KR101569729B1

KR101569729B1 - Sleeping structures for condensate collection

Info

Publication number: KR101569729B1
Application number: KR1020100103922A
Authority: KR
Inventors: 민승기
Original assignee: 민승기
Priority date: 2010-10-25
Filing date: 2010-10-25
Publication date: 2015-11-27
Also published as: KR20120042294A

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water surface structure for collecting condensed water on a water surface such as a reservoir or a sea surface. More particularly, the present invention relates to a water surface structure for collecting condensed water vapor, This is the invention.

Generally, the moisture that is generated in the air from the sea surface of rivers, reservoirs or coastal areas will emerge into the air, and rain will form due to the difference between low pressure and temperature.

Therefore, as an invention for solving the problem described above,

A work line 10 provided with a water storage tank 22 for water treatment at the water surface 11, a frame 21 fixed to be projected to both sides of the work line 10, A steam jet pipe 12 having a jet port 33 provided to be submerged in the water surface 11 while being fixed,

A solar cell module 20 which is obliquely projected upwardly symmetrically on the side of the solar cell module 20 at both sides of the frame 21, A guide groove 28 projecting from both sides of the guide groove 29 so that the guide groove 29 is formed in the guide groove 29, a gap section spaced from the upper side of the guide groove 29 on both sides, An outlet 19 provided as a wall 18,

And a shielding film 37 protruded to the lower side of the water vapor distribution plate 12 at both side ends of the solar power generation plate 20, Section 40,

An induction part 23 protruding from the upper side of the water storage tank 22 to the lower side of the discharge port 19 and a low pressure section 40 separated from the lower pressure interval 40 by a moving distance A formed at the upper end of the induction part 23. [ A movement section 47 and a condensation section 54, which are formed in a state of being formed;

A water jetted from the moving interval (A) is discharged to the upper side of the water storage tank (22) through the water discharge port (19) And a condensing water condensing device installed in the water storage tank so as to flow into the guide part protruding from the water storage tank,

A side wall 31 protruding from a shielding film 37 fixed to both ends of the solar cell plate 20,

A rotating shaft 42 passing between the side walls 31,

A rotary drum 44 provided on the rotary shaft 42,

A rotary vane 43 projecting at a plurality of intervals on the outer side surface of the rotary drum 44,

An outer wall body 33 connected to the side wall 31 provided on the outer side of the rotary vane 43,

A fixing wall 49 provided at both ends of the outer wall body 33 to support the upper side of the solar power generation plate 20 downward and an inlet 21 'formed at both sides of the fixed wall, A rotary drum 44 for reinforcing the rotational force by the wind force guided to the power generation plate 20 and rain water to the water storage tank 22 by the conveyance pipe 35 penetrating from the lower side of the solar power generation plate 20 ' And stored.

Further, a rainwater guide bar (34) is provided outside the bookkeepper (25)

A fixing wall 49 'provided on the outer wall body 33' protruding to widen both side edges of the inlet 21 'of the one side and the other side,

One side of the solar power generation plates 20 on both sides is provided with an enlarged solar power generation plate 20 'and an inclined guide plate 46 on the other side,

The slope includes a water storage tank 22 formed below the induction plate 46 and an induction part 23 'extending from the guide part 23 protruding from the water storage tank 22,

The water storage tank 22 is provided with an induction part 23 'for guiding the condensed water to the lower side of the spray table 16 for spraying low-temperature water vapor,

And an induction plate 46 is protruded at a lower side of the inlet 21 'of the other side so that the wind force is guided.

Working line, spouting tube, rotating block, mouth, outlet

Description

Sleeping structures for condensate collection {omitted}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water surface structure for collecting condensed water on a water surface such as a reservoir or a sea surface. More particularly, the present invention relates to a water surface structure for collecting condensed water vapor, It is an invention to provide wind power by monsoon wind as well as supply of collecting water by solar power generation or solar heat heating, and to provide it by potable water or the like.

Generally, a large amount of energy is required for heating in a heating apparatus for collecting condensed water by a photovoltaic power generation installed in a predetermined region such as a coastal area or a lake.

