KR20130004868A

KR20130004868A - Water surface structure for collecting condensate

Info

Publication number: KR20130004868A
Application number: KR1020110066401A
Authority: KR
Inventors: 민승기
Original assignee: 민승기
Priority date: 2011-07-04
Filing date: 2011-07-04
Publication date: 2013-01-14

Abstract

PURPOSE: A floating structure for collecting condensate water is provided to effectively hold water, and to use the water for living by generating the condensate water by solar power generation. CONSTITUTION: A floating structure for collecting condensate water comprises a side wall, a rotary shaft, a rotary wing, an external wall, a fixed wall, and a guide(35). The side wall protrudes from both ends of a solar power generation plate(20), and is formed upwardly according to a gradient. The rotary shaft is connected to a gap between the side walls, and comprises a rotary drum. The rotary wing protrudes from the outer surface of the rotary drum, and is inclined. The external wall is installed outside of the rotary wing, and connects the side walls to each other. The external wall reinforces a rotary force by guide wind power form the solar power generation plate. The fixed wall supports an area from the external wall to the solar power generation plate, and reinforces structures of the other side inlet and one side inlet. The guide penetrates the lower side of the solar power generation plate, and formed to be inclined to guide rainwater to a water storage tank.

Description

Water surface structure for collecting condensate

The present invention relates to a water surface structure for collecting condensate for collecting condensate at the surface, such as a reservoir or sea surface, and more specifically, to provide water collection by collecting water vapor evaporated into the air by heating by solar power or the like at the surface. By not only supplying the catchment by solar power generation, solar heating, etc., but also by generating the wind power by the monsoon effectively, it is an invention for providing it with drinking water.

In general, moisture generated in the air from the sea level of rivers, reservoirs or coastal areas is released into the air, and it is said that it is rained due to the low pressure and the temperature difference, and then comes to the ground.

In general, the demand for energy required for heating in a heating apparatus for capturing condensate by solar power generation installed in a predetermined area such as a coastal area or a lake will be very large.

In addition, the construction of a photovoltaic complex or a wind farm requires a certain large area, but requires an effective device for natural heating or power generation.

Therefore, since each of the power generators are not compatible with each other, the need for a huge area for the power generation device required for this, etc., which leads to an excessive installation cost accordingly, it is required to examine the economics.

In addition, in the region where the amount of solar heat or wind power is high depending on the region, and the power generation facilities or heating facilities are insufficient, the amount of energy applied to the solar power plate may not be a small amount.

Rainwater is scattered in the air, while moving, in the state of cold and hot air contacting each other in the low pressure state, the water vapor grains mixed with each other are gradually turned on by combining with each other due to the formation of condensation force, and thus increase the weight accordingly. It will fall.

In addition, the above-described water quality such as rivers or lakes is often contaminated with the area, or various restrictions are used for use as living water.

In addition, the sea level of the coastal region is high in salinity, so it is difficult to use as drinking water, and the sea level of the coastal region is highly polluted, but at the same time distilled and condensed at the same time to provide pure drinking water.

Especially in areas where water is scarce or polluted, there is a high shortage of drinking water due to dry areas or local torrential rain, which is considered to be a high amount of sunlight.

In addition, since the sea level in coastal areas and the like much of the wind blows due to the temperature difference compared to the neighboring land, it is to provide power by wind power accordingly.

Therefore, in the present invention, to provide a structure for a photovoltaic plate provided with a large area described above as a practical device for promoting the collection of condensate.

In the present invention, to generate water vapor in the sea surface for use as environmentally friendly drinking water in the lake or sea surface, and to collect the water vapor as condensed water as a condensation to store the water in the reservoir.

Therefore, the present invention is to provide a rotation block for power generation by induction of the wind direction in accordance with the width of the photovoltaic panel to the wind power blowing to the area of the photovoltaic panel to reinforce possible power generation.

In addition, the present invention serves to heat the water to be supplied to the sea surface by using the solar heat reflected on the solar power plate, to provide for saving the energy for the heating required.

In addition, even if the surface fluctuates due to the lake or sea breeze, to provide a safe structure to easily adapt to the surface.

