KR20160086240A - Renewable power generation equipment for coastal area - Google Patents

Abstract

According to the present invention, a new renewable energy generation device for a coastal area comprises: a frame (46) coupled in a rectangular; a rotating means coupled to an upper end of a support pillar (44); and a solar cell power generation plate (50) assembled with an end of a support load (47) which is assembled in the rotating means (41). The present invention relates to a new renewable generation complex in order to increase a profit by performing new renewable generation in a coastal area adjacent to a surface of sea water covering the Korea peninsula.

Description

Renewable Power Generation for Coastal Areas {Omitted}

The present invention relates to a new and renewable power generation plant for coastal area, and more particularly, to a new and renewable power generation plant for providing income increase by performing renewable power generation in a coastal area adjacent to the sea surface surrounding the Korean Peninsula.

Generally, in the offshore region of the peninsula, new and renewable energy generation complexes are installed. However, in particular, the generation of solar power generation devices is vulnerable to salt contained in sea breezes, It is difficult to use.

Also, in the regionally weak areas, the direction of wind power is alternately blown by the change of temperature in sea and land area at day and night interval.

In addition, the climate of the region such as the Middle East is constantly experiencing salt damage to the photovoltaic panel in the sunlight of sunny weather.

Most coastal areas are seasonally temperate, windy, and coastal areas adjacent to sea level are not narrow.

 It is infinite sunlight on the sea surface in the Middle East and Africa region, and it reinforces practicality of the development of new and renewable energy, especially to utilize it as the supply of water.

  However, since the power plant of the above-described solar power generation plate is weak in durability against salt or salt water contained in the sea breeze, there is a problem in installation on a wide sea surface.

In addition, solar panels installed at sea level are vulnerable to salmon and salinity such as yellow sand contained in sea breeze. In contrast, the preparation for seaweed dust is solved by the applicant's registration number 10-1406894 . However, although the rotating body in which the structure of the rotating device for wind power generation is formed as a vertical rotating drum type has been disclosed in the applicant's specification 10-2010-0043991, in the invention, the rotating device is complementary to each other in the power generating block It is an invention that is provided to evolve.

In addition, according to the present invention, the present invention provides a new renewable power generation complex at sea level in accordance with 10-2015-0000324 submitted by the applicant. However, the wind power at the intersection according to the coastal area and day and night can effectively reinforce renewable energy It is for a cycle.

  Also, if the rotating body is rotated by the same wind force, a difference is formed so that the number of revolutions (rpm) is small according to the diameter. This is because the length of the circumference of the rotating body having a large diameter is long, and if the rotating body is rotated by the same wind force, the rotating force of the rotating body having a small diameter is rapidly rotated.

  In addition, a tool for tightening screws, such as bolts, is a structure with a built-in chucking gear, which is tightened by adjustment of the engagement structure according to the operator's adjustment.

In order to facilitate the generation and transfer of electricity in the above-described coastal area, new and renewable power generation is carried out and the salt contained in the sea breeze is removed as filtration.

In addition, it is to provide efficient generation of solar heat by effectively sequencing the solar heat applied by the solar power generation plate.

  Also, it is to reinforce the economic performance of the coastal area in the coastal area and to reinforce the renewable power by accelerating the rotating force by the wind force which crosses each other due to the difference of sea and land temperature changes between day and night.

  In addition, it is intended to solve the deterioration of durability practically due to the corrosion caused by sea breeze or salinity in the photovoltaic panel installed on the sea surface, and to provide the living water by condensation.

 A frame 46 which is connected in a rectangular shape at an intermediate portion of a plurality of supporting columns 44 protruding from a service vessel 52 or a coastal zone anchored on the sea surface 35; And a photovoltaic power generation plate (50) assembled to an end portion of a support rod (47) assembled by the rotation means (41)

 A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the carver 51 having the heating space 57 in the solar power generation plate 50 and the discharge pipe 54 are provided with a pressurizing pump 63 A jet pipe 49 for jetting high pressure air supplied from the inside of the evaporator section 69 through the jacket 64,

The jetting pipe 49 is provided with a jetting nozzle 79 having a jetting outlet 76 provided in the direction of the upper sea surface 35 and a filtering unit 56 formed above the evaporating unit 69, And a filtration device 67 for supplying the filtered air to the heating space 57 by an inflow pipe 54 connected to the upper side of the filtering part 56.

