KR101180362B1 - Double pillar water merge power generation system - Google Patents

Abstract

The present invention is to form a deck of barge floating body to provide the wind energy coming from the water or the sea, etc. as electrical energy, to establish a double pillar on top of them, to install a work platform equipped with a power generation facility on both poles and the horizontal rotating shaft between the power generation facilities Forming a spherical or rectangular rotating body made of wood, the wind blowing the symmetrical spherical or quadrangular rotating body or rotating power can be produced and the number of solar panels on the deck It relates to a two-column water-based combined cycle power generation system that can be installed to have a combined power generation.

Description

Double Column Floating Power Generation System {omitted}

The present invention is to form a deck of barge floating body to provide the wind energy coming from the water or the sea, etc. as electrical energy, to establish a double pillar on top of them, to install a work platform equipped with a power generation facility on both poles and the horizontal rotating shaft between the power generation facilities Forming a spherical or rectangular rotary body made of wood to allow the wind to blow and generate a generator energy while rotating the symmetrical circular or quadrilateral rotating body and multiple solar panels on the deck. It relates to a two-column water-based combined cycle power generation system that can be installed to have a combined power generation.

The conventional alternative energy generation system is a situation in which the wind energy generation system and the solar cell generation system have been independently generated.

In view of the above points, a deck with a certain width is formed on a boat boogie in the water or at sea, such as a lake and a wide river, and a cylindrical-shaped (○) and a rectangular (□) double-column rotating body of horizontal rotating shaft is installed thereon. And multiple solar panel installations were selected as the tasks.

In order to achieve the purpose of the above-mentioned task, a plurality of boat-shaped bookkeepings are formed, and a deck having a predetermined width is formed on the bookkeepings thus formed, and the pillars are set up at a predetermined interval thereon, and thus the At the top, it forms a rotor support plate.

In this way, the supporting boards on both sides are installed and fixed together with the racket to install the rotating shaft horizontally, and the number of hemispherical symmetrical wing plates that can be rotated is 2 or 3 types. To form a spherical (○) revolving body of four, five, six, and two, three, four, five, Forming a 6-type rotating body and installing a large number of solar panels on one side of the deck were adopted as solutions.

Put up both pillars on the deck, and make a horizontal rotating circle or □ -shaped rotating body, and one side of the deck is equipped with a number of solar panels to receive the wind blowing regardless of the wind direction ( ○) or □ type of rotating body rotates so that power can be provided through the connected power generation room, and it can be generated in solar panels by the sun. To be provided.

1 is a perspective view of a two-column water phase combined power generation system
2 is a perspective view of a two-column water phase combined power generation system
3 is a perspective view of a semicircular wing plate with a symmetrical wing;
Figure 4 is a perspective view of the fin wing with a symmetrical airfoil
5 is a perspective view of the wing support tube
6 is a perspective view of the wing support tube

In manufacturing and constructing the bi-column combined power generation system (A), a wide deck (2) is formed on the plurality of hull-shaped parts (1) (1 ') (1 ") and the front and rear of the deck (2). Forming a plurality of loops (3) (3 ') on the left and right to withstand storms and waves caused by the dot line and to ensure a safe state of the hull movement and anchoring by the lifting line, the whole of the deck (2) Railings (4) is installed on the outer periphery.

Two cylinders 6, 6 'are fixed on one side of the deck 2, and the rotor supports 7, 7' are respectively formed on the cylinders 6, 6 '. And the power generating chambers 8 and 8 'are installed and fixed on the rotor support 7 and 7', and the power generating chambers 8 and 8 'and the rotating shaft brackets 30 and 30' are fixed. Tighten the installation.

)으로 된 반원형 날개판(11)(11')(11")(11'")을 동일한 방향각으로 끼워 체결고정을 하여줌에 있어 상기 대칭익형으로 된 반구형 날개판(11)(11')(11")(11'")의 개체마다 형성되어 있는 날개판 지지관(24)(24')을 일측의 날개지지관(10)의 날개지지용 결착부(26)와 반대측 날개지지관(10')의 날개지지용 결착부(27)와 일체형이 되게 끼워 체결고정을 시켜준다.The horizontal rotating shaft (9) is inserted into the rotary shaft brackets (30) and (30 ') so as to be rotated together with the power generation chamber, and the wing support tubes (10) and (10') are fastened to both sides of the horizontal rotating shaft (9). Wing support fixing parts 26, 26 ', 26 ",26'", 27 'that are fixed and formed for each individual object of the wing support tubes 10, 10'. ) On 27 "and 27 '"

Hemi-spherical wing plates 11, 11 'of symmetrical blades for fastening and fastening semi-circular wing plates 11, 11', 11 ", 11 '" (11 ") (11 '") wing plate support tube (24, 24') formed for each individual of the wing support binding portion 26 of the wing support tube 10 on one side and the wing support tube on the opposite side ( 10 ') to be integrally fitted with the wing support binding portion 27 to secure the fastening.

