KR101566952B1 - Solar generator for ground - Google Patents

Abstract

The present invention relates to a photovoltaic generator for the ground capable of improving generation productivity according to a photoelectro-motive force by maintaining the efficiency of absorbing irradiated solar light in the best condition by variably rotating a photovoltaic generating part wherein a solar cell module is arranged according to a seasonal change in the altitude of the sun. The present invention has effects of improving power generation efficiency by efficiently absorbing solar light in a vertical direction in all seasons by quickly corresponding a change in a meridian altitude for the seasonal sun; reducing production costs, minimizing a cause of malfunction, and improving workability according to defect repairs and periodic inspection by improving a rotation structure of a photovoltaic generating part; and improving use convenience by adjusting an installation angle of a photovoltaic generating part of many photovoltaic generators at the same time if necessary by using a location adjusting device arranged one by one at the initial start point and the end point and a connecting stand connected with the same after many photovoltaic generators are arranged in a line.

Description

Solar generator for ground>

The present invention relates to a photovoltaic power generation system for converting solar energy into electric energy by receiving solar energy in a state where it is installed on the ground. More particularly, the present invention relates to a photovoltaic power generation system, So that the absorption efficiency of the sunlight to be irradiated is maintained at the best condition at all times to improve generation productivity according to photovoltaic power.

Generation systems such as hydropower, thermal power, and nuclear power can be exemplified as general power generation systems for generating electricity. The power generation method of the above example requires relatively large power generation facilities, In addition to the problem of remediation, pollution of the natural environment has been raised, and there is a growing interest in a natural-friendly power generation system that can be used indefinitely without pollution entering the present.

Solar energy, solar power, solar power, solar power, solar power, solar power, solar power, solar power, solar power, When the light is irradiated, electricity is generated by the photovoltaic power, and the battery is charged through the electricity supplied from the plurality of solar cell modules and supplied to the necessary parts.

The photovoltaic power generation facilities listed above can be broadly categorized into water use and ground use depending on the conditions of the installation environment. In the case of the photovoltaic power generation facilities for water use, the natural environment such as the lake or the sea and the artificial environment such as the reservoir In the case of ground-based photovoltaic power generation facilities, it is mainly installed on a large flat land and is used for power generation.

As is well known, since the sun moves along a predetermined orbit during the time from sunrise to sunset, if the solar power generation unit is fixed, the solar power can not be received under optimum conditions, and the power generation efficiency may be lowered.

Accordingly, a tracking system for improving the solar absorption efficiency by rotating the solar power generation part in accordance with the sun's orbit change has been actively developed. For example, Korean Patent Laid-Open Nos. 83-2206 and 93-978 And the like have been proposed.

However, since the above-described solar tracking devices can not track the change in the middle-middle level of the sun due to the rotation of the sun limited to the day's orbit change, it is possible to optimize the sunlight during the four seasons (spring equinox, The conventional photovoltaic tracking system is driven on the basis of a complicated driving device, so that the failure occurs frequently and the initial installation cost is increased. In addition, Economics is also not good.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the conventional problems as described above and it is an object of the present invention to provide a solar power generator having a simplified structure and excellent installation workability, The present invention has been made to solve the above problems.

In addition, the present invention is characterized in that a plurality of photovoltaic power generation facilities are arranged in line on a flat or a hill, and then a position adjustment port is positioned on both sides of a solar power generation facility located at a starting point and an ending point, A rectangular connecting rod is coupled to a link type rotary shaft for substantially controlling the angle so that the rotation angles of the plurality of solar power generation units are simultaneously adjusted in an interlocked state in accordance with the operation of the pair of position adjustment ports to improve usability and efficiency There is another purpose.

