an external view of an embodiment in which a resistance plate is coupled to a spherical rotating body in a longitudinal direction.
[FIG. 5] is an external view of an embodiment of a solar-wind hybrid power generation device in which a plurality of wind resistance blades are combined in a spherical shape.
[Figure 6] shows the internal configuration of an embodiment of the solar-wind hybrid power generation device from the bottom.

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

The present invention is "support 110; a slip ring (Slip Ring, 120) disposed on the support (110); a spherical or hemispherical rotating body 140 coupled to the rotating shaft 130 and rotating by an external force; a connection reinforcing member 135 coupled across the middle of the inner space of the rotating body 140 to support the slip ring 120; The lower end passes through the slip ring 120 and the connection reinforcing member 135 and is inserted into the upper end of the support 110 , and a large gear 131 on the outer periphery between the connection reinforcing member 135 and the support 110 . The rotation shaft 130 is formed; a flexible solar film 150 coupled along the outer edge of the rotating body 140; The front end is fixed to the solar film 150, and the end is in contact with the conductor ring of the slip ring 120 in a non-fixed state, maintaining the contact state of the end, and the rotating body 140 and cables 155 installed to rotate together; a generator 160 that generates electricity using the rotational force of the rotating body 140 via the small gear 161 meshing with the large gear 131; and a capacitor 190 for accumulating the power generated in the photovoltaic film 150 and transmitted through the cable 155 and the power generated by the generator 160 ; Including, the support 110, the generator 160, and the capacitor 190 are all disposed in the inner space of the rotating body 140 - Solar-wind power hybrid power generation device 100" is provided. .

The support 110 is a member that is erected and fixed on the ground, a structure, etc. independently or by a coupling relationship with other members. The support 110 can be coupled on the transverse support 115 as shown in [Fig. 1], and a separate housing 10 is configured as shown in [Fig. 2] to [Fig. 6]. The support 110 may be erected on the inner bottom of the housing 10 and coupled thereto.

The slip ring (Slip Ring, 120) is disposed above the support (110). A slip ring is an electrical component that is also called a rotary joint or a rotary connector, and is a rotary connector that can be transmitted without twisting wires when supplying power or signal lines to rotating equipment. Specific details regarding the application of the slip ring in the present invention will be described later.

The lower end of the rotary shaft 130 is inserted through the slip ring 120 and the connection reinforcing member 135 in a structure (ball bearing, etc.) that can be axially rotated at the upper end of the support 110, and the connection is reinforced. A large gear 131 is formed on the outer periphery between the member 135 and the support 110 .

The large gear 131 is used for wind power generation and has a comparative advantage in relative size with the small gear 161, which will be described later. The large gear 131 rotates in mesh with the small gear 161, and the number of rotations increases according to the large-to-small gear ratio. Accordingly, in the generator 160 , electricity is generated using the rotational force of the rotating body 140 via the small gear 161 .

The rotating body 140 is configured to have a spherical or hemispherical outer periphery, and is coupled to the rotating shaft 130 to rotate by an external force. The rotation shaft 130 will be the longitudinal central axis of the rotation body 140 .

The flexible solar film 150 is coupled along the outer edge of the rotating body 140, and as a result, the rotating body 140 serves as a base frame for forming a spherical or hemispherical shape by combining the flexible solar film. The photovoltaic film 150 produces a photovoltaic effect that converts light energy into electricity, and the photovoltaic film 150 is formed in a spherical or hemispherical shape, so that sunlight is received regardless of the altitude and orientation of the sun. it becomes possible

However, when the rotating body 140 is spherical, it may be difficult for sunlight to reach the lower hemisphere. Solar light reception and power generation can be made.

The shape of the reflecting plate 30 may be configured such that the light reaching the reflecting plate 30 is evenly reflected to the lower hemisphere of the rotating body 140 . In addition, the plate surface of the reflective plate 30 may be covered with a high reflectance, such as silver foil paper.