Wing support of the wing support binding portion 26, 26 ', 26 ", 26'" of the wing support pipe 10 on one side and the wing support pipe 10 'on the opposite side in the order of the above method. The fasteners 27, 27 ', 27 " and 27' " are integrally formed and fastened to form a power generation system of an integrated two-column rotary body, and to one side of the deck 2. In order to provide a solar power generation function by installing a plurality of solar panels (5) (5 ') (5 "),

In the production and construction of the bi-column combined power generation system (A-1), a wide deck (15) is formed on the plurality of hulls (13, 13 ', 13 ") and the deck (15). A plurality of rings 14, 14 'are formed on the front, rear, left, and right sides of the deck so that the hull movement and anchoring by the dot line and the waves can be safely performed. Install railings (16).

Two cylinders 18, 18 'are fixed to one side on the deck 15 and the rotor supports 19, 19' are formed on the cylinders 18, 18 ', respectively. The installation room 20 (20 ') is fixed to the installation and the power generation room 20 (20') and the rotating shaft bracket 31, 31 'is fastened and fixed.

)으로 된 ┏┓ 형날개판(23)(23')(23")(23'")을 동일한 방향각으로 끼워 체결고정을 하여줌에 있어 상기 대칭익형으로 된 ┏┓ 형 날개판(23)(23')(23")(23'")의 개체마다 형성되어 있는 날개판지지관(25)(25')을 일측의 날개지지관(22)의 날개지지용 결착부(28)와 반대측 날개지지관(22')의 날개지지용 결착부(29)와 일체형이 되게 끼워 체결고정을 시켜준다.The horizontal rotating shaft 21 is inserted into the rotating shaft brackets 31 and 31 'so as to be rotated together with the power generation chamber. The wing supporting pipes 22 and 22' are fitted to both sides of the horizontal rotating shaft 21. Wing fasteners 28, 28 ', 28 ",28'", 29 'and 29' which are fixed and formed for each of the wing support tubes 22, 22 '. ) "(29") (29 '") have symmetrical airfoils (

날개 wing plate 23 made of the symmetrical wing in fitting the pinned wing plates 23, 23 ', 23 ",23'" (23 ') (23') (23 '") Wing plate support tube (25, 25') formed for every individual of the wing | blade support part of wing support tube (22) of the wing | blade opposite side wing | blade It is fitted to be integral with the wing support binding portion 29 of the support tube 22 'to secure the fastening.

Wing support of wing support engagement part 28, 28 ', 28 ", 28'" of wing support pipe 22 on one side and wing support pipe 22 'on the opposite side in the order of the above method The fasteners 29, 29 ', 29 " and 29' " are integrally formed and fastened to form the power generation system of the two-column rotary body that is integrated. On the side, a plurality of solar panels 17, 17 ', 17 "are installed to provide a power generation function by sunlight.

[Example]

In addition to the safety of the lake or the sea, it can be provided with the power generation function by the rotation regardless of the wind direction, and in the sunny weather, it is possible to receive the electric energy from the solar panel.

[conclusion]

Forming a wide deck at sea or water, the world's first attempt, the introduction of a new system of non-directional spherical and □ -types by a non-directional bi-wind wind power system provided a power system that could not be handled by the propeller type. In particular, the introduction of a solar cell power generation system on a large deck has led to an effective combined power generation system.