    The filtration unit 56 includes a filtration unit 58 having an inclined lower surface c and a reservoir 55 connected to the conveyance path 61 to store the condensed water filtered by the filtration unit 58, ,

A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, The connecting pipe 45 is connected to the filtering part 56a of the second filtering device 67a in the evaporation section 48 of the filtering device 67,

A rotary drum 59 coupled to the support column 44 to be rotatably supported by the supporting column 44 coupled to the upper end of the auxiliary column 43 of the solar power generating complex 60; A rotating block 59 having a fixed flange 39 at its lower end and a rotating block 70 having an inclined roller 68 formed on the outer surface of the rotating drum 59, And a wind power generating device 66 provided with a curved wind induction wall 72 between the induction wall 62 and the induction wall 62. The induction wall 62 is fixed by an auxiliary column 43 so as to surround the induction wall 62, .

   A second induction wall body 62a which is fixed to an auxiliary column 43 protruding to the lower side of the wind power generator 66 and a second induction wall body 62a which is fixed to the inner support wall 62a of the second induction wall body 62a The second rotary block 70a coupled to the second rotary drum 70 and the second rotary block 70a includes a second rotary drum 59a having a reduced diameter and a second rotary block 70a expanded inwardly, The inclined sheet provided on the outer surface of the second induction wall body 59 is connected to the second rotatable block 70a on which the second rotor blade 68a is formed, And a rotating body 40 assembled with the support pillars 44 between the rotating block 59 and the second rotating block 59a is provided with the wind force of the second rotating block 70a, The second wind power generator (66a) is provided with a rotation link (42) provided with a catching chuck (38).

  A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a and a third induction wall body 62b fixed to the inner side of the third induction wall body 62b In the third rotary drum 59b coupled to the column 44, the third induction wall body 62b is expanded inwardly and the third rotary drum 59b having a reduced diameter is provided, The inner wall of the induction wall body 62b is provided with a rotating force of the third rotating drum 59b to reinforce the rotating force of the third rotating drum 59b and the main supporting column 44 between the third rotating drum 59b and the third rotating drum 59b, And a second rotating link 42a having a second holding chuck 38a attached to the second rotating body 40a assembled to the second rotating body 40a.

In the present invention, the new and renewable power generation complex is installed in the coastal area, and the solar power generation plate is durability and soft cooling is applied to the power generation by filtration against the sea breeze.

It is also aimed at creating jobs by reinforcing the rotational force against wind power and providing economic efficiency for renewable energy generation.

    It is an invention to provide much more practicality and economical efficiency compared with conventional wind power or solar power generation plant of fixed type on the sea.

FIG. 1 is a view showing the state of use
2 is a partial perspective view of a main part of the present invention;
Figure 3 is a cross-sectional view of one embodiment of the use state in Figure 2;
Figure 4 is a partially cutaway perspective view of the condition of use for the recess in Figure 2;
Figure 5 is a partially cut-away view of the recess in Figure 4
6 is a side sectional view of another embodiment of the recess of the present invention
FIG. 7 is a partially enlarged use state diagram for a recess in FIG. 6
Fig. 8 is a partially enlarged use state diagram for the recess in Fig. 6
9 is a sectional view taken along line AA in Fig. 7
10 is a sectional view taken along the line BB in Fig. 7
Figure 11 is a cross-sectional view of one embodiment of the recess in Figure 7;

The present invention relates to a new and renewable power generation plant for coastal area, and more particularly, to a new and renewable power generation plant for providing income increase by performing renewable power generation in a coastal area adjacent to the sea surface surrounding the Korean Peninsula.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a use state diagram of a conventional power generation apparatus,

