KR20120104913A - Solar and wind power generator - Google Patents

Abstract

PURPOSE: Solar and wind power generation equipment is provided to prevent erosion, and for fishes to move as the water is always supplied to the inside a water pipe. CONSTITUTION: Solar and wind power generation equipment comprises a weir(20), a water pipe(10), water storing blocks(11), and a plurality blocking doors(35). The water pipe passes through the weir, and is formed along a side inclined part(23). The river water flows into a main stream along the water pipe. The water storing blocks are connected to the fundamental area(21) of the side inclined part, and buried. The blocking doors and rotary wheels are installed inside the water pipe and supply pipe. An opening and closing device alternately opens and closes the blocking doors at predetermined time difference by the operation of a control device.

Description

Photovoltaic and wind power generation equipment for waterway pipes for reinforcement and control of runoff

The present invention relates to a waterway pipe for reinforcement of a drop zone and a runoff control of the drop zone and, in particular, to control the flow to the river water in the drop zone formed by a sharp lowering of the riverbed while the stream is flowing. The present invention relates to a photovoltaic and wind power generating device for controlling while supplying power from a water pipe.

In general, free-flowing areas or flowing rivers in the valleys or curved areas that flow in valleys or mainly small streams flow while falling due to the formation of the terrain.

Therefore, in the free fall zone, it is subsided by the pressure of the moving force of the flowing water, or the difficulty of moving the fish is accompanied.

In addition, in order to prevent water shortages caused by drought in the valleys or streams, or floods caused by floods and damage to villages and crops, rivers and reservoirs are piled up with bona dikes to control the flow of water.

Excessive dredging the bottom of the river with heavy equipment, such as the development of civil engineering technology, installs beams at the confluence point between mainstream and stream, and most of them form free fall zones. As a cause of erosion and clavicle on the slopes and riverbeds to be constructed, the collapse of the banks built on both edges of the stream is a cause of enormous disasters.

This is the cause of retrograde erosion (shape eroding gradually from the downstream of the stream) to the bank of the bank and the bottom of the bank from the section where the water level and the free fall formed in the deep river bottom due to excessive dredging on the main stream. It will be.

Particularly in the case of rainy or heavy rains due to the rainy season, the formation of water streams increases the intensity of damage caused by erosion.

That is, in the section in which the flow suddenly changes at a high speed, erosion on the bottom surface or movement of the stream becomes difficult or blocked for ecology for preserving the upper and lower sections of the river.

In addition, in the dropping section, for the movement of the fish, the fish is installed through sloped hills and the like, and the risk of being exposed to the danger of ecosystem exists because it is formed by the exposure from the ground. .

According to the invention of the invention registered No.0809996, a barrier wall is provided for every predetermined section for drainage and the movement of fish in the drain pipe provided through the reservoir in the reservoir embankment. By performing the opening and closing process alternately, the invention provides a space for the movement of fish.

This allows the movement of fish between the main stream and the stream of the river, and regulates the flow rate of the river water, which is a mainstream river in a drop-off point or a deep water area, which is formed by the difference in water level in the related art. Inflowing water increases in speed and affects downstream fish moving through the falling river water and is pushed back with the flowing water, which is the river water.

In addition, most of the free fall zones formed in rivers, etc., are formed in large fields, causing problems of artificial management.

Here, the installation of the free fall section of the river described above is mainly provided in a field or a valley, etc. The power for the water flow control channel described above is provided to be used as a combination as renewable energy.

Here, the blowing strength of wind power for the generation of photovoltaic or wind power, which is the renewable energy described above, is accompanied by a change from time to time, and when a strong wind blows suddenly, a structure for stably separating surplus wind is required. Will be.

The invention has been provided by the invention registration application No. 2009 51444, 2011 18275.

That is, most of the wind and sunlight formed in a large space are generated alternately as possible, and also to reinforce the power generation by using the movement force of water flowing through the water pipe.

This is an invention that provides solar power generation by the sun when the weather is clear, and also in the case of cloudy or windy wind power.

Therefore, by blocking the flow of water by installing a blocking door at the inlet and the outlet of the water pipe for the flow in the section inclined by the free fall, the water flow and the free fall between the main stream and the stream described above, the flow rate is controlled This is to prevent the settling or destruction at the above-described stream.

In addition, the flow rate for the water flowing through the water pipes connecting the free fall zone to provide a slow adjustment to the block plate 35 to solve the occurrence of erosion or collapse, and also to move to the fish in the free fall zone This is to provide a fish that moves in the inner section of the water pipe is not disturbed by the drained water.

In addition, the drive to the blocking door is provided with a rotor blade so as to rotate each of the separate auxiliary water pipes by the flow rate of the water flowing, for the purpose of providing the rotation of the rotation by the solar light or wind power to provide an interruption. do.