Water surface on both sides of the structure in which the control device 14 such as a capacitor, a freezer, a heater, etc. according to the work line 10 provided with the water storage tank 22 for water purification work on the water surface 11 is fixed to the frame 21. (11) to install a steam jet pipe 12 having a jet hole 33 formed below;

The bookkeeping 25 which fixes both ends at the outer circumference of the steam jet pipe 12 is provided with a solar power generating plate 20 protruding while being formed symmetrically with each other so that the cross section is curved upward. To form a photovoltaic plate 20 in the section of the guide groove (29) formed by protruding the induction ribs 28 along both ends of the photovoltaic plate 20; At the interval protruding while inclining at an upper end of each of the guide grooves 29, the outlet wall 19 is provided while protruding upward from the protruding wall 18,

In the lower section of the protruding wall 18, the inlet section 17 is provided, while the power generation plate block 30 formed with the curved solar power generation plate 20 is formed in a downward direction. 12 to form a jacket (40) of the low pressure section to form a blocking film (37) is covered by protruding to the lower side; Due to the discharge from the discharge port 19 of the protruding wall 18, the inside of the jacket 40 is maintained at a low pressure, and the discharge port 19 is provided below the discharge port 19 to provide condensate In the water surface structure for collecting condensate to reinforce the formation of water by condensation, the formed water flows to the induction part 23 to be stored in the storage tank 22 installed on the work line 10,

Protruding from both ends of the photovoltaic panel 20 on one side from the upper portion 22 to form a side wall 31 to the upper side in accordance with the inclination,

In the section between the side walls 31 are installed by connecting the rotation shaft 42 to each other, the rotation shaft 42 is provided with a rotation drum 44,

The outer surface of the rotary drum 44 protrudes inclined rotary blades 45 at a plurality of intervals, and the outer wall body 33 connecting the side walls 31 to each other to the outer side of the rotary blade 43 Fixed wall 49 for reinforcing the thermal power by the wind induced from the inclined photovoltaic panel 20 to support the section from the outer wall body 33 to the photovoltaic panel 20 downward. Each cross section reinforces the structure of the inlet trough 21 and the inlet 21 'of the other side of the inverse trumpet shape, and penetrates into the induction stand 35 from the lower side of the photovoltaic panel 20'. It is an invention configured to be inclined so as to guide rainwater to the reservoir tank 22.

In addition, the steam jet pipe 12 having the jet port 33 is formed into a flat jet stage 12 'having the jet port 33',

Rainwater induction rib 34 is provided on the outside of the bookkeeping 25,

The outer wall 33 has a wider outer wall 33 'with a wider side edge of the outer wall 33 and the fixed wall 49 to be provided with one inlet 21 of the inverse trumpet shape and another inlet 21' of the other side. And protruding wall 49 ',

The reservoir tank 22 is provided with an induction part 23 'to guide the condensed water by lowering the lower stage of the jet stage 16 for ejecting the low temperature steam,

The inclined guide plate 46 protrudes downward from the inlet 21 'of the other side, and is configured to provide wind power to the inlet 21' of the other side in the section of the outer wall 33. .

In the present invention, when water is insufficient due to pollution or drought in a lake or a coastal region, condensed water is generated by environmentally friendly solar power generation and the like, and effectively stores the water condensed as a collection, so as to provide useful living water. will be.

In addition, it is possible to reinforce the energy required to generate condensate by using the wind power generated by the wind or heating by solar heat, and it is an eco-friendly device that saves operating costs and provides water necessary for life.

Hereinafter, with reference to the drawings to describe the preferred embodiment of the present invention will be described in detail for the practice of the present invention.

1 is a perspective view of a main part of a conventionally provided condensate collecting device, Figure 2 is a perspective view partially cut away in Figure 1, Figure 3 is a cross-sectional view and the use state AA line in Figure 1, Figure 4 is a main portion of the present invention 5 is an enlarged sectional view taken along the line BB in FIG. 4, FIG. 6 is a bottom perspective view in FIG. 4, FIG. 7 is a sectional view of the use state 1 with respect to the recess in FIG. 5, and FIG. 8 is a recess in FIG. 9 is a cross-sectional view of an embodiment of the main part of the present invention.