Also, the construction of photovoltaic power generation complex or wind power generation complex requires a predetermined large area, but requires an effective device for natural heating or power generation functioning thereon.

Therefore, the compatibility between the electric power generating devices can not be applied to each other, and therefore, the installation cost is excessively connected due to the large area required for the electric power generating device.

Also, in regions where solar or wind power is high depending on the region, and where power generation facilities or heating facilities are lacking, the amount of energy to be supplied to the solar power generation plates may not be so small.

As the rainwater is scattered in the air and the cold air and the warm air come into contact with each other while moving in the low pressure state, the water vapor grains mixed with each other gradually turn on due to the formation of the cohesive force, It falls.

In addition, the water quality of the river or lake described above is often subject to various limitations in terms of contamination to the area or use as living water.

In addition, since the sea level of the coastal area is high in salinity, it is difficult to use it as drinking water. In addition, the sea level of the coastal area is highly contaminated, but it provides pure beverage as condensation at the same time as distillation.

Particularly in areas where water is scarce or contaminated, most of the dry areas and local rainfall cause shortage of drinking water, which is considered to be a region with high sunlight.

In addition, since the sea level of the coastal area is much larger than that of the nearby land due to the difference in temperature, it is to provide power by wind power generation accordingly.

Accordingly, the present invention provides a practical structure for promoting the collection of condensed water by the structure of the solar photovoltaic panel having a large area as described above.

According to the present invention, water vapor is generated at the sea surface for use as environmentally friendly drinking water in a lake or sea surface, and the water vapor is collected as condensation as condensation to store water in a reservoir.

In the present invention, the wind power that is blown in the area of the solar power generation plate is aligned with the width of the solar power generation plate, and the rotation block for power generation is provided by inducing the wind direction to reinforce the possible power generation.

In addition, the present invention is to provide water for heating water to be supplied to the sea surface by using solar heat applied to the solar power generation plate, and to save energy required for the heating.

It is also intended to provide a sleeping structure which can be safely adapted even when the sleeping surface is rocked by a lake or sea breeze.

A solar cell module 20 which is obliquely projected upwardly symmetrically on the side of the solar cell module 20 at both sides of the frame 21, A guide groove 28 projecting from both sides of the guide groove 29 so that the guide groove 29 is formed in the guide groove 29, a gap section spaced from the upper side of the guide groove 29 on both sides, An outlet 19 provided as a wall 18,
And a shielding film 37 protruded to the lower side of the water vapor distribution plate 12 at both side ends of the solar power generation plate 20, Section 40,

An induction part 23 protruding from the upper side of the water storage tank 22 to the lower side of the discharge port 19 and a low pressure section 40 separated from the lower pressure interval 40 by a moving distance A formed at the upper end of the induction part 23. [ A movement section 47 and a condensation section 54,
A water jetted from the moving interval (A) is discharged to the upper side of the water storage tank (22) through the water discharge port (19) And a condensing water condensing device installed in the water storage tank so as to flow into the guide part protruding from the water storage tank,

A rotating shaft 42 passing between the side walls 31,
A rotary drum 44 provided on the rotary shaft 42,

A rotary vane 43 projecting at a plurality of intervals on the outer side surface of the rotary drum 44,
An outer wall body 33 connected to the side wall 31 provided on the outer side of the rotary vane 43,

Further, a rainwater guide bar (34) is provided outside the bookkeepper (25)

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A fixing wall 49 'provided on the outer wall body 33' protruding to widen both side edges of the one side and the other side,
One side of the solar power generation plates 20 on both sides is provided with an enlarged solar power generation plate 20 'and an inclined guide plate 46 on the other side,
The slope includes a water storage tank 22 formed below the induction plate 46 and an induction part 23 'extending from the guide part 23 protruding from the water storage tank 22,

The water storage tank 22 is provided with an induction part 23 'for guiding the condensed water to the lower side of the spray table 16 for spraying low temperature water vapor,

The present invention relates to a method for producing condensed water by eco-friendly photovoltaic power generation or the like, effectively storing water condensed as a capture when the water is insufficient due to pollution or drought in a lake or a coastal area, will be.