A resistance plate 20 for inducing rotation of the rotating body 140 by receiving wind power may be coupled to the rotating body 140 . The resistance plate 20 is configured in a wing shape having a curved surface like a fan blade as shown in [Fig. 2] and coupled to the side of the rotating body 140, or as shown in [Fig. 3]. It can be configured as a blade type having a curved surface like a venturator blade and coupled to the lower side of the rotating body 140 . In addition, as shown in [Fig. 4], the resistance plate 20 is configured in a blade shape having a curved surface, but may be coupled to the rotation body 140 in a longitudinal direction. The curved surface of the resistance plate 20 is designed to resist wind in all directions, so that the rotation body 140 smoothly rotates the shaft.

In addition, as shown in [Fig. 5], by combining a plurality of wind resistance blades in a spherical (求刑) or hemispherical (半球形), it is possible to configure a ventilator-type rotating body. In this case, by applying the device of the present invention to the existing venturator installation site, it is possible to perform a ventilation function and to generate solar power and wind power at the same time.

The cable 155 is for passing the current generated by the photovoltaic film 150 to the second storage battery 180 . Since the front end of the cable 155 is coupled to the solar film 150 , it rotates together when the rotating body 140 pivots. However, the end of the cable 155 is non-fixed to the conductor ring of the slip ring 120 and is installed to rotate together with the rotating body 140 while maintaining the contact state of the end. so that the cable 155 is not twisted.

The contact state includes a state in which the end of the cable 155 and the conductor ring are in direct contact or indirectly contacted through another conductor member, and in a state where the end of the cable 155 and the conductor ring are spaced apart, non-contact current transfer Including all states

On the other hand, the cable 155 is configured to be in contact with the conductor ring of the slip ring 120 after passing through the large gear 131 provided on the rotating shaft 130, so that the inside of the rotating body 140 is You can organize the cables so they don't get tangled.

The power generated in the photovoltaic film 150 and transmitted through the cable 155 and the power generated in the generator 160 by wind power are stored in the capacitor 190 . A first charge controller 170 for preventing a reverse flow of current from the capacitor 190 to the solar film 150 and a second charge controller for preventing a reverse flow from the capacitor 190 to the generator 160 (180) can be configured together.

In the above, the present invention has been described in detail along with specific examples. However, the present invention is not limited by the above embodiments and may be modified and modified without departing from the gist of the present invention. Accordingly, the claims of the present invention cover such modifications and variations.

100: solar-wind hybrid power generation device
110: support 115: transverse support 120: slip ring
130: rotation shaft 131: large gear 135: connection reinforcing member
140: rotating body 150: solar film 155: cable
160: generator 161: small gear 170: first charge controller
180: second charge controller 190: capacitor
10: housing 20,20',20": resistance plate 30: reflector

Claims (2)

support 110;
a slip ring (Slip Ring, 120) disposed on the support (110);
a spherical or hemispherical rotating body 140 coupled to the rotating shaft 130 and rotating by an external force;
a connection reinforcing member 135 coupled across the middle of the inner space of the rotating body 140 to support the slip ring 120;
The lower end passes through the slip ring 120 and the connection reinforcing member 135 and is inserted into the upper end of the support 110 , and a large gear 131 on the outer periphery between the connection reinforcing member 135 and the support 110 . The rotation shaft 130 is formed;
a flexible solar film 150 coupled along the outer edge of the rotating body 140;
The front end is fixed to the solar film 150, and the end is in contact with the conductor ring of the slip ring 120 in a non-fixed state, maintaining the contact state of the end, and the rotating body 140 and cables 155 installed to rotate together;
a generator 160 that generates electricity using the rotational force of the rotating body 140 via the small gear 161 meshing with the large gear 131; and
a capacitor 190 for accumulating power generated in the photovoltaic film 150 and transmitted through the cable 155 and power generated by the generator 160; including,
The support 110 , the generator 160 , and the capacitor 190 are all disposed in the inner space of the rotating body 140 , the solar-wind hybrid power generation device 100 .
In claim 1,
housing 10 with an open top; further comprising,
The support 110, the generator 160 and the capacitor 190 are coupled to the bottom of the housing 10,
Solar-wind hybrid power generation device (100), characterized in that the rotating body (140) is configured to cover the upper end of the housing (10).

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