Therefore, as described in detail with reference to the accompanying drawings, as shown in Figures 1 to 3, in the water surface 11, such as a large area of the lake or the sea level of the coastal area, a general merchant ship or work ship 10 for water purification work ) Is fixed to each other so that the frame 21 and the screw and the like are provided in a desirable structure for moving or working on the water surface to provide the firmness while providing buoyancy. It is produced.

In addition, it is to provide a control device 14 for controlling a capacitor, a refrigerator, and the like required for driving the merchant ship, the working ship 10 and the like.

In addition, the water vapor evaporated by sunlight or temperature from the water is in a state of low pressure and in contact with the cold air, the water vapor particles are condensed with each other and enlarged to larger and heavier water droplets to come to the ground or rain or snow.

Therefore, by using the working line 10 described above to collect the steam containing the steam of the object of the present invention to condensed water to provide a purified water, the working line 10 formed of a predetermined length and width On the inner bottom, the storage tank 22 for storage is provided with the length along the longitudinal direction, and at the center of the upper side thereof so as to face the circumference of both sides in accordance with the length of the storage tank 22 for storage. It is preferable to form an induction part 23 which protrudes while being inclined upward, that is, a space between the spaced portions of the bottom surface of the solar panel 20 to be described later is formed as an inlet section of water.

In addition, as a main part of the present invention, in order to facilitate the generation and condensation of the above-described water vapor, the ejection opening 33 is formed so that high temperature water vapor is generated while both sections in the longitudinal direction of the work line 10 are submerged in the water surface 11. A plurality of ejection pipes 12 which are each continuously drilled in accordance with the interval of the crystal is installed so as to be fixed by a separate non-illustrated fixing plate at both ends, but fixed to the blocking film 37 to be described later. .

Here, the description for ejecting the heating air and the like for the blowoff pipe 12 described above is not shown by the connecting device and the like not shown by the control device 14 composed of a storage battery, a heater and the like installed on the work line 10. It is preferable to configure it to be supplied and controlled.

In addition, both sides of the swelling 25 in accordance with both sides of the jacket 40 is formed in the longitudinal direction of the working line 10 to provide a buoyancy in the water surface 11 to the outer surface of the jet pipe 12 to seal with the water surface. It is preferable to provide by fixing to the end.

In addition, by providing a space between the bookkeeping 25 is installed at both sides in a low pressure state to provide an environmentally friendly power for generating condensate,

It is preferable to install and provide each barrier film 37 in the front and rear sections so as to be locked to a predetermined depth in the water surface 11 so as to block the outside at the edges of the front and rear sides of the work line 10. Do.

The blocking film 37 installed here is fixed to the inclined end portion of the inclined photovoltaic panel 20 which will be described later. By forming the protrusions, the interval between each of the blocking film 37 is provided as a jacket 40, by the discharge force from the discharge port 19 formed in the protrusion wall 18 to be described later The inside of the jacket 40 provides a reduced pressure.

In this case, in order to reinforce the discharge force in the discharge port 19, the cross section of the discharge port 19 formed in the protrusion wall 18 is provided in a curved structure so that the upper side is narrowed, and the protrusion wall 18 By providing an inlet section (17) in the lower section of the), the inner section of the jacket 40 to be reinforced in a reduced pressure state by the stress discharged to the outlet port 19 while the air blowing from the air flows in (19) .

In addition, the protruding wall 18 protruded upwardly to be provided with a discharge port 19 formed at a predetermined distance while being blocked by the power generation plate block 30 which is inclined so that the central portion is convex between the boogies 25 on both sides. In order to discharge to the center, the photovoltaic power generation plate 20 having a cross section inclined to both edges is provided between the spaced apart, by installing a plurality of dischargers 13 at predetermined intervals along the longitudinal direction, the discharger The inner section of the jacket 40 is maintained at a reduced pressure by the discharge force by the operation of (13) to promote the generation of steam by the steam jet pipe 12 and to reinforce condensate formation.

Here, the inclined photovoltaic panel 20 is provided on the outer surface of the solar power generator 50 is supplemented to solve the power used in the work line 10 by the generation of sunlight.