It is also an eco-friendly device that can save the operational expenses and provide water that is essential for daily life, while it can be installed with simple installation by supplementing the energy required for the generation of condensed water by using power generation using wind power blowing from the water surface or heating by solar heat.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings, and specific details for carrying out the present invention will be described.

FIG. 1 is a perspective view of a substantial part of a conventional condensed water collecting apparatus, FIG. 2 is a partially cutaway perspective view of FIG. 1, FIG. 3 is a cross- 5 is an enlarged cross-sectional view taken along line BB in Fig. 4, Fig. 6 is a bottom perspective view of Fig. 4, Fig. 7 is a cross- Fig. 9 is a cross-sectional view of an embodiment of the present invention. Fig.

1 to 3, in a water surface 11 such as a large-area lake or a coastal sea surface, a general merchant line or a working line 10 for purification work And the like are fixed to each other so that the frame 21 and the screws and the like are provided with a preferable structure so as to move or work on the water surface in order to provide robustness while providing buoyancy, It is produced.

And a control device 14 for controlling a capacitor, a freezer, and the like, which are necessary for driving the commercial line 10 and the like.

In addition, water vapor evaporated by sunlight or temperature at the water surface is in a low pressure state and comes into contact with the cold air, so that the water vapor grains become larger and larger as they condense to each other, and are spread down to heavy rain or snow.

Accordingly, the structure for storing purified water in the water storage tank 22 by condensing (collecting) water vapor containing steam, which is the object of the present invention, with the above-described working line 10 described above as condensed water, A storage water tank 22 for storing water in a longitudinal direction of the work line and a frame 21 fixed at an upper side of the work line on the inner bottom of the work line 10 formed by the work line 10 A solar cell 20 and a transfer pipe 35 provided in the storage tank 22 in the bookkeeping unit 25 are provided at the lower end of the solar cell plate 20, , And the rainwater led from the solar power generation plate (20) is formed to be stored in the water storage tank (22) while the rain water is conveyed downward by the transfer pipe (35).

In order to accelerate the generation and condensation of water vapor, which is the main part of the present invention, the jet ports 33 are arranged at predetermined intervals so as to generate high-temperature steam while being immersed in the water surface 11 at both side edges in the longitudinal direction of the work line 10 (Not shown) at both side ends of a plurality of discharge pipes 12, which are continuously drilled, are connected to the discharge surface of the discharge pipe 12, which is submerged in the water surface 11 by a shielding film 37 (12) to the outside.

The explanation for blowing the heated air or the like to the discharge pipe 12 described above is made by a connecting pipe not shown by the control device 14 constituted by the accumulator provided in the working line 10, It is preferable to configure it so as to be supplied and controlled.

And a jacket integrally fixed to the solar power generation plate 20 provided on the work line 10 so as to provide buoyancy to the water surface 11 and seal the water surface, It is preferable that the low pressure section 40 is provided at both ends of the low pressure section 40 so as to be fixed and fixed at both side ends of the adiabatic section 25.

Further, in order to provide a space between the annular portions 25 provided on both sides at a low pressure to provide an environmentally friendly power for generating condensed water,

It is preferable that each of the barrier films 37 is installed at the edge of the front and rear sides so as to be locked at a predetermined depth from the water surface 11 so as to block the outside from the edges of the front and rear sides of the working line 10.

The shielding film 37 is fixed to the inclined end of the sloping solar photovoltaic plate 20, which will be described later, and is locked to the lower side of the section provided with the discharge tube 12, And a low pressure section which is sealed by the jacket is formed in the installation section of each of the blocking films 37 so that the discharge port 19 formed in the protruding wall 18, Thereby providing the inside of the blocking film in a reduced pressure state.

In order to reinforce the discharge output from the discharge port 19, a cross section of the discharge port 19 formed in the discharge port 18 is provided with a structure in which the upper part is narrowed, and the discharge port 19 ) Is provided with an inflow section (17) in the lower section of the low pressure section (40) to reinforce the low pressure section (40) in a reduced pressure state by the stress discharged from the air outlet port (19) while the wind blowing in the air flows.