In the inclined river is formed in the free fall section, the side slope portion 23 inclined to transport the river water into the water of the main stream 13 while being formed at the bottom of the stream 14 of the position higher than the water level of the main stream (13) The beam 20 is constructed to block the flow of water in the jicheon 14, which is one side of the side, and the side slope portion 23 is formed in the drainage passage provided as the water pipe 10 while passing through the beam 20. In the waterway pipe configured to provide the river water flows to the main stream (13),

In the inclined section 21 'of the inclined section of the side slope portion 23 is provided with a reservoir block 11 buried in connection,

It is provided with a rotating shaft 15 penetrated by the supply pipe 55 is provided on one side of the water pipe 10, the section between the upper and lower end is provided with each entrance and exit blocking door 35 ', Inner sections of the water pipe (10) and the supply pipe 55 is provided with a plurality of blocking doors 35 and the rotating mill 19 to form a predetermined section, respectively, the blocking door 35 and the rotating mill (19) On one side of the rotating shaft 15 penetrating the shaft of the opening and closing device is provided so that the shut-off door 35 of the water pipe 10 by the drive of the control device 45 to open and close alternately at regular intervals. 37, and

The locking shaft 37 and the control device 45 is provided in the section of the rotating shaft 15, and the supply port 24 is formed on the wall surface between the water pipe 10 and the water supply pipe 55 at regular intervals. The invention is characterized by.

In addition, the water storage block 11 is provided with a wall 32 through which the water storage space 24 penetrates. The wall 34 is provided with a transfer hole 36, but the transfer hole 36 is mutually provided. The wall 34 is configured to be fixed in a stack so as to penetrate,

Both sides of the water storage block 11 is fixed to the fixed wall 21 ",

By arranging a plurality of water pipes 10 'in the section of the beam 21 to reinforce the drainage capacity from the stream 14,

The control device 45 is an invention provided by providing a connection to the electrical storage device 58 provided in the wind power generator 27 and the photovoltaic device 25.

In addition, the guide bar for the water flowing in the installation section of the rotary mill 19 of the supply pipe 55 is provided to be inclined toward the rotary blades 26,

One side of the rotary shaft 15 is provided with a hydro power turbine (70),

The rotational force of the rotary blade 66 to the hydro turbine 70 is connected to the connecting member 62,

In the section of the water pipe 10 and the supply pipe 55 is provided with a flexible stand 60, provided by fixing the water gate 22 through, provided to be used in the opening and closing process of the water gate 22 Invention.

Support pillar 12 for wind power generator 27 that provides wind power by rotating the rotor blades 66 on the axis of rotation of the generator 67 coupled to the upper end of the support pillar 12 for the wind power generator 27. While connected to the semi-circular housing (32) coupled to the semi-circular bearing (33) to the outer surface of the fixed ring (34) fixed respectively in the upper and lower sections of the), configured by coupling to the outer section of the support pillar (12) A photovoltaic device coupled to the rotating means 40 at the same time as provided with a coupling connecting the frame 29 to the upper and lower fixed caps 30 provided on the rear surface of the photovoltaic device 25. In (25), the lower section (b) is formed as a section of the first power plate 53, the upper section (a) is a section for forming the partition 44 and the moving section 43 alternately The module 49 is continuously and repeatedly on the front surface of the solar power plate provided with the second power generation plate 54 according to the In the non-solar photovoltaic plate, by inducing wind blowing in a strong wind according to the inclined slope of the photovoltaic plate, the wind power induction photovoltaic device for providing wind to the rotary blade (66) (25 ),

A joint part which is projected on both sides of the upper and lower sections of the photovoltaic power generation plate 50 to protrude outwardly and inclined in the outward direction, and is divided into two portions so that the photovoltaic power generation plate 50 is left and right symmetrically. Separated by 42

In the entire section of the photovoltaic panel 50, a plurality of supply pipes 55 are provided at regular intervals, and the supply pipes 55 are provided with a blowout port 57 to provide cooling air or cooling water. Is an invention.

In addition, by providing a separate rotary blade 66 'by extending the rotary shaft (15') provided in the power generator device 67 is provided with the rotary blade 66, the wind power generated by the wind blowing naturally The invention is provided to reinforce the power of generation to provide cooling air or cooling water.

In addition, the support pillar for the wind turbine 27 to provide wind power by rotating the rotary blade 66 in the rotation axis of the generator 67 coupled to the upper end of the support pillar 12 for the wind turbine 27. By being coupled to the semi-circular housing 32 which is coupled to the semi-circular bearing 33 to the outer surface of the fixed ring (34), respectively fixed in the upper and lower sections of (12), by engaging in the outer section of the support pillar 12 Solar light coupled to the rotating means 40 at the same time, provided with a coupling to connect the frame 29 to the upper and lower fixed cap 30 provided on the rear of the photovoltaic device 25 to configure In the power generator 25, the lower section b is formed as a section of the first power generating plate 53, and the partition 44 and the moving section 43 are alternately formed in the upper section a. In the front of the photovoltaic plate providing the second power generation plate 54 in accordance with the giving section, the module 49 is a continuous half In the photovoltaic power generation plate provided in multiple, by inducing wind blowing in a strong wind according to the inclined slope of the photovoltaic power plate, the wind power induction photovoltaic device for providing the wind blows to the rotary blade (66) To 25,

A joint part which is projected on both sides of the upper and lower sections of the photovoltaic power generation plate 50 to protrude outwardly and inclined in the outward direction, and is divided into two portions so that the photovoltaic power generation plate 50 is left and right symmetrically. Separated by 42

Perforate the supply pipe 55 provided in plurality at regular intervals in the entire section of the photovoltaic plate 50,

The supply pipe 55 is an invention that is provided with a spout 57 to provide cooling air or cooling water.