According to an aspect of the present invention, there is provided a portable terminal comprising: a pillar installed to be vertically protruded upward from a base portion embedded in a ground surface, the pillar having a hinge piece formed at an upper end thereof and a hinge hole formed at an outer peripheral surface thereof; A photovoltaic power generation unit coupled to an upper side of the column, the photovoltaic power generation unit including a hinge piece in a spaced apart state and a solar cell module arranged inside; A link type rotating mechanism hinged to the column and the solar power generation unit to adjust a rotation angle of the solar power generation unit; And a position adjusting member movably coupled to one side of the link type rotary shaft so as to operate the link type rotary shaft in accordance with the ascending and descending operations.

According to another aspect of the present invention, there is provided a solar battery module including a column fixed to a base portion, a solar power generator rotatably coupled to an upper end of the column and having a solar cell module mounted therein, At least two photovoltaic power generation facilities, each of which is constituted by a hinged connection to the photovoltaic generation unit and a link type rotary port for adjusting the rotation angle of the photovoltaic generation unit according to the ascending and descending of the position adjustment port, are arranged side by side in at least two directions, The solar power generator is connected to both sides of a rectangular connecting rod by being positioned on both outer sides of the photovoltaic power generation facilities, and the connecting rod is connected to one end of a link type rotary shaft provided in a solar power generating facility, And the rotational angle of the solar battery is adjusted at the same time.

The present invention rapidly absorbs sunlight in the vertical direction during four seasons by rapidly responding to the change in the middle of the year, and improves the power generation efficiency and improves the rotation structure of the solar power generation unit, It is also possible to improve the workability by repairing and regular inspection as well as minimizing the number of solar power generation facilities, and by arranging a plurality of solar power generation facilities in a row, It is possible to adjust the installation angle of the solar power generation part of many photovoltaic power generation facilities at the same time to improve the convenience of use.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the entire construction of a solar photovoltaic power generation facility according to an embodiment of the present invention; FIG.
FIG. 2 is an exploded perspective view of a lumbar vertebra according to an embodiment of the present invention; FIG.
Fig. 3 is an operational view according to an embodiment of the present invention. Fig. 3 (a) is for explaining the rotation angle of the solar power generation part when frostbite is used, And (c) is for explaining the rotation angle of the solar power generation section when the sunlight is not sunk.
Fig. 4 is an exemplary view for explaining another embodiment of the present invention, wherein (a) is an overall configuration view, (b) is a fragmentary exploded perspective view of the main part, and Fig. 4 (c) is a partially enlarged front view of Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing the entire construction of a solar photovoltaic power generation facility according to the present invention, and FIG. 2 is an exploded perspective view of a main part according to the present invention.

The ground-based photovoltaic power generation equipment A according to an embodiment of the present invention is roughly divided into a hinge piece 100b at the upper end and a hinge hole (not shown) at the upper end of the base part 140, 100a, respectively; A photovoltaic power generation unit 110 coupled to the upper side of the column and having hinge pieces 110a and 110b spaced apart from each other and having solar cell modules arranged therein; A link type rotary shaft 120 hinged to the column 100 and the solar power generation unit 110 to adjust the rotation angle of the solar power generation unit; And a position adjusting hole 130 which is movably coupled to one side of the link type rotation hole and operates the link type rotation hole according to the ascending and descending operation.

The link type rotary tool 120 of the illustrated embodiment includes a first link 121 having a pair of long holes 121a and 121b formed on a front surface thereof and having a hinge hole 121c at one end thereof, A second link 122 having hinge holes 122a and 122b hinged to the first link 121 and the solar power generating unit 110 and spaced apart from the first link 121, A first hinge pin 123 coupled to the one long hole 121b and the column hinge hole 100a and a second hinge pin 123b coupled to the hinge hole 121c of the first link and one hinge hole 122a of the second link, And a third hinge pin 125 coupled to the other hinge hole 122b of the second link and the hinge piece 110b of the solar power generation unit.