In addition, the photovoltaic power generation plate 20 integrally formed with the jacket inclined so as to be convex at the central portion between the annular portions 25 provided on both sides is blocked by the power generation plate block 30 formed integrally with each other, A protruding wall 18 formed to discharge the photovoltaic power generation panel 20 with a discharge port 19 having a predetermined spaced distance from the photovoltaic power generation panel 20 while projecting upward, And a plurality of discharge units 13 provided at predetermined intervals along the longitudinal direction on the discharge port 19 provided between the spaced apart discharge ports. The low pressure section 40 is maintained in a reduced pressure state by the discharge output of the discharge unit 13 so as to enhance the generation of steam by the steam discharge pipe 12 and to reinforce the formation of condensed water .

The slope described above includes a photovoltaic power generation element 50 on the outer surface of the solar photovoltaic plate 20 so as to compensate for use power of the working line 10 due to sunlight.

Accordingly, the discharge port 19 provided at a predetermined distance while being blocked by the power generation plate block 30 which is inclined at the central portion of the present invention as the main part of the present invention is formed around the projecting wall 18 protruding upward, Which is adapted to a predetermined distance from the lower part of the discharge port 19 so as to condense the condensed water into the cooling air jetted from the condensation water condenser 15.

The condensing water condensing table 15 on which the jetting spouts 16 are formed is formed so as to be aligned with the longitudinal direction of the photovoltaic power generation plate 20 so that the freezing air cooled in the freezing apparatus provided in the controller 14 (Not shown), the water vapor generated from the heating surface on the water surface is brought into contact with each other, and the condensed water condensed on the surface of the condensed water condensing table 14 is heavily promoted to promote the formation of condensed water. Water droplets flow downward into the guiding portion 23 and are guided in the form of rainwater.

Therefore, the guiding portion 23 protruding outwardly from both side edges of the water storage tank 22 and the moving interval (A) are formed in the condensation section 54 formed in the inlet section 47 ' The condensate is guided to the reservoir tank 22, which is preferably applied to an apparatus of an effective size and length depending on the construction site,

This ejects cooling air from a condensate condenser (15) fixed at the lower inlet of the outlet (19), thereby providing condensed water vapor to condense the condensed water.

As described above, the description of the generator plate block 30 will be given in the following manner. That is, the power generator plate block 30 is integrally formed on the inner surface of the solar cell plate 20 fixed at the loader 25 suspended on the water surface 11 at the both- As shown in Fig.

A shielding film 37 descending from both end faces of the solar cell plate 20 is formed in order to reinforce the inside of the solar cell plate 20 to a low pressure state by the operation of the ejector 13 (12) on both sides to be immersed in the water surface (11), wherein the inner space of the solar power generation plate (20) is sealed by the water surface (11) And a low-pressure section (40) maintained in a state of being maintained.

In addition, the sunlight generating device 50 is installed on the outer surface of the solar power generating plate 20 to generate power for sunlight to supply the necessary power during use of the condensed water collecting device, .

In addition, a description of a preferred embodiment of the solar panel 20 having a large area with the low-pressure section 40, which is a substantial part of the present invention,
As shown in the accompanying drawings, an induction groove 29 through which rainwater flows downward from the photovoltaic power generation plate 20 so as to be moved to an annular space 25 provided at both side edges, The rainwater flows through the whole section of the solar power generation plate 20 by the respective guide ribs 28 provided at the opposite end portions of the solar power generation plate 20. [

The rainwater flowing in the section of the induction groove 29 provided with the guide rib 28 is supplied to the upper side edge of the booklet 25 so that the inclined plate flows in the inclined direction of the solar power generation plate 20 The rainwater guiding table 34 and the rainwater guiding table 34 are installed on the solar power generating plate 20 so that the rainwater induced on the upper surface of the bookkeepper 25 moves to the water storage tank 22 And a conveyance pipe (35) connected to the water storage tank (22) installed on the work line (10) while being passed therethrough.

Here, the storage tank 22 and the transfer pipe 35 connected to the edge of the solar battery plate 20 are formed at an angle to each other, and between the sections of the large-area solar battery plate 20, It is preferable to provide them in a plurality of intervals.