A, A-1: Combined Cycle Power Generation System
1,1 ', 1 ": Hull part 2: Deck 3,3': Collar part
4: Railing 5,5 ', 5 ": Solar panel
6,6 ': Double pillar 7,7': Rotator base 8,8 ': Russell
9: horizontal rotation shaft 10,10 ': wing support tube
11,11 ', 11 ", 11"': Semicircular wing plate with symmetrical airfoil
13,13 ', 13 ": 14,14' of hull section: Collar 15: Deck
16: handrail 17,17 ': solar panel
18,18 ': Double pillar 19,19': Rotating base
20,20 ': Russell 21: Horizontal Rotating Shaft
22,22 ': wing support tube
23,23 ', 23 ", 23"': Finned wing plate with symmetrical airfoil
24,24 ': wing plate support tube 25,25': wing plate support tube
26,26 ', 26 ", 26'": wing support tube
27,27 ', 27 ", 27'": wing support body
28,28 ', 28 ", 28'": wing support body
29,29 ', 29 ", 29'": wing support
30,30 ': Bracket
31,31 ': Bracket

Claims (2)

In manufacturing and constructing the bi-column combined power generation system (A), a wide deck (2) is formed on the plurality of hull-shaped parts (1) (1 ') (1 ") and the front and rear of the deck (2). To form a plurality of loops (3) (3 ') on the left and right, and the handrail (4) is installed on the entire outer peripheral portion of the deck (2), on one side on the deck (2) The two cylinders 6, 6 'are fixed upright, and the respective rotor supports 7, 7' are installed on the cylinders 6, 6 ', respectively, and the rotor supports 7 (7 ') is installed and fixed to the power generation room (8) (8'), and the installation of the power generation room (8) (8 ') and the rotating shaft bracket (30, 30') to fix the installation, horizontal rotating shaft ( 9) is installed to be rotated together with the power generating chamber by inserting into the rotary shaft bracket 30, 30 ', and both sides of the horizontal rotary shaft (9) by fitting the wing support pipe (10) (10') Of the wing support tube (10, 10 ') Wing support attachments 26, 26 ', 26 ", 26'", 27, 27 ', 27 "and 27'" formed on each sieve have symmetrical airfoils (

Hemi-spherical wing plates 11, 11 'of symmetrical blades for fastening and fastening semi-circular wing plates 11, 11', 11 ", 11 '" (11 ") (11 '") wing plate support tube (24, 24') formed for each individual of the wing support binding portion 26 of the wing support tube 10 on one side and the wing support tube on the opposite side ( 10 ') to be integrally fitted with the wing support binding portion 27 to secure the fastening, and the wing support binding portion 26 (26') (26 ') (26') of the wing support tube (10). Two pillars of which are integrally formed by fastening and fastening to be integrally integrated with the wing support fastening portions 27, 27 ', 27 " and 27'" Merging both pillars to form the power generation system of the rotating body and to provide a solar power generation function by installing a plurality of solar panels (5, 5 ', 5 ") on one side of the deck (2) Power generation system. In the production and construction of the bi-column combined power generation system (A-1), a wide deck (15) is formed on the plurality of hulls (13, 13 ', 13 ") and the deck (15). In the front, rear, left and right of the plurality of hooks 14, 14 'and the outer circumferential portion of the deck 15 is provided with a handrail 16 is installed, one side portion on the deck 15 Two cylinders (18) and (18 ') are fixed to each other, and the rotor supports (19) and (19') are respectively provided on the cylinders (18) and (18 '), and the rotor supports ( 19) Install and fix the power generating chambers 20 and 20 'on the 19', and fasten and fix the power generating chambers 20 and 20 'and the rotating shaft brackets 31 and 31'. The horizontal rotating shaft 21 is fitted to the rotating shaft brackets 31 and 31 'so as to be rotated together with the power generating chamber. Wing support tubes 22 and 22' are provided at both sides of the horizontal rotating shaft 21. And fasten it tightly. Wing support binders 28, 28 ', 28 ",28'", 29, 29 ', 29 " (29 '") has a symmetrical airfoil (

날개 wing plate 23 made of the symmetrical wing in fitting the pinned wing plates 23, 23 ', 23 ",23'" (23 ') (23') (23 '") Wing plate support tube (25, 25') formed for every individual of the wing | blade support part of wing support tube (22) of the wing | blade opposite side wing | blade To be integrally fitted with the wing support binding portion 29 of the support tube 22 'to fasten and fasten, and in the order of this method, the wing support binding portion 28 of the wing support tube 22 on one side ( 28 ', 28 " and 28'" are integrally formed with wing support engagement portions 29, 29 ', 29 " and 29'" of the wing support tube 22 '. By fastening and fastening to form an integrated power generation system of the two-column rotary body, a plurality of solar panels 17, 17 '(17 ") on one side of the deck 15 is installed in the solar Double-column water-based power generation system that provides the power generation function.

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