Fig. 2 is a partial perspective view of the main part of the present invention,

Figure 3 is a cross-sectional view of one embodiment of the use state in Figure 2,

Fig. 4 is a partially cutaway perspective view of the use of the recess in Fig. 2,

Figure 5 is a partially cut-away view of the recess in Figure 4;

6 is a side sectional view of another embodiment of the recess of the present invention

FIG. 7 is a partial enlarged usage view of the recess in FIG. 6,

FIG. 8 is another partially enlarged use state diagram of the recess in FIG. 6,

9 is a sectional view taken along the line A-A in Fig. 7,

10 is a sectional view taken along the line B-B in Fig. 7,

11 is a cross-sectional view of one embodiment of the recess in FIG.

 Because the installation of photovoltaic power generation and wind power generation equipment is mostly required for a large area and space, the cost of land and inland water is high due to the development of the industrial society, which leads to a deterioration of economic efficiency to construct a new and renewable power generation facility.

It is installed on the coastal area of the blast or adjacent to the sea and the coast, and provides economic development by utilizing the convection phenomenon due to the difference in temperature between sea and land.

In addition, vulnerability to sea breeze or salt would require more expense and effort to become a practical idea of exposure. The present invention provides an apparatus for solving the above problems, and more particularly,

  A frame 46 connected in a rectangular shape at an intermediate portion of a plurality of support columns 44 protruding from a service vessel 52 or a coastal area anchored on a large area sea surface 35; And a photovoltaic power generation plate 50 which is assembled to the end of the support rod 47 assembled by the rotation means 41 is used as a renewable power generation device will be.

As described above, in particular, a power plant for a photovoltaic panel is exposed to the sea breeze or vulnerable to brine, and provides a solution to the problem. The photovoltaic panel 50 In order to provide the air filtered by the slow cooling while isolating the dust or the saline which pollute the power generating element of the generator,

 A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the cover 51 provided with the heating space 57 in the solar power generation plate 50 and a pressurizing pump 63 And a jetting tube 49 for jetting the high pressure air supplied from the inside of the evaporation section 69 covering the inside of the evaporation section 69 with the jacket 64.

  The spray nozzle 49 is provided with a spray nozzle 79 having a seawater discharge port 76 provided in the direction of the sea surface 35 on the upper side. As the heated pressurized air is sprayed into the evaporation section, Dilute salmon or salmon.

 A filtering unit 56 formed on the upper side of the evaporation section 69 and a filtration device 67 for supplying filtered air to the heating space 57 by an inflow pipe 54 connected to the upper side of the filtering unit 56 The solar cell is provided with a photovoltaic power generation unit (60).

By connecting the solar power generating complex 60 installed here and the filtration device 67 installed on the buoyancy device (not shown) on the sea surface 35 with a high pressure hose (not shown in the figure) of the coastal area, 67 to supply the filtered air to the inflow pipe 54 of the solar power generation plate 50.

  The filtering unit 56 is preferably made of a flexible material such as a foam or a fibrous material having a small number of fine openings. The filtering unit 56 is also provided with a water vapor And the water is condensed to form water, and the water for storing the water is stored, and a plurality of photovoltaic panels 50 are installed as required in the structure of the present invention FIG. 2 is a perspective view of an air filtering apparatus according to a first embodiment of the present invention; FIG.

    A filtration unit 58 having an inclined bottom surface c of the filtering unit 56 and a water reservoir 55 connected to the conveying path 61 so as to store the condensed water filtered by the filtration unit 58,

A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, And the connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 48 of the filtration unit 67. [

The description of the wind power generating apparatus which is generated by the wind power blowing from the air includes a supporting column 44 and an auxiliary column 43 passing through the frame 46 so as to be fixedly coupled to each other while being fixedly projected to a coastal area, And a support rod 47 protruding to be assembled to the rotation means 41. The support member 47 is mounted on the rear surface of the solar battery plate 50, The power generation by the solar heat generated by the solar power generation plate 50 and the cooling of the heated power generation plate by the filtered cooling wind are performed and the pressure pump 63 in the submerged state of the sea surface 35 in the submerged state on the sea surface, the water vapor is supplied to the sea surface 35 in the water jetting process.