In addition, while condensing the condensate while discharging around the protruding wall 18 protruding upwards to be provided with a discharge port 19 formed at a predetermined distance while being blocked by the power generation plate block 30 which is inclined so that the central part is convex. At the lower portion of the outlet 19 so as to condense the condensate in the base 15 is adjusted to a predetermined interval.

In addition, the condensate condensation stand 15 is formed in accordance with the longitudinal direction of the jacket 40, the water ejection zone 16 is formed, pipe the refrigeration air cooled in the refrigeration unit provided in the control device 14 When provided with a connection to the discharge (not shown), the water vapor generated by the heating in the water contact with each other by condensation with each other to promote the formation of condensed water on the surface of the condensate condensate 14, the heavy water drops By flowing downwards, it will fall like rainwater.

Therefore, by providing the induction portion 23 protruding upward in the direction inclined outward from both edges of the water storage tank 22, the condensate generated is configured to be led to the water storage tank 22, which is a construction site According to the preferred size and length of the device is provided to be applied,

This ejects cold air from the condensate condensing zone 15 fixed to the lower inlet of the outlet 19 to provide condensed water with moist saturated moisture.

Therefore, with respect to the jacket 40, which is an inner space of the photovoltaic plate 20 fixed on the boogie 25 floating on the water surface 11 at both edges described above,

In order to reinforce the inner section of the jacket 40 to a low-pressure state by the operation of the ejector 13, forming a blocking film 37 coming down from both end surfaces of the photovoltaic plate 20, the water surface The invention is provided by lowering to the lower portion of the steam jet pipe 12 of both sides locked in the (11), the inner space of the photovoltaic panel 20 is kept closed by the water surface 11 to maintain a low pressure state Configure the jacket 40 to be.

In addition, by installing the photovoltaic generator 50 on the outer surface of the photovoltaic power generation plate 20 to perform power generation by shining sunlight, by providing the necessary power during the use of the condensate collector, practicality and economics It is an invention that reinforces.

In addition, as a description for a preferred embodiment of a large-area photovoltaic panel 20 is configured to have a jacket 40, which is the main part of the present invention, as shown in the accompanying drawings, when the rain Each of the guide ribs 28 is formed so that rain water is guided downward from both edges of the width, which is the entire interval of the photovoltaic panel 20, to move the rain water to the position of the bookkeeping 25 installed at both edges. As a whole section of the photovoltaic plate 20 is provided as the guide groove 29 to form a rain water is guided.

In addition, the edge of the bookkeeping 25 so that the rain water flowing in the section of the guide groove 29 is provided with the guide rib 28 flows to the inclined direction of the inclined direction of the photovoltaic panel 20 inclined The blocking wall 55 is installed along the section of the work line 10 while connecting the transfer pipe 45 to the solar power plate 20 so that rainwater moves to the water storage tank 22. Provided by connecting to the drainage tank 22 installed in the drainage.

Here, the storage tank 22 and the transfer pipe 45 connected to the edge of the photovoltaic panel 20 are formed at an angle to each other, such as between the sections of the solar panel 20 of the large area. It is preferable to provide a plurality in intervals.

Therefore, the structure is provided while the storage tank 22 installed on the work line 10 for work on the water surface 11 and the control device 14 such as a capacitor, a freezer, a heater, and the like are fixed to the frame 21 and the like. In the same work line 10,

A water vapor ejection pipe 12 having a spout 33 is provided below the water surface 11 around both sides of the work line 10 to evaporate water on the water surface 11 by heated steam or the like. Both edges of the swelling 25 which floats on the surface of the outer circumference of the steam jet pipe 12 in order to reinforce the stability of the surface of the water 11 and the tightness of the jacket 40. It is provided with a photovoltaic plate 20 protruding in an arc-shaped cross section while being fixed to the entire section of the; In the central protrusion wall 18, a discharge port 19 is formed as a protrusion, and the water vapor evaporated in the jacket 40 generates water by condensed water. It promotes the generation of water vapor from the water surface by the discharge to the outside,

The invention is to form a jacket 40, which is a low-pressure section formed by the blocking film 37 is fixed to both sides of the photovoltaic panel 20 while being fixed to the lower side, accordingly the protruding wall 18 Due to the discharge from the outlet 19 of the reinforcement to maintain the inside of the jacket 40 at a low pressure, to promote the condensation on the high water content of the water vapor, the lower side of the outlet 19 Furnace is provided with a jet stage 16 for ejecting cooled low-temperature steam or air to reinforce the formation of water by condensation of condensate,

The formed water is provided to be stored in the storage tank 22 installed in the work line 10 by flowing to the guide unit 23.