The control unit 14 such as a condenser, a freezer, and a heater, not shown, is fixed to the frame 21 by means of the water storage tank 22 installed on the work line 10 for work on the water surface 11 .

The water in the water surface 11 is evaporated by the heated air ejected from the steam jet pipe 12 having the jet port 33 provided to be submerged on the water surface 11 on both sides of the working line 10, In order to reinforce the stability of the operation line 10 against the oscillation of the water surface 11 and the hermeticity of the low pressure section 40, there are provided an adhering section 25 floating on the water surface outside the water vapor discharge pipe 12, A photovoltaic panel 20 integrally formed with a jacket having an arc-shaped cross section so as to cover and cover the entirety of both side sections formed with the bookkeepers 25; a projecting wall 18 at the center of the conveyance pipe 35; The water vapor introduced into the inlet section 47 'through the movement interval A in the movement section 47 in the low pressure section 40 is discharged to the outside through the outlet 19 formed in the discharge section 16 And condensation of the cooling air injected from the condensate condensing table 15 generates water. This is an invention which promotes the generation of water vapor in the water surface (11).

The low voltage section 40 is formed by a shielding film 37 which is fixed at both side edges of the photovoltaic power generation plate 20 so as to cover the lower side section thereof and is discharged from the discharge port 19 of the projecting wall 18 A low pressure section 40 for keeping the inside space at a low pressure state and a low pressure section 40 for maintaining a high temperature and high moisture content of water vapor in the low pressure section 40, Water vapor or air, cooled by the cooling water (16), to reinforce the formation of water by condensation of the condensed water,

The formed water flows into the guide portion 23 and is stored in the water storage tank 22 provided on the work line 10. [

The structure of the solar photovoltaic panel 20, which is the essential part of the present invention, is provided with a structure in which the solar cell panels 20 are inclined obliquely to both side edges, that is, the central part is convex and both side edges are inclined downward. Wind and rainfall are likely to fall due to differences in temperature between the two.

Therefore, the slope is an invention for storing the rainwater falling on the outer surface of the solar power generation plate 20 into the water storage tank 22 with effective induction, and, as will be described in detail with reference to the accompanying drawings,

In order to flow the rainwater to be supplied to the solar panel 20 having a large area including the low pressure section which is the essential part of the present invention to the position of the notch 25 installed on both side edges of the solar panel 20, The guide ribs 28 are guided so that rainwater is guided upward and downward in the entire width of the solar battery plate 20 to induce rainwater.

A rainwater guiding band 34 protruding from the wind turbine 25 fixed to the edge of the solar photovoltaic plate 20 through which the rainwater flows, And the photovoltaic power generation plate 20 are connected to each other through the conveyance pipe 35 and the induction rib 28, respectively.

Here, the storage tank 22 and the conveyance pipe 35 connected to the edge of the solar cell plate 20 are provided at an angle to each other at regular intervals.

The present invention can be applied not only to a river but also to a marine structure such as a ship in a lake or a coastal area so as to collect the water contained in the water in a high rate to collect water vapor, And high saltiness of sea water.

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(1)

In the present invention, both the guide ribs 28 formed on both side edges of the longitudinally inclined solar cell plate 20 installed on the upper portion of the water surface structure for collecting condensed water described above, An induction groove 29 which is a section between the ribs 28 reinforces solar power generation on the solar power generation plate 20 and reinforces power generation by wind power, In order to reinforce the solar power, the sunlight power generation plate 20, which is inclined to both sides, is inclined to one side, that is, And an inclined guide plate 46 is provided on the other side.
Here, it is preferable to reinforce the durability against the inner section formed by the jacket and the barrier film integrally provided to the solar cell plate 20, that is, the low-pressure section 40.

The guide ribs 28 protrude from both sides of the solar battery plate 20 and the guide plate 46 at both sides of the guide plate 46, And an induction groove 29 is provided in the interval between the two.