  A jetting device 72 having an ejection pipe 49 for ejecting the jetted high pressure air in the water of the sea surface 35 of the evaporation section 69 formed by a jacket 64 wrapping the jetted high pressure air at a predetermined size is provided I will.

A detailed description of the jetting device 72 will be given below with reference to an evaporation section 69 having an upper side of an inner space enclosing the jetting device 72 with the jacket 64 formed at the same position (height) as the sea level 33 A filtering section 56 formed at a predetermined space above the evaporation section 69 and an inlet pipe 54 connected to a lower end of the cover 51 at an upper side of the filtering section 56. [ So that the filtered air is pressurized by the air.

  The lower portion of the filtering unit 56 is connected to the lower portion of the filtering unit 56. The lower portion of the filtering unit 56 serves as a filtration unit 58, And the water is stored in the water reservoir 55 in the conveying path 61. In addition,

   Temperature air heated in the heating space 57 of the cover 51 covering the photovoltaic power generation plate 50 is injected into the water of the sea surface by the feed force of the pressurizing pump 63, And the slowly evaporated air is cooled by the filtration process of the filtration device 67 so that water vapor is condensed and supplied to the heating space 57 of the cover 51, Is an invention provided only in (60).

The section from the coastal area where the photovoltaic power generation complex 60 is installed to the sea surface 33 to which the filtration unit 67 is connected is connected to the discharge pipe 53 connected to the upper and lower sides of the cover 51, And an inlet pipe 54 as an extension.

 The solar cell module according to the present invention comprises a solar cell module including a solar cell module and a solar cell module, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a and 67a are connected to the outlet pipe 53 and the inflow pipe 54, ) Are installed on the sea surface, and the detailed description of each of the filtration devices 67 and 67a will be omitted.

A second filtration device 67a connected to one side of the filtration device 67 provided on the sea surface 35 and a discharge pipe 53 for connecting the filtration device 67 and the second filtration device 67a, And the connection pipe 45 is connected to the filtering section 56a of the second filtration device 67a at an evaporation section 48 of the filtration device 67, The filtration device 67 and the second filtration device 67a are circulated to the heating space 57 of the cover 51 provided on the plurality of solar power generation plates 50 give.

   In addition, an explanation for reinforcing the wind power generator in the photovoltaic power generation complex 60 described above by providing the generation of the wind power blown from the air, as shown in FIGS. 7 to 11, The photovoltaic power generation unit 60 is installed at the upper side of the frame 46 coupled to fix the auxiliary column 44 and the auxiliary column 43 to each other.

 A detailed explanation for installing the wind power generator 66 to be described later on the lower side of the frame 46 in the support column 44 and the auxiliary column 43 is as follows: The device 66 is inserted to rotate the wind force blowing in the air induction to provide power generation.

  A rotating drum 59 coupled to the supporting column 44 by a rotating bearing 59 and a fixed flange 39 and a fixing flange 39 fixed to upper and lower ends of the rotary drum 59, A rotating block 65 provided with a flange 39 and a rotating block 67 having a rotating blade 68 on the outer surface of the rotating block 65; Thereby inducing wind force to the induction wall body 62 fixed to the auxiliary column 45 to form the spacing 74.

  An inverted truncated induction wall body 62 which is fixed to the auxiliary column 43 while covering the outer peripheral surface of the rotary drum 59 while forming a rotation spacing 74 therebetween, A wind power generator 66 having a wind guide wall 72 is formed to reinforce the rotational force of the rotating block 70. [

 The structure for reinforcing the rotational force of the rotary block 70 in the wind power generator 66 which is a main part of the present invention is a structure of the rotary block 70 provided inside compared with the diameter of the wind induction wall 72 And the outer diameter is reduced (less), thereby providing a reinforcement of the rotational force as compared with the induced wind force.