In addition, the spring 28 is coupled to the semi-circular housing 32 is coupled to each of the semi-circular bearings assembled to the support pillar 12,

By providing a separate rotary wing (66 ') by extending the rotary shaft (15') provided in the power generator (67) having the rotary blade 66, the wind power generated more by the wind blowing naturally The invention is provided to reinforce the cooling air or cooling water to provide.

As described above, the present invention always delays the flow rate by mitigating the flow rate by the operation of a blocking gate installed in a plurality of flow rates for the water flowing through the water pipe, even when the water level of the main stream is lower than the height of the river. Since the fish can be moved, and also the ground for the drop section is reinforced by embedding a reservoir block formed with a reservoir space, and also adjust the rotational speed of the blocking door for the control of the flow rate for the water pipe In addition, by constructing the control device with eco-friendly control by solar and wind power generation, it prevents damage such as retrograde erosion even in areas inaccessible such as fields or valleys, and the flow rate of water stored in rivers It is an invention about water pipe of nature friendly drop zone by adjusting.

Accordingly, the present invention has been made in order to solve the problems as in the prior art, the water of the main stream is provided with a water block and a beam installed in the bottom of the river in the free fall section of the place lower than the water level of the stream. While forming a toolbox between the sections of the waterway pipe provided while being provided, to form a fishing tackle, it is possible to move the fish by a certain amount of water flows for each moving section of the blocked esophagus, the drive and control of the blocking door The purpose is to provide eco-friendly such as renewable energy.

Therefore, when explaining the embodiment for use in the field construction according to the present invention with the accompanying drawings, Figure 1 is a schematic perspective view of the free fall zone formed water flow control pipe according to the present invention, Figure 2a, b is Figure 1 3 is an exploded partial perspective view of the main part in FIG. 2, FIG. 3 is an exploded partial perspective view of the main part in FIG. 2, FIG. 4 is a cross-sectional view of the CC line in FIG. 3, and FIG. 5 is a DD line in FIG. 3. It is a cross section.

6 is a partial perspective view of an embodiment of the main part of the present invention, Figure 7 is a partial perspective view of an embodiment of the main part in Figure 6, Figure 8 shows an embodiment of the use state for the main part of the present invention One part perspective view.

In addition, Figure 9 is a partial perspective view of the main portion of the present invention, Figure 10 is an exploded perspective view of the main portion in Figure 9, Figure 11 is a partial cross-sectional view showing a state of use in Figure 9, Figure 12 is a main portion in Figure 11 13 is a cross-sectional view taken along line EE of FIG. 11, FIG. 14 is an exploded perspective view of the main portion of FIG. 11, FIG. 15 is a plan view of FIG. 9, and FIG. Partial sectional view of the operating state, and FIG. 17 is a state diagram of an embodiment of the main part in the present invention.

That is, the present invention is intended to provide for use in areas where main streams and streams meet each other in streams in valleys of fields or wide mountainous areas.

In addition, the velocity of the flowing velocity at the point where the stream is connected at one side of the side slope part due to excessive dredging or water depth for the preservation of the environment or the dimensional management of water in the stream of the main stream is formed. Description of the water pipe for adjustment to not only reduce the erosion of the riverbed or the bank of the river stream but also to facilitate the movement of the fish by delaying the flow, the flow increases with the drop in the flow rate in the inclined section of the side slope portion 23 In order to prevent the collapse of the ground against the settlement, the prosecution 21 'of the beam 21 constructed in the side slope portion 23 is buried as an extension, and the prosecution in the connection 21' By providing the storage block 11 embedded in the predetermined section (m) as much as possible, it is an invention that embeds the storage block 11 in which the storage space is formed as well as the robustness to the prone area.

Here, the buried depth of the water storage block 11 is preferably provided to match the lower bed (18 ').

Therefore, a description of one embodiment of the water storage block 11 described above, as shown in Figure 2a, b, the structure for the water storage block 11 so that the storage space 24 to pass through It is provided with a wall 32 having a cylindrical or polygonal cross section and having a predetermined length. The wall 34 is provided with a plurality of transfer holes 36 intermittently passing through a predetermined size. In addition, a plurality of floors are provided in a stack so as to meet the storage section of the construction site where the wall 34 is to be installed, and the wall 34 is continuously fixed in a stack so that the transport hole 36 penetrates each other. While fixed to each side end of the block is configured to be embedded in a predetermined section (m) by fixing the fixed wall (21 ") so that the river water is stored in the storage space 24 of the storage block 11 section To provide.

Here, the fixing between the walls 34 described above is preferably provided as an assembly with a fixing pin or bolt, not shown.

This is an invention in which the structure of the water storage block 11 described above is stacked in a water storage space 24 having a predetermined size, that is, formed in a lattice shape, which is buried underground in accordance with the bed 18 ', It is an invention provided to perfectly fix the phenomenon such as settlement and collapse. (FIGS. 2A and B).

In addition, the slope is connected to one side of the side inclined portion 23 of the main stream 13, in the free stream section is formed, at the lower end of the stream 14 of the position higher than the water level of the main stream 13 A waterway pipe 10 is formed to be inclined so that the river water is transferred from the side slope portion 23 of the main stream 13 to be connected, and the end of the water inlet and outlet of the water pipe 10 is formed at each main stream and the stream. The zoom is preferably configured to be immersed in river water.