The induction plate 46 is installed so as to protrude so as to be steeply inclined toward the oil tool 21 'on the north side from the annular groove 25 provided in the north direction. The induction plate 46 and the solar power generation plate 20 Is formed by a discharge section 19 'that is discharged from an inner section formed by the low pressure section 40 and a rotary section which is formed on the upper side of the discharge section 19' It is preferable to provide the block 55.

5 and 9, the guide portion 23 protruding above the water storage tank 22 is installed in a lower section of the discharge section 19 ' A condensed water condensing table 15 provided with a spray plate 16 for spraying the air and a guide part 23 provided on the upper side of the water storage tank 22 under the discharge section 19 ' The condensed water condensed by the jet of the cooling air of the condensation water condenser 15 is introduced into the water storage tank 22 through the guide portion 23 '

Further, in the power generating block 30, which is a main part of the present invention, the output of the steam heated by the steam jet pipe 12 is reinforced by the maximum solar power generation and the solar heat heating, The steam jet pipe 12 having the jet port 33 is connected to the flat jet nozzle 12 'having the jet port 33' formed therein, as shown in the accompanying drawings, The structure of the steam jet pipe 12 in which the jet port 33 is formed is diversified and the embodiment thereof is provided as a jet pan 12 'having a larger sectional area, .

As described above, the power generating block 30 provided in the present invention will be described with reference to an embodiment focusing on the field construction. As described above, the sunlight is mostly illuminated from the south side. A solar photovoltaic plate 20 having an inclined structure on one side and an induction plate 46 projecting steeply toward the north side on the other side so as to enlarge the efficiency of sunlight shining in the south, The inlet 21 'is formed at the upper side of the inlet 21'.

This is for the purpose of reinforcing the generation power as well as the position where the power generating block 30 is seasonally moved for the sake of balanced consideration of the solar power generation and the wind power generation described above.

However, in general, the sunlight shines in the south direction and a lot of wind power is blown in the north direction. Accordingly, the section is further extended to the sloping solar photovoltaic panel 20 while enlarging it in the south direction, And enlarges the entire section of the block 30 for use.

The induction ribs 28 and 28 are provided at both edges of the solar battery module 20 so as to be inclined upwardly and downwardly in the power generation block 30 as a section of the induction groove 29 And to induce a wind force to be blown into the section of the induction groove 29 and to provide solar heating by sunlight shining on the induction groove 29 to provide more effective environmentally friendly energy and to reduce condensation of the condensed water .

Here, it is provided to be rotatable or moved by a sensor and a control device (not shown) on the work line 10 so as to reinforce the generation of sunlight while moving on the guide groove 29.

The present invention further provides a structural reinforcement for the rotating block 55 by providing the side wall 31 protruding from both sides of the rotating drum 44.

5 to 9, a description will be made of a preferred embodiment for the field construction of the rotating block 55 described above. As shown in FIGS. 5 to 9, the photovoltaic panel 20 , The solar cell plate 20 'on the south side and the induction plate 46 on the north side are protruded from the side edge portions of the upper side portion 32, i.e., the south side solar cell plate 20' 21 ') of the photovoltaic panel (20) so as to match the degree of inclination of the inverted trumpet type wind turbine, 31).

A rotation axis 42 connecting the sections between the side walls 31 protruding from both sides of the solar power generation plate 20, that is, both side sections of the solar power generation plate 20; And a rotation gap is formed in the side wall 31 at both ends of the rotary drum 44 rotated by the wind by the rotary shaft 42.

A plurality of rotary blades 43 protruding at an angle at a predetermined angle so as to rotate in a predetermined direction by a wind force blowing on the outer surface of the rotary drum 44; And an outer wall member 33 connected to the outer wall member 33. The outer wall member 33 has an inclined solar photovoltaic panel 20 ' ').

In order to reinforce the durability of the inlet 21 at one side and the other side formed at the edge of the outer wall body 33, the solar battery module 20 'and the guide plate 46 are provided on both sides in the upper and lower directions The fixing plate 49 which is supported downward at the edge of the outer wall body 33 and which is supported at an equal distance from the inlet 21 by an upper portion of each of the guide ribs 28 protruding from the edge of the edge, But it is installed in the inlet 21 'of one side and the other side to reinforce the durability in the long term.