The photovoltaic panel 20, which is the main part of the present invention, has a structure in which the edge is inclined obliquely to both edges, that is, the convex portion of the central portion is inclined downward, and the coastal area and the sea surface are affected by temperature. Wind or rain often falls due to differences in nearby land temperatures.

Therefore, when the rain slope falling on the outer surface of the inclined photovoltaic plate 20 is described in detail based on the accompanying drawings as an invention for providing to store in the storage tank 22,

Therefore, the rainwater falling on the solar panel 20 having a large area, which is configured to include the jacket 40 which is the main part of the present invention, is moved to the position of the bookkeeping 25 installed at both edges. The rainwater is guided by protruding the guide ribs 28 to the edges so that rainwater is guided in the upper and lower directions at the entire width of the power generation plate 20.

In addition, in the width direction of the photovoltaic panel 20, an induction stand 35 is provided to the bookkeeping 25 fixed at the edge of the photovoltaic panel 20 so as to flow along an outer surface thereof. In addition, a plurality of transfer pipes 45 are provided to connect through the sections between the guide ribs 28 so that rainwater is transferred to the water storage tank 22.

Here, the storage tank 22 and the transfer pipe 45 connected to the edge of the photovoltaic plate 20 is provided to be formed in a plurality of obliquely at equal intervals.

Therefore, the present invention is installed in marine structures such as ships in lakes, coastal areas, etc. as well as rivers, and provides water to collect a high proportion of water vapor, thereby contaminating water quality unsuitable for drinking water in rivers or lakes. The invention provides to solve the high salinity of the sea water.

Therefore, the rainwater falling on the solar panel 20 having a large area, which is configured to include the jacket 40 which is the main part of the present invention, is moved to the position of the bookkeeping 25 installed at both edges. It is formed to be inclined so that rainwater is guided in the upper and lower directions at the width of the power generation plate 20.

(Example 1)

In the present invention, between the induction ribs 28 on both sides formed at the ends of both sides of the longitudinal direction inclined upward and downward from the photovoltaic plate 20 installed on the upper side in the water surface structure for collecting the condensate described above, In the induction groove 29, which is a section of the invention, while further reinforcing photovoltaic power generation for the photovoltaic plate 20, to provide for reinforcing power generation by the wind, the solar light emitted from the south side In order to reinforce the power of the power generation, the solar panel 20 inclined toward both sides, that is, inclined toward the south side, protrudes from the photovoltaic panel 20 on the south side to fit the width of the jacket 40. Note, but the inclined guide plate 46 is provided to the north side.

In addition, the outer surface of the guide plate 46 protrudes the guide ribs 28 on both sides in the vertical direction in the longitudinal direction, and at the same time the area of the solar light collecting plate 20 which is a section between the guide ribs 28. The guide groove 29 is provided.

In addition, the induction plate 46 is provided at the upper end of the south side solar light collecting plate 20 in the bookkeeping 25 formed in the north direction, for the induction plate 46 and the solar light collecting plate 20 The interval is preferably provided by forming a rotating structure of the rotary block 55 described later in the specification of the present invention, while having a discharge section 19 'to discharge from the inner section having a jacket 40. .

In addition, the condensate condensation stand 15 and the lower side thereof is provided with a water ejection stand 16 is formed to eject the cooled air while being installed in the lower section of the discharge section 19 'in the reservoir tank 22 described above. While having an induction part 23 'extending one side from the induction part 23 provided on the upper side of the water storage tank 22 to the extension, the condensate water flowing down from the condensate condensate stand 15 to condensation is stored in the water storage tank 22. It is preferable to form to provide a).