The first hinge pin 123 is fixed to the column hinge hole 100a while being threaded to the end of the first link and inserted into the slot 121b of the first link, And the third hinge pin 125 is fastened to the first link 121 and the second link 122 in a state of being fitted to the one hinge hole 121c and 122a of the second link 122, And is also fastened to the nut in a state of being fitted to the other hinge hole 122b and the solar cell unit lower hinge piece 110b.

The position adjusting hole 130 of the illustrated embodiment includes a connecting portion 134 in which a multi-stage flow pin 134b is protruded at both ends in the longitudinal direction and a screw shaft 134a is protruded at the center lower side, A nut 134c to be screwed on the floating pin 134b is provided and a coupling groove 132a to be coupled with the screw shaft 134a of the coupling portion is formed at the upper end, A key groove 131a into which the guide key 132b of the elevating part is inserted is formed as an inner surface of the inner space and an insertion hole 131b is formed in the front surface And a driving motor 133 having a mounting tube 131 fixed to the base 140 and a rotating portion 133a which is inserted into one side of the insertion hole of the mounting tube and meshed with the teeth of the elevating portion 132. [ will be.

The driving motor 133 of the above example is mounted using a separate bracket (not shown) on one side of the mounting tube, and the elevating portion, which is moved up and down by engaging with the driving motor, may be formed into a shaft- It is.

Fig. 4 is an exemplary view for explaining another embodiment of the present invention, wherein (a) is an overall configuration view, (b) is a fragmentary exploded perspective view of the main part, and Fig. 4 (c) is a partially enlarged front view of Fig.

The ground photovoltaic power generation equipment A1 and A2 according to another embodiment of the present invention includes a column 200 fixed to the base unit 240 and a solar cell module 300 rotatably coupled to the upper end of the column, And a solar power generating unit 210 mounted on the solar power generating unit 210. The solar power generating unit 210 is rotatably coupled to one end of the column and hinged to one side of the solar power generating unit 210. In accordance with the elevation of the position adjusting holes 230a, (220) for adjusting the rotation angle of the solar power generation equipment (210), wherein at least two solar power generation facilities (A1, A2) are arranged side by side in one direction, 230a and 230b are connected to both sides of the rectangular connecting rod 250. The connecting rod 250 is connected to one end of the link rotator 220 provided in the solar power generating facility And is moved up and down by the position adjusting holes 230a and 230b Photovoltaic plant (A1) constitute (A2) so as to adjust of the solar power unit 210, the rotation angle at the same time.

Here, the plurality of solar power generation facilities A1 and A2 may be arranged on a flat plane at regular intervals or may be arranged in a multistage manner like a staircase at a position such as a hill.

In the illustrated embodiment, the link type rotary tool 220 includes a first link 221 having a long hole 221a formed in its front surface and a fitting hole 221b formed at one side thereof, A first hinge pin 224 coupled to the elongated hole 221a of the first link and the column 200 and a second hinge pin 224 hinged to the first link 221 and the second A second hinge pin 225 coupled to the link 222 and a third hinge pin 226 coupled to the second link 222 and the solar power generating unit 210, And a fourth hinge pin (223) coupled to the linkage (250).

In the illustrated embodiment, the position adjusters 230a and 230b include an installation tube 231 formed on the upper surface of the base 240 to form a rectangular cutout 231a opposed to both sides of the upper end, A forward and reverse rotation motor 232 having a screw shaft 233 mounted on the inside of the installation tube and screwed with the screw shaft 233 of the forward and reverse rotation motor to move up and down, And the elevating portion 234 having the connecting pin 234a protruding in a multi-stage shape on both sides.

The linkage 250 of the illustrated embodiment has an elongated hole 250a to be hinged with a fourth hinge pin 223 fitted in the first linkage hole 221b of the link type rotary tool 220 of the photovoltaic power generation facilities And a fitting hole 250b to be coupled to the elevating portion connecting pin 234a of the position adjusting holes 230a and 230b is formed at both ends of the position adjusting hole 230a. And operates the link-type rotary tool 220 in interlocking relation.