7, the wind force flowing through the photovoltaic panel 20 ', which is installed on the south side of the wind power from the south in summer, The wind force that moves while rotating the rotary vane 43 provided at the position a in the moving direction discharges the air to the discharge portion a 'from the inlet 21' of the other side.

The wind force induced by the induction plate 46 tilted in the north direction flows into the inflow section b from the inflow port 21 'on the other side as shown in FIG. 8 because the wind force blows mainly northwest wind in winter And the wind force that is transmitted while rotating the rotary vane 43 is discharged from the one inlet 21 'to the outlet b'.

Here, the rotation axis 42, which is a substantial part of the rotation block 55, is installed at a position where the solar power generation plate 20 ' 46 to provide a wide area of the solar photovoltaic plate 20, thereby providing a harmony between the wind power generated from the north side and the photovoltaic power generated from the south side.

The outer surface of the outer wall member 33 forming the rotating block 55 is provided with a photovoltaic power generation unit so as to be at the maximum Of the present invention.

In addition, in order to further reinforce the inflow of wind power blown by the inverted truncated inlet 21 'provided on both sides of the outer wall body 33,
It is preferable to provide a fixing wall 49 'for providing an outer wall body 33' protruding to widen both side edges of the inlet 21 'of the one side and the other side thereof (FIG. 9).

The capacitors, motors, generators, control devices, and the like, which have not been described in the accompanying drawings, are provided to be installed and used in accordance with the construction conditions of the structure of the power generation block described above.

FIG. 1 is a perspective view of a main portion of a conventional condensed water collecting body; FIG.

Figure 2 is a partially cut away perspective view of Figure 1,

3 is a sectional view taken along the line A-A in Fig. 1 and a state of use

Fig. 4 is a perspective view of the main part of the present invention

5 is an enlarged cross-sectional view taken along the line B-B in Fig. 4

FIG. 6 is a cross-

Fig. 7 is a cross-sectional view of the state 1 in use for the recess in Fig. 5

Fig. 8 is a cross-sectional view of the recessed portion in the state of use 2 in Fig. 5

9 is a cross-sectional view of an embodiment of the essential part of the present invention

* Name of main code in the drawing *

10. Work line 11. Water surface 12. Steam jet pipe 14. Control device

15. Condensate float 16. Blast chute 17. Inflow section 18. Extrusion wall

19. Outlet 20. Solar power plate 21. Frame 22. Storage tank

23. Guide section 25. Annex 28. Guide ribs 29. Induction groove

30. Power generation block 31. Side wall 33. Spout 34. Rainwater induction stand

35. Transfer tube 37. Barrier 40. Low pressure section 44. Rotary drum

46. Guide plate 47. Moving section 49. Fixing wall 55. Rotating block

Claims

An induction part 23 protruding from the upper side of the water storage tank 22 to the lower side of the discharge port 19 and a low pressure section 40 separated from the upper end of the induction part 23 by a moving distance A movement section 47 and a condensation section 54 to be formed;

A water jetted from the moving interval (A) is discharged to the upper side of the water storage tank (22) through the water discharge port (19) And a condensing water condensing device provided in the water storage tank so as to flow into the guide part protruding from the water storage tank,

Side walls 31 formed by protrusions of a blocking film 37 fixed to both side ends of the solar cell plate 20,

A rotating shaft 42 passing between the side walls 31,

A rotary drum 44 provided on the rotary shaft 42,

A fixing wall 49 provided at both ends of the outer wall body 33 to support the upper side of the solar power generation plate 20 downward and an inlet 21 'formed at both sides of the fixed wall, A rotary drum 44 for reinforcing the rotational force by the wind force guided to the power generation plate 20 and rain water to the water storage tank 22 by the conveyance pipe 35 passing through the lower side of the solar power generation plate 20 ' Wherein the condenser is configured to store the condensed water.

The method according to claim 1,

A rainwater guide bar (34) is provided outside the bookkeepper (25)

And an induction plate (46) is projected at a lower side of the inlet port (21 ') on the other side to induce a wind force.