Here, the structure of the water pipe 10 described above is made of synthetic resin, reinforced concrete material, etc., the cross section is composed of a cylindrical or rectangular pipe, etc., in the present invention in the water pipe 10 is composed of a cylindrical cross section It should be described.

Therefore, in the entire section of the water pipe 10, provided with a supply pipe 55 formed in a small size on one side, provided by puncturing the supply port 24 through each other in a predetermined section difference, will be described later By supplying water for the section between the door 35 to be provided to facilitate the movement of the fish.

In addition, the interval between the upper and lower ends of the water pipe 10 is provided with a blocking door (35, 35 ') for each entrance, exit, the blocking door (35, 35') is a water pipe (10) It is preferable to install the entire section of the separation into a plurality of sections, each of the separated section is provided with a blocking door 35 to control the rotation, the water supply pipe 10 and the supply pipe fixed to one side ( 55 is provided with a rotating shaft 15 which is assembled to penetrate each other, by fixing the blocking door 35 is fixed while penetrating through the rotating shaft 15 in the water pipe tube 10 section through which the rotating shaft 15 passes, As the blocking door 35 rotates together with the rotation shaft 15, it is preferable to install the blocking door 35 to block an inner section of the water pipe 10.

In addition, the object of the present invention is provided in Figures 3 to 5 attached to provide a power for the rotation drive for the blocking door 35 is installed in the inner space of the water pipe 10 formed in the side slope portion 23. As shown, the rotary mill 19 is coupled in accordance with the inner section of the supply pipe 55 in the rotating shaft 15 provided through each predetermined interval in the entire length section between the end portions of both ends of the water pipe 10 Let it be. In addition, a plurality of inclined rotary blades 26 protrude at equal intervals in the outer surface section of the rotary mill 19, causing rotation to the rotary mill 19 by the movement force of water flowing through the supply pipe 55. By doing so, it is preferable to provide to provide a rotational drive of the blocking door (35).

In this case, it is preferable that the inner side of the supply pipe 55 is provided with a guide bar 31 for the water flowing in the installation section of the rotary mill 19 so as to be inclined toward the rotor blade 26 direction.

Here, stagnant interval between the installation section of the blocking door 35 at the same time as the reinforcement of the rotational force for the rotating mill 19 is formed in a predetermined width in the inner section of the supply pipe 55 is formed in a cylindrical drum shape. By forming a section, by adjusting the flow rate flowing through the water pipe 10 according to the rotational stone degree of the blocking door 35, the above description to adjust the inflow of river water from the side slope portion 23 of the object of the present invention. It is desirable to provide adjustment to the inclined structure with respect to the guide rack 31 to be.

In addition, by providing to open and close alternately with each other at a certain time difference in the stagnation section between the blocking doors 35 are installed at equal intervals in the stagnation section of the waterway pipe 10 which is the main part of the present invention, the body for the movement of fish As a structure for repeatedly providing the opening and closing of the section continuously, as a control device for driving thereof, as shown in FIG. 4, the opening and closing device 37 at regular intervals between sections of the water pipe 10. And a control device 45 equipped with a limit switch and the like.

Therefore, it is preferable to provide a control device 45 between the sections of the water pipe 10 so as to provide the control device 45 at regular intervals so as to be opened and closed in accordance with the movement time according to the type of fish.

Here, as the adjustment of the driving time of the blocking door 35 and the control device 45 described above, by adjusting the amount of water flowing in the water pipe 10 provided to flow through the drop zone, it is caused by excessive dredging It is desirable to provide to prevent the retrograde erosion in the stream (14).

Therefore, the water supply pipe 10 and provided with a rotating shaft 15 penetrated by the supply pipe 55 provided on one side,

In the inner section of the water pipe 10 is provided with a blocking door 35, the section of the supply pipe 55 is provided with a rotary mill (19), the axis of the barrier 35 and the rotary mill (19) On one side of the rotating shaft 15 to penetrate the locking chuck 41 is provided with an opening and closing device 37 is provided to open and close the door 35 of the water pipe 10 by a predetermined time by the drive of the control device 45. and,

On one side of the water pipe 10, the water supply pipe 55 of a smaller size than the water pipe 10 and side by side,

Inlet ports are formed at both ends of the water supply pipe 55, and a supply port 24 is formed at regular intervals on the wall surface between the water pipe 10 and the water supply pipe 55 to supply water to the stagnant section. The present invention is characterized in that a safe movement path for moving fish is formed.

In addition, as an embodiment of the locking chuck 41 on one side of the rotary shaft 15, even if a rotation control device widely used such as a clutch or other limit switch is used, it will be within the scope of one embodiment of the present invention.

In addition, the main and main types of the mainstream river 13, which is the main component of the present invention, are classified into a variety of sizes. The size of the stream 14 flowing in from (23) is classified as large.

Therefore, as described above, the size of the beam 20 which is installed at the lower end of the branch 14 to be connected at the side slope portion 23 of the large main stream 13 is wide.

Therefore, by arranging a plurality of water pipes 10, 10 '... in the area of the beam 21 so as to be fixed through each other at predetermined intervals, the water flowing down from the massive stream 14 by flooding or the like. It is an invention that provides to transport to the main stream 13 by dispersing each other.