In the figure, reference numeral 126 denotes a fourth hinge pin which is fastened to the hinge piece 100b at the upper end of the column and the upper hinge piece 110a of the photovoltaic generator, and reference numeral 160 denotes a driving motor rotation amount And a main board (PCB circuit board) for selective control.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

For example, as shown in FIGS. 2 to 3, when a pair of first links 121 opposed to both sides of the hinge hole 100a of the column 100 mounted on the base 140 are positioned, the first hinge pin 123 are inserted into the one long hole 121b of the first link and fastened to the column hinge hole 100a to complete the installation of the first link 121 and then the second link 122 The second hinge pin 124 is fastened to each of the hinge holes 121c and 122a with the hinge holes 121a and 121b interposed therebetween, The third hinge pin 125 is clamped with the piece 110b and the fourth hinge pin 126 is fastened to the column upper hinge piece 100b by sandwiching the upper hinge piece 110a of the solar power generation part, The structure of the link type rotary member 120 and the solar power generation unit 110 are both fastened to the column 100 so as to be hinged.

In addition, the connection portion 134 of the position adjustment port is fastened to the long hole 121a provided at one side of the first link of the link type rotary shaft. The multi-stage flow pin 134b extending to both sides of the connection portion is connected to the first link The screw shaft 134a protruding from the lower side of the connecting portion is inserted into the upper end locking groove 132a of the lifting portion 132 in the form of a rack gear, And the elevating portion is inserted and installed so as to ascend and descend in a vertical installation body 131 mounted on the column.

Here, the guide key 132b protruding to both sides of the elevating portion 132 is inserted into the opposite key groove 131a on the inner surface of the mounting tube, so that the elevating portion that ascends and descends can be smoothly elevated without departing from the original position, (Circular gear) 133a of the drive motor fitted in the insertion hole 131b on one side of the installation tube are mutually engaged to transmit power.

The solar power generation facility (A) of the present invention having the above-described organic connection relationship controls the installation angle of the solar power generation section according to the seasonal altitude change of the sun (south and middle highway). For more efficient explanation, Anseong region will be examined.

For example, when the altitude of the sun floating in the Anseong area during the winter time (winter season) is 29.5 degrees, the reference altitude is set to a reference value. When the drive motor 133 driven and controlled by the controller is operated as shown in FIG. The rotation part 133a is rotated and at this time the elevation part 132 engaged with the rotation part ascends to the upper side and one end of the first link 121 connected to the connection part 134 also ascends together, The second link 122 and the solar power generating unit 110 are continuously hinged to each other while descending downward with respect to the first hinge pin 123. As a result, So that the sunlight emitted from the sun can be efficiently absorbed by the solar power generation unit 110 in the vertical direction, thereby improving the power generation efficiency of the photovoltaic power generation.

On the other hand, as shown in Fig. 6, the altitude of the southern part of the sun floating in the Anseong area during the spring equinox (spring season) and autumn season (autumn season) is 53 degrees, As shown in FIG. 3 (b), the rotating portion 133a of the driving motor rotates in one direction to lower the lifting portion 132 which has been lifted up to the maximum, At this time, the other side of the first link 121 ascends upward from the position point at the same time based on the first hinge pin 123, and the second link 122 and the solar power generating unit 110 ) Is rotated so that the angle of installation of the photovoltaic power generation unit is adjusted so as to correspond to the vertical direction in the middle of the middle of the highway of 53 degrees so that the sunlight can be efficiently received at the equinoxes and the equinoxes to improve the power generation efficiency.

In addition, the sun floating in the Anseong area during the summer (summer time) is taken from the northeast to the northwest, where the altitude of the south is 76.5 degrees. In this case, The first link 121 of the photovoltaic generation unit 120 is rotated through the position adjustment port 130 to adjust the installation angle of the solar power generation unit 110 so as to be vertically positioned in the middle of the middle degree of 76.5 degrees, The power generation efficiency of the power generation facility is further improved.