In addition, while providing the maximum photovoltaic power generation in the power generation block 30, which is the main part of the present invention, while reinforcing the power output of the water vapor heated in the water vapor ejection pipe 12 by the solar heating accordingly, wind power generation As a device for reinforcing, as shown in Figs. 4 to 9, the steam jet pipe 12, in which the jet port 33 is formed, is also turned into a flat jet stage 12 'in which the jet port 33' is formed. By forming and providing, to diversify the structure for the steam jet pipe 12 in which the jet port 33 is formed, and to provide a jet zone 12 'having a larger cross-sectional area, to reinforce the effect on the present invention. to be.

As described above, the photovoltaic power generation block 30 provided in the present invention is based on the inclined structure of the south side photovoltaic plate 20 formed by the expansion of a section to be inclined to both sides. The upper portion 22 is formed to be inclined toward the north side, which is one side for providing, to provide a protrusion.

This will be said to reinforce the power generation as well as the shifting position of seasonal solar light for the power generation block 30 for balanced consideration for the photovoltaic power generation and wind power generation described above.

However, in general, since the solar light is emitted from the south direction and the wind blows a lot in the north direction, the solar power is further extended to the inclined photovoltaic panel 20 while expanding in the south direction. It expands to the whole section of the dragon block 30.

In addition, by forming a section between the guide ribs 28 of both edges while protruding in the longitudinal direction inclined to be curved up and down in the width of the power generating block 30 as a section of the guide groove 29, blowing In order to induce the coming wind to cycle, and provided to fit the entire section of the induction ribs 28 protruding to both edges of the induction groove 29 is formed here, during the photovoltaic power generation, the induction By providing solar heating with sunlight shining in the groove 29, the invention is to provide more effective environmentally friendly energy and to reinforce the condensation of condensate.

Wherein the sunlight shining on the guide groove 29 is to reinforce the power of the sun shining on the guide groove 29 due to the movement of the sun shining in accordance with the rotation of the earth, for the work line 10 In order to move the direction and position is provided to rotate or move with a not shown order and control device.

In addition, the north side section described above is provided by installing the inclined side wall 31 to protrude in the entire section of the upper portion 32, the wind speed is guided to the rotation block 55 described above.

Therefore, when describing in detail the description of a preferred embodiment for the field construction for the configuration of the rotation block 55 described above, as shown in Figures 5 to 9 attached, the photovoltaic panel 20 In the upper portion 32 of the), while the south photovoltaic panel 20 and the north side guide plate 46 is protruded from the separation intervals of both edges are formed, the inlet 21 of one side and the other side in the south and north directions. And a side wall 31 protruding upward from both edges of the photovoltaic plate 20 in accordance with the inclination of the inverse trumpet shape to facilitate the inflow and discharge of wind power in accordance with (21 '),

The rotating shafts 42 are connected to each other between the two side sections of the solar power generating plate 20, which are provided in the same manner as the sections between the side walls 31 protruding from both sides, respectively, and the whole of the rotating shafts 42 is provided. It is provided with a rotation drum 44 to match the width section of the photovoltaic panel 20, such as a section, the rotation interval between the side walls 31 of the ends of both sides of the rotation shaft 42 to rotate by the movement of wind power To form.

In addition, the outer surface of the rotating drum 44 protrudes a plurality of rotary blades 43 inclined at a predetermined angle to be rotated in a predetermined direction by the inclined wind power at equal intervals, the outside of the rotary blade 43 The outer wall 33 is provided to connect the circumference between the side walls 31 to each other, wherein the cross-section of the outer wall 33 is inclined toward the south side and the north side described above, respectively, the solar panel 20 and the induction plate ( It is provided with an inlet 21 on one side and an inlet 21 'on the other side of the inverse trumpet shape to face 46).

In addition, to reinforce the durability of the gap between the inlet 21 of one side and the inlet 21 of the other side formed on the edge of the outer wall 33, the photovoltaic panel 20 and the guide plate 46 In the upper portion of each of the guide ribs 28 protruding from the end of the two side edges in the upper and lower directions, respectively, the fixing plate 49 is provided to maintain the same interval so as to support downward from the edge of the outer wall (33) By fixing, the installation of the inlet 21 on one side and the inlet 21 'on the other side of the inverse trumpet structure reinforces durability in the long term.