Here, it is preferable that the water pipes 10 arranged continuously and repeatedly described above are provided to open and close the blocking door 35 according to the driving of the control device 45 as described above in accordance with the amount of flowing water.

In this case, the size and height of the beam 21 are further enlarged according to the depth of the jicheon 14, and the water pipes 10, 10 '... are laminated in a two-layer structure so that a predetermined distance is formed. It is an invention that is provided so as to provide a drainage to the water suddenly blown up by a flood or heavy rain, etc. (FIGS. 6 to 7).

Therefore, when the size of the side slope portion 23 is arranged in a large size with a deep depth due to excessive dredging of the bottom surface, water flows rapidly due to the difference between the height of the stream and the main stream due to the difference in the depth of the turbulence section. The purpose is to provide protection against the risk of erosion and collapse as a result of

In addition, by providing the guide bar 31 for the water flowing in the installation section of the rotary mill 19 of the supply pipe 55 so as to be inclined toward the rotary blade 26, the inflow from the inlet of the supply pipe 55 possible It is preferable to reinforce the rotational force of the rotary mill 19 by reinforcing the current as much as possible, and as an embodiment thereof, the channel of the section having a large size of the jicheon 14 and the height of the side inclined portion 23 is high. In (10), in order to reinforce the effective economics, one side of the rotary shaft 15 is provided to provide a hydroelectric turbine (70).

Here, not shown so as to concentrate on the hydro turbine 70 by aggregating the rotational force provided to each of the plurality of rotary mill 19 and the rotating shaft 15 installed in the entire length section of the water pipe 10 By providing a rotary rod, a gear, and the like, the invention reinforces the economics of the power generation by reinforcing the driving force of the hydro turbine 70. (Figs. 3b and 8).

In addition, the hydroelectric turbine 70 is provided on one side of the rotating shaft 15 to be described, so that water flowing through the supply pipe 55 is installed to spray the rotor blades 26 section of the rotary mill 19. Although it was provided to generate power due to the installation of the base 31, which is rotated by the flow of a small amount of water flowing through the stream 14, the lack of rotational force for a sufficient power generation occurs, in the present invention Supply the rotational force of the rotary blade 66 provided in the wind turbine 27 provided to the connecting member 56 consisting of a connecting rod, gear, clutch, etc. not shown to connect the rotational force while passing through the support pillar 12 In this case, the invention is to reinforce the rotational force of the hydro turbine 70 by the connecting means of the rotational force, not shown, wherein the uniform rotational force of the water mill 19 is unevenly By providing an effect of uniformly adjusting the rotational force of the rotary blade 66 to the blowing wind, it is an invention that provides a high-quality power generation (Figs. 4 and 5).

In addition, in order to reinforce the photovoltaic power for the module 49 provided in the photovoltaic plate 50 that is the main part of the present invention, by cooling the cold air in the section provided with the module 49, the cooled module By the reinforcement of the generating power of (49), by using this, in addition to the reinforcement of the generating power and in the case of the breeze, one embodiment for the field construction of the present invention for supplying wind power for the rotary wing 66 for the wind power generation To illustrate the example,

Perforate the supply pipe 55 'provided with a plurality of predetermined intervals in the entire section of the solar power generation plate 50,

The supply pipe 55 'is provided with a blowout port 57 so as to blow out cooling air or cooling water, thereby providing the spouted cooling air to be guided while cooling the module.

If the air is not windy or breeze, by blowing the cold air cooled by the cooling device not shown through the outlet 57, by cooling the surface temperature of the photovoltaic panel 50, the module 49 As the cooling effect of the reinforcement of the power generation efficiency, and also the cold air spewed is induced in the direction of the rotary blade 66, it is an invention that provides for reinforcement of wind power even in the case of a breeze.

In this case, the wind induced in the photovoltaic device 25 is mainly driven by the wind blowing from the middle portion of the support pillar 12, the blown by the rotary blade 66 provided in the original wind power generator (27) The main wind power is to generate power to the wind blowing to the upper portion of the support pillar (12).

In addition, as an invention for providing a drive to the barrier 35, which is the main part of the present invention by utilizing environmentally friendly renewable energy, as shown in Figures 9 to 10,

The power storage device 58 provided in the control device 45 is provided as a connection to the power generation device provided in the wind power generator 27 and the photovoltaic device 25.

In addition to the support pillar 12 for the wind power generator 27 described above is projected to be inclined to one side while being coupled to the rotating means 40 and the frame 29 to the effect of the sunlight in the photovoltaic device 25 In order to provide an inclination angle for reinforcing power generation and at the same time, to provide a wind power and a photovoltaic device having a rotating means 40 for rotational driving in accordance with the blowing direction of the wind power,

Upper and lower sections of the support pillar 12 for providing wind power by rotating the rotary blade 66 in the rotation axis of the generator 67 coupled to the upper end of the support pillar 12 for the wind power generator 27 While connected to the semi-circular housing 32 is coupled to the semi-circular bearing (33) to the outer surface of the fixing ring (34) fixed at each, and configured to combine with the outer section of the support pillar 12 for solar sinks, The upper and lower fixing caps 30 provided on the rear surface of the photovoltaic device 25 are connected to each other by a frame 29 to be zoomed and rotated according to the direction in which the wind is blowing or the sunlight is reflected. In the photovoltaic device 25 coupled to the rotating means 40 for driving, the first power generating plate 53 is divided into upper and lower sections (a) and (b) while supplying cooling water to the rear thereof. A control device and a storage battery for controlling the device and the power generation device To provide to give the provided solar power plate 50 is a flat to turn.