In the structure of the wind power generator 66 described above, a quasi-rotating block 70a is formed by reducing the outer diameter of the rotating block 70 coupled to rotate about the supporting column 44, A second induction wall body 62a fixed to the auxiliary column 43 outside the induction wall 62a and an inner diameter of the curved wind induction wall 72a between the induction wall 62a, And a second induction wall body 62a for increasing the inner diameter in accordance with the reduced section of the guide wall 62a.

  The inclined sheet provided on the outer surface of the second rotary drum 59 is engaged with the second rotary block 70a having the second rotor blade 68a formed therein, And the wind force reinforces the rotational force of the second rotating block 70a by having the second wind force inducing wall 72a.

  A spacing 74 for rotation of the rotating block 70a is provided between the rotating block 70 and the guide wall 62. [

   The second induction wall body 62a fixed to the auxiliary column 43 protruding to the lower side of the wind power generator 66 and the second induction wall body 62a fixed to the inner support wall 62a of the second induction wall body 62a The second rotating block 70a coupled to the second induction wall body 62a includes a second rotary drum 59a having the induction wall 62 expanded inwardly and reduced in diameter, Is provided to reinforce the rotational force of the second rotating block 70a.

In order to accelerate the rotational force of the rotating block 70 to a higher level due to the reinforcement of the wind force between the rotating block 70 and the second rotating block 70a whose diameter is reduced, A rotating body 40 assembled to a supporting column 44 between the first rotating drum 59 and the second rotating drum 59a and a rotating body 40 coupled with the rotating chuck 38 and the rotating link 42 2 wind turbine generator 66a.

That is, the present invention is directed to induce a wind force to be blown in the air so as to be additionally accelerated in the rotational driving state of the rotating block 70.

Further, the rotational force of the second rotating block 70a, which is faster than the rotational speed of the rotating block 70, imparts a structure of spring stress so that the rotational force of the second rotating block 70a rotates over the structure of the holding chuck 38.

  The structure for reinforcing the rotational force of the second rotating block 70a in the second wind power generator 66a described above is a structure in which the rotational force of the second rotating block 70a is increased compared to the diameter of the second wind force inducing wall 72a The second rotating block 70a is provided with a reduced diameter (smaller diameter), thereby providing practical utility with a power added by the reinforcement of the rotational force as compared with the induced wind power.

In the structure of the second wind power generator 66a described above,

 A third rotating block 70b that reduces the outer diameter of the second rotating block 70a coupled to rotate about the support column 44 and a third column 70b that extends outside the third rotating block 70b, And the inner diameter of the curved second wind guide wall 72b between the third induction wall 62b and the inner diameter of the second wind guide wall 72b between the third induction wall 62b and the third induction wall 62b, And a third induction wall body 62b for increasing the inner diameter in accordance with the interval.

A second spacing 74a for rotation of the second rotating block 70b is provided between the second rotating block 70a and the second guiding wall 62a.

   A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a and a third induction wall body 62b fixed to the inner side of the third induction wall body 62b The third rotating block 70b coupled to the column 44 is provided with a third rotating drum 59b having the second induction wall body 62a expanded inwardly and reduced in diameter, And the induced wind force of the induction wall body 62a is provided to reinforce the rotational force of the third rotating block 70c.

Here, in order to further accelerate the rotating force of the second rotating block 70a and the third rotating block 70b whose diameter is reduced by the reinforcement of the wind force to the rotating state of the rotating second rotating block 70a A rotating body 40 assembled to a supporting column 44 between the second rotating drum 59a and the third rotating drum 59b and a rotating chuck 38 and a rotating linkage 42 is coupled to the third wind power generator 66b.

That is, the present invention is directed to induce a wind force to be blown in the air so as to be additionally accelerated in the rotational driving state of the rotating block 70.

Further, the rotational force of the second rotating block 70a, which is faster than the rotational speed of the rotating block 70, imparts a structure of spring stress so that the rotational force of the second rotating block 70a rotates over the structure of the holding chuck 38.