Referring to the operating state for the rotation block 55 described above, as shown by the solid line shown in Figure 7, the wind blowing from the south side in the summer passing through the solar power generation plate 20 is installed to the south side inflow Wind moving while rotating the rotary blade 43 is provided to rotate at the position (a) in the direction of the wind to be moved is discharged to the discharge portion (a ') from the inlet (21') of the other side.

In addition, since the wind blowing in the winter mainly blows the northwest wind, the wind induced by the induction plate 46 inclined in the north direction, as shown in Figure 8, from the inlet (21 ') of the other side to the inlet (b) Wind is moved while being rotated while rotating the rotary blade 43 described above is an invention configured to discharge from the inlet 21 of one side to the discharge portion (b ').

Here, the installation position of the rotating shaft 42, which is a main portion of the rotating block 55 described above, the north side induction plate 46 in order to provide the maximum solar power generation in the photovoltaic plate 20 in the south direction. It is provided to be inclined to the position, which provides a wider range for the photovoltaic panel 20, to provide a combination of wind power from the north side and photovoltaic power from the south side.

In addition, a photovoltaic generator 50 is provided on an outer surface of the photovoltaic plate 20, and a photovoltaic generator is also provided on an outer surface of the outer wall body 33 that forms the rotation block 55 described above. 50) is an invention configured to reinforce the maximum power generation.

In addition, the cross-sections provided at both sides of the outer wall body 33 may further enhance the inflow of the wind blowing from the inlet trumpet inlets 21 and 21 ′, respectively, of the outer wall body 33 and the fixed wall 49. The outer wall body 33 'which protrudes further from an end part is provided, and the fixed wall 49' is provided in further protrusion according to it (FIG. 9).

Capacitors, motors, generators, control devices, and the like, which are not described in the accompanying drawings, are provided to be installed and used according to the structure of the power generation block described above and construction conditions according thereto.

1 is a perspective view of main parts of a conventionally provided condensate collector;

2 is a perspective view partially cut away in FIG.

Figure 3 is a cross-sectional view taken along the line A-A in Figure 1

Figure 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.

Figure 6 is a bottom perspective view in Figure 4

FIG. 7 is a cross-sectional view of the use state 1 for the main part in FIG. 5; FIG.

Fig. 8 is a sectional view of the use state 2 for the main part in Fig. 5;

9 is a cross-sectional view of an embodiment of the main portion of the present invention.

* Names of major symbols in drawings *

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

15. Condensate Condensate 16. Water Jet 17. Inlet 18. Protrusion Wall

19. Outlet 20. PV Panel 21. Frame 22. Storage Tank

23. Guidance section 25. Supplementary notes 28. Guidance ribs 29. Guidance grooves

30. Power generating blocks 31. Sidewalls 33. Outlets 35. Induction stands

35. Moving section 37. Barrier 40. Jacket 44. Rotating drum

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

Claims

On the outer surface of the rotating drum 44 protrudes the rotating blade 45 inclined at a plurality of intervals,

By installing an outer wall body 33 connecting the side walls 31 to each other to the outer portion of the rotary blade 43 to reinforce the power of the power by the wind induced from the inclined photovoltaic panel 20,

A fixed wall 49 for supporting a section from the outer wall body 33 to the photovoltaic panel 20 downwards is constructed so that each cross section has one inlet 21 having an inverse trumpet shape and another inlet 21 '. Strengthen the structure of),

Sleeping structure for condensate collection is configured to be inclined so as to guide the rainwater to the reservoir tank 22 by penetrating through the guide 35 in the lower side of the photovoltaic panel (20 ').

The method of claim 1,

In addition, the steam jet pipe 12 having the jet port 33 is formed into a flat jet stage 12 'having a jet port 33',

Rainwater induction rib 34 is provided on the outside of the bookkeeping 25,

The condensate collection is configured to protrude the inclined guide plate 46 to the lower side of the inlet 21 'of the other side so that the wind is guided to the inlet 21' of the other side in the section of the outer wall 33. Sleep Structures for Men.