However, in the present invention, as an embodiment to reinforce the effect of the induction on the wind power, the lower section (b) of the photovoltaic panel 50 is formed as a section of the first power plate 53, the upper side In the section (a), the partition wall 44 and the moving section 43 are formed alternately.

Here, the upper section (a) is provided, the plurality of partitions 44 and the moving path 43 to the upper side in accordance with the width interval of the upper section (a) for the transfer to the wind induced in the lower section (b) By forming a portion is preferably provided so that the wind induced in the lower section (b) is blown to the rotating section of the rotary blade 66 of the wind power generator 27, wherein the second in the section of the moving path (43) By providing the power generation plate 54, the solar power generation is to be provided respectively. Here, the front surface of each of the first and second power generation plates 53 and 54 described above is provided as a solar power generation plate 50 in which the module 49 is continuously and repeatedly provided.

As described above, the configuration and operation of the present invention have been described with reference to one embodiment, but the present invention is not limited thereto, and modifications and variations within the scope of the present invention will also fall within the scope of the present invention.

(Example 1)

As an invention for providing a drive to the barrier 35, which is the main part of the present invention by utilizing environmentally friendly renewable energy, as shown in Figures 9 to 16,

The power storage device 58 provided in the control device 45 is provided as a connection to the power generation device provided in the wind power generator 27 and the photovoltaic device 25.

In addition to the support pillar 12 for the wind power generator 27 described above as being coupled to the rotating means 40 and the frame 29 as protruding to be inclined to one side as a concave of the sunlight in the photovoltaic device 25 In order to provide an inclination angle for reinforcing power generation and at the same time, to provide a wind power and a photovoltaic device having a rotating means 40 for rotational driving in accordance with the blowing direction of the wind power,

Upper and lower sections of the support pillar 12 for providing wind power by rotating the rotary blade 66 in the rotation axis of the power generator 67 coupled to the upper end of the support pillar 12 for the wind power generator 27 While connected to the semi-circular housing 32 is coupled to the semi-circular bearing (33) to the outer surface of the fixing ring (34) fixed at each, and configured to combine with the outer section of the support pillar 12 for solar sinks, The upper and lower fixed caps 30 provided on the rear surface of the photovoltaic device 25 are connected to each other by a frame 29 to be zoomed and rotated according to the direction in which the wind is blowing or the sunlight is reflected. In the photovoltaic device 25 coupled to the rotating means 40 for driving, the first power generating plate 53 is divided into upper and lower sections (a) and (b) while supplying cooling water to the rear thereof. A control device and a storage battery for controlling the device and the power generation device To provide to give the provided solar power plate 50 is a flat to turn.

However, in the present invention, as an embodiment to reinforce the effect of the induction on the wind power, the lower section (b) of the photovoltaic panel 50 is formed as a section of the first power plate 53, the upper side In the section (a), the partition wall 44 and the moving section 43 are formed alternately.

Here, the upper section (a) is provided, the plurality of partitions 44 and the moving path 43 to the upper side in accordance with the width interval of the upper section (a) for the transfer to the wind induced in the lower section (b) By forming a portion is preferably provided so that the wind induced in the lower section (b) is blown to the rotating section of the rotary blade 66 of the wind power generator 27, wherein the second in the section of the moving path (43) By providing the power generation plate 54, the solar power generation is to be provided respectively. In this case, the front surface of each of the first and second power generation plates 53 and 54 described above is provided as a solar power generation plate 50 in which the module 49 is continuously and repeatedly provided.

In addition, the main part in the present invention, by inducing the wind blowing in a strong wind according to the inclined inclination of the photovoltaic plate, provided by being provided to be inclined so that the wind blows to the rotary blade 66 provided in the wind turbine (27) In the wind-induced photovoltaic device 25 to reduce the resistance in the high area of the photovoltaic plate 50 when a strong wind or a typhoon blows suddenly, to prevent damage to the wind sea Description of one embodiment for the invention to be described below, as shown in Figure 13 to 16,

By assembling the photovoltaic device 25 inclinedly, the guide power plate 51 inclined outwardly to both end portions of the upper and lower sections of the wind-guided photovoltaic power plate 50 formed to induce blowing wind. Protrudes, but the photovoltaic panel 50 is separated by a junction 42 separated into two equally symmetrical to each other in the upper and lower sections so as to be symmetrical left and right.

In addition, while being connected to the semi-circular housing 32 coupled to the respective semi-circular bearing 33 in the upper and lower sections of the support pillar 12, provided on the back of the photovoltaic panel 50 configured for solar light The upper and lower fixed caps 30 to the frame 29, and the upper and lower sections are separated into upper and lower sections (a) and (b) sections, respectively, and the combined solar panels 50 are rotated. It is desirable to provide a connection.

By combining the spring 28 to the semi-circular housing 32 is coupled to each semi-circular bearing to be assembled to the support pillar 12, while rotating in both sections by the strong wind blowing force, in the case of pure wind It is provided to be configured to be bonded (Figs. 15 to 16).