  Here, the number of stacked layers of the wind power generation complex 66 may be further defined according to the size and condition of the site of use, and the number of the stacked layers of the wind power generation complexes 66 may be set up in accordance with the installed number and size of the installed solar power generation plates 50 The installation size of the filtration device 67 is determined.

 Although the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but variations and modifications may be made without departing from the scope of the present invention.

35: sea level 38: hanging chuck 40: rotating body
41: rotating means 42: rotating link 43: auxiliary pole
44: support post 45: connector 46: frame
47: support rod 48: evaporation section 49: jet tube 50: solar power generating plate
51: Carver 52: Service vessel 53: Exhaust pipe 54: Inflow pipe
55: low water bottle 56: filtering section 57: heating space 58: filter section
59: rotary drum 60: solar power generator complex 61: conveying path
62: rotation induction wall 66: wind power generator 63: pressurizing pump 64: jacket
66: Vertical drum 67: Filtration device 68: Rotor blade 69: Evaporation section
70: Rotation block 72: Injection device

Claims (4)

A frame 46 which is connected in a rectangular shape at an intermediate portion of a plurality of supporting columns 44 protruding from a service vessel 52 or a coastal zone anchored on the sea surface 35; And a photovoltaic power generation plate (50) assembled to an end portion of a support rod (47) assembled by the rotation means (41)
A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the carver 51 having the heating space 57 in the solar power generation plate 50 and the discharge pipe 54 are provided with a pressurizing pump 63 A jet pipe 49 for jetting high pressure air supplied from the inside of the evaporator section 69 through the jacket 64,
The jetting pipe 49 is provided with a jetting nozzle 79 having a jetting outlet 76 provided in the direction of the upper sea surface 35 and a filtering unit 56 formed above the evaporating unit 69, And a filtration device 67 for supplying the filtered air to the heating space 57 by an inflow pipe 54 connected to the upper side of the filtering part 56. [ Regenerative power generator. The method according to claim 1,
A filtration unit 58 having an inclined bottom surface c of the filtering unit 56 and a water reservoir 55 connected to the conveying path 61 so as to store the condensed water filtered by the filtration unit 58,
A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, The connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 69 of the filtration unit 67,
A rotary drum 59 coupled to the support column 44 to be rotatably supported by the supporting column 44 coupled to the upper end of the auxiliary column 43 of the solar power generating complex 60; A rotating block 59 having a fixed flange 39 at its lower end and a rotating block 70 having an inclined roller 68 formed on the outer surface of the rotating drum 59, And a wind power generator 66 provided with a curved wind induction wall 72 between the induction wall 62 and the induction wall 62. The induction wall 62 is fixed by the auxiliary column 43 so as to surround the induction wall 62, Renewable power generation equipment for coastal area. 3. The method according to claim 1 or 2,
A second induction wall type second induction wall body 62a fixed to the auxiliary column 43 protruding to the lower side of the wind power generator 66 and a second induction wall body 62a supported on the inner support columns 44 A second rotary drum 59a coupled to the second rotary block 70a and including a second rotary block 70a expanded inwardly and reduced in diameter; The inclined sheet provided on the outer surface of the second induction wall body 62a is connected to the second revolving block 70a on which the second rotor blade 68a is formed so that the curved second wind induction wall 72a And the wind power is applied to the rotating body 40 assembled to the support column 44 between the rotating block 59 and the second rotating block 59a by imparting the rotational force of the second rotating block 70a to the same, A second wind power generator (66a) formed by a rotation link (42) provided with a catching chuck (38). The method of claim 3,
A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a, In the third rotary drum 59b coupled to the third rotary drum 59, the third induction wall body 62b is expanded inward and the third rotary drum 59b having a reduced diameter, The wall 62b is provided with the wind force guided inwardly to reinforce the rotational force of the third rotary drum 59b and to be supported by the supporting pillars 44 between the third rotary drum 59b and the third rotary drum 59b And a third wind power generator (66b) formed of a second rotation connecting rod (42a) having a second holding chuck (38a) on the second rotating body (40a) assembled.

Images