In the above example, the rotation amount of the rotation part 133a of the drive motor 133 and the rotation direction thereof can be automatically adjusted by a controller having a built-in main board (PCB circuit board), and if necessary, It may be adjusted directly.

The following description is intended to illustrate the operational effects and the organic combination of the components according to another embodiment of the present invention.

For example, as shown in Figs. 4 (a) to 4 (c), in a state where a pair of first links 221 opposed to both sides of the column 200 mounted on the base portion 240 are positioned, the first hinge pin 224 are inserted into the elongated hole 221a of the first link and are rotatably coupled to the column 200 to complete the installation of the first link 221 and then the second link 222 And one side of the second link 222 can be rotated by the third hinge pin 226 on the lower side of the solar power generating unit 210 The installation of the photovoltaic power generation facilities A1 and A2 constituted by the components of the link type rotary tool 220 and the solar power generation section 210 is completed in the column 200. [

At this time, the above-mentioned solar power generation facilities A1 and A2 are arranged in a plurality of rows on a wide flat surface or a plurality of stages in the form of a multi-stepped staircase on a hill-like surface.

Thereafter, a pair of positioning guides 230a and 230b are positioned one by one on both sides (starting point and ending point) of the photovoltaic power generation facilities, and the installation tube 231 of the position adjusting holes A normal and reverse rotation motor 232 having a screw shaft 233 is installed in the installation tube body after the screw shaft 234b is mounted on the base portion 240, 233). At this time, the multistage connection pin 234a extending to both sides of the elevation portion is inserted into the cut-out hole 231a on both sides of the upper end of the installation tube and protruded.

The elevating portion connecting pin 234a of the position adjusting holes 230a and 230b is coupled to the fitting hole 250b provided on one side of the connecting rod so that the long hole 250a of the connecting rod 230a The fourth hinge pin 223 fitted in the fitting hole 221b provided at one side of the first link 221 is coupled so as to be rotatable by a nut 220 are completed. At this time, the long holes 250a of the connecting unit are formed at equal intervals as the number of the solar power generating facilities, and a plurality of solar power generating facilities arranged at least two or more in one direction are connected to one connecting unit The installation angles of the solar power generation units included in these solar power generation facilities can be adjusted simultaneously.

The solar power generation facilities A1 and A2 according to another embodiment of the present invention having the above-described organic connection relationship can be installed in the solar power generation unit 210 according to the seasonal altitude In order to provide a more efficient explanation, we will refer to Aseong region in Korea.

For example, when the sun's altitude in the Aseong region is set to 29.5 degrees, the height of the sun is set to a reference value. When the motor 232 is driven at the same time, the elevating portion 234 coupled with the screw shaft 233 rotated in place moves up to the upper side of the mounting tube 231. At this time, the connecting pin 234a of the elevating portion The one end of the first link 221 of the link type rotary tool among the plurality of solar power generation facilities fastened to the linkage unit in a horizontal state is lifted with respect to the first hinge pin 224, At this time, the other side of the first link is lowered with respect to the first hinge pin 224, and the second link 222 and the solar power generating unit 210, which are continuously hinged to each other, rotate, 210) is set to the middle of the middle of the 29.5 degrees in the vertical direction So that the sunlight emitted from the sun can be efficiently absorbed by the solar power generation unit 210 in the vertical direction, thereby improving the power generation efficiency of the photovoltaic power generation.

At this time, the first links 221 of the link type rotary gears included in the plurality of solar power generation facilities arranged in a line are connected to one link 250 in a plurality of interlocking states at regular intervals, The operation of the first link 221 is simultaneously performed according to the arrangement of the solar power generation units 210 of the solar power generation facilities A1 and A2 arranged at the same time.

Also, in the Anseong area, the altitude of the southern part of the Sun is 53 degrees and the altitude of the southern part is 76.5 degrees. When the height of