Wherein the central portion of the upper side of the photovoltaic plate 50 is provided with an assembling groove 46, thereby reinforcing the assembly efficiency for the photovoltaic device 25 coupled to the support pillar 12, and also Wind induced in the solar panel 50 is inclined coupled to guide the wind to the rotary blade 66 provided to the rear with respect to the support pillar 12, thereby providing a reinforced wind power generation.

In this case, when the rotary blade 66 is provided with a separate rotary blade 66 'while being exposed by extending the rotation shaft (not shown) provided in the power generation device 67, the force of the rotation force by the wind blowing naturally It is desirable to provide to reinforce the more advanced wind power generated by the reinforcement (Fig. 12).

In addition, in order to reinforce the photovoltaic power for the module 49 provided in the photovoltaic panel 50, which is the main part of the present invention, by cooling the cold air in the section provided with the module 49, the cooled module By the reinforcement of the generating power of (49), by using this, in addition to the reinforcement of the generating power and in the case of the breeze, one embodiment for the field construction of the present invention for supplying wind power for the rotary wing 66 for the wind power generation To illustrate the example,

Perforate the supply pipe 55 provided in plurality at regular intervals in the entire section of the photovoltaic plate 50,

The supply pipe 55 is provided with a spout 57 is provided to blow out the cooling air or the cooling water, it is an invention to provide the discharged cooling air is guided at the same time as cooling the module.

If it is a non-wind or a breeze, by blowing the cold air cooled by the cooling device not shown through the spout 57, by cooling the surface temperature of the photovoltaic panel 50, the module 49 As the cooling effect of the reinforcement of the power generation efficiency, and also the cold air spewed is induced in the direction of the rotary blade 66, it is an invention that provides for reinforcement of wind power even in the case of a breeze. (FIGS. 10-11)

In this case, the wind induced in the photovoltaic device 25 is mainly driven by the wind blowing from the middle portion of the support pillar 12, the blown by the rotary blade 66 provided in the original wind power generator (27) The main wind power is to generate power to the wind blowing to the upper portion of the support pillar (12).

Therefore, in the present invention, as a structure to provide an embodiment of the present invention to provide for generating power for the wind blowing in the upper, middle section of the support pillar 12 described above, as shown in FIG. By providing a separate rotary blade 66 'while exposing the rotating shaft 15' provided in the power generator 67 having the rotary blade 66 as an extension, it is further developed by the wind blowing naturally It is an invention that is provided to reinforce the wind power generation to provide cooling air or cooling water (Fig. 12).

As described above, the configuration and operation of the present invention have been described with reference to one embodiment, but the present invention is not limited thereto, and modifications and variations within the scope of the present invention will also fall within the scope of the present invention.

In addition, the hydroelectric turbine 70 is provided on one side of the rotating shaft 15 to be described, so that water flowing through the supply pipe 55 is installed to spray the rotor blades 26 section of the rotary mill 19. Although it is provided to generate power due to the installation of the base 31, which is rotated by the flow of a small amount of water flowing through the stream 914, the lack of rotational force for sufficient power generation occurs, which is provided by the present invention. Supply to the connecting member 56 consisting of a connecting rod, gear, clutch, etc. not shown to connect the rotational force while passing the rotational force of the rotary blade 66 provided in the wind power generator 27 to the support pillar 12 If so, the invention is to reinforce the rotational force of the hydro turbine 70, wherein the uniform rotational force of the water mill 19 is the rotational force of the rotary blade 66 in the wind blowing unevenly By providing the effect of adjusting the uniformity, the invention provides high quality power generation (Fig. 17).

1 is a schematic perspective view of a drop zone formed with a water pipe for water flow control according to the present invention

Figures 2a, b are exploded partial perspective views of the A-A cross-sectional view and the main portion in Figure 1

3A and 3B are cross-sectional views taken along the line B-B in FIG.

4 is a cross-sectional view taken along the line C-C in FIG.

5 is a cross-sectional view taken along the line D-D in FIG.

6 is a partial perspective view of an embodiment of the main part of the present invention.

7 is a partial perspective view of an embodiment of the main portion in FIG.

8 is a partial perspective view showing an embodiment of a use state for the main part of the present invention;

9 is a partial perspective view of the main part of the present invention.

10 is an exploded perspective view of the main part in FIG.

11 is a partial cross-sectional view showing a state of use in FIG.

12 is a cross-sectional view of an embodiment of the main part in FIG.

13 is a cross-sectional view taken along the line E-E in FIG.

14 is an exploded perspective view of the main part in FIG.

FIG. 15 is a plan view of FIG. 9

16 is a partial cross-sectional view of the operating state of FIG. 15.

17 is a state diagram of an embodiment of the main part in the present invention;

<Code Description of Main Parts of Drawing>

DESCRIPTION OF SYMBOLS 10: Aqueduct 12: Support pillar 13: Main stream 14: Jicheon 15: Rotation axis

DESCRIPTION OF REFERENCE NUMERALS 16 rotary gear 17 clutch 18 dike 19 rotary ledge 20

21: beam 22: sluice 23: side slope portion 25: photovoltaic device 26: rotor blade

27: wind power generator 28: spring 29: frame 30: cap 31: guide

32: semi-circular housing 33: semi-circular bearing 35: blocking door 37: switchgear

40: rotation means 41: locking chuck 42: connection 43: moving path 44: partition wall

45: control device 46: assembly groove 47,48: power generation plate on both sides 49: module

50: solar power plate 51: guide power plate 53,54: first and second power plate

Reference Signs List 55 supply pipe 56 connection member 57 ejection outlet 58 power storage device 60 flexible stand

61,62: upper and lower power plate 66,66 ': rotor blade 67: generator 70: hydroelectric generator

Claims (5)

In the inclined river is formed in the free fall section, the side slope portion 23 inclined to transport the river water into the water of the main stream 13 while being formed at the bottom of the stream 14 of the position higher than the water level of the main stream (13) The beam 20 is constructed to block the flow of water in the jicheon 14, which is one side of the side, and the side slope portion 23 is formed in the drainage passage provided as the water pipe 10 while passing through the beam 20. In the waterway pipe configured to provide the river water flows to the main stream (13), In the inclined section 21 'of the inclined section of the side slope portion 23 is provided with a reservoir block 11 buried in connection, It is provided with a rotating shaft 15 penetrated by the supply pipe 55 is provided on one side of the water pipe 10, the section between the upper and lower end is provided with each entrance and exit blocking door 35 ', Inner sections of the water pipe (10) and the supply pipe 55 is provided with a plurality of blocking doors 35 and the rotating mill 19 to form a predetermined section, respectively, the blocking door 35 and the rotating mill (19) On one side of the rotating shaft 15 penetrating the shaft of the opening and closing device is provided so that the shut-off door 35 of the water pipe 10 by the drive of the control device 45 to open and close alternately at regular intervals. 37, and The locking shaft 37 and the control device 45 is provided in the section of the rotating shaft 15, and the supply port 24 is formed on the wall surface between the water pipe 10 and the water supply pipe 55 at regular intervals. Water pipe and photovoltaic power plant for waterway pipe for reinforcement and flow control of free fall zone. The method of claim 1, The water storage block 11 is provided with a wall 32 through which the water storage space 24 penetrates. The wall 34 is provided with a transport hole 36, and the transport hole 36 penetrates each other. The wall 34 is configured to be fixed in a stack so that, Both sides of the water storage block 11 is fixed to the fixed wall 21 ", By arranging a plurality of water pipes 10 'in the section of the beam 21 to reinforce the drainage capacity from the stream 14, The control device 45 is provided with a connection to the power storage device 58 provided in the wind power generator 27 and the photovoltaic device 25, the solar power pipe for the reinforcement and flow control of the free fall area provided by Wind turbines. The method of claim 1, The guide bar 31 for the water flowing in the installation section of the rotary mill 19 of the supply pipe 55 is provided to be inclined toward the rotary blades 26, One side of the rotary shaft 15 is provided with a hydro power turbine (70), The rotational force of the rotary blade 66 to the hydro turbine 70 is connected to the connecting member 62, In the section of the water pipe 10 and the supply pipe 55 is provided by providing a flexible stand 60, provided by fixing the water gate 22 through, providing for use in the opening and closing process of the water gate 22. Water pipe and photovoltaic power generation system for waterway pipe reinforcement and flow control. Photovoltaic and wind power generation equipment for water supply pipes in the drop zone. Support pillar for the wind power generator 27 for providing wind power by rotating the rotary blade 66 in the rotary shaft of the generator 67 coupled to the upper end of the support pillar 12 for the wind power generator 27 ( 12 is connected to the semi-circular housing 32 which is coupled to the semi-circular bearing 33 to the outer surface of the fixing ring 34 is fixed in the upper and lower sections, respectively, by coupling to the outer section of the support pillar 12 The photovoltaic power generation coupled to the rotating means 40 at the same time, provided with a coupling to connect the frame 29 to the upper and lower fixed cap 30 provided on the rear of the photovoltaic device 25 to In the device 25, the lower section (b) is formed as a section of the first power plate 53, the upper section (a) to form a partition 44 and the moving section 43 alternately The module 49 is continuously repeated on the front surface of the solar power plate providing the second power generation plate 54 in accordance with the section. In the photovoltaic power plate provided with, by inducing wind blowing in a strong wind according to the inclined slope of the photovoltaic plate, the wind power induction photovoltaic device for providing wind to the rotary blade (66) ( 25), A joint part which is projected on both sides of the upper and lower sections of the photovoltaic power generation plate 50 to protrude outwardly and inclined in the outward direction, and is divided into two portions so that the photovoltaic power generation plate 50 is left and right symmetrically. Separated by 42 Perforate the supply pipe 55 provided in plurality at regular intervals in the entire section of the photovoltaic plate 50, The supply pipe 55 is provided with a spout (57) for the water pipe and solar power and wind power generation system for the reinforcement and flow control of the free fall area to provide to provide cooling air or cooling water. 5. The method of claim 4, Coupling the spring 28 to the semi-circular housing 32 is coupled to each of the semi-circular bearings assembled to the support pillar 12, By providing a separate rotary wing (66 ') by extending the rotary shaft (15') provided in the power generator (67) having the rotary blade 66, the wind power generated more by the wind blowing naturally Solar water and wind power generation equipment for water pipes for reinforcement and flow control of free fall zones to provide cooling air or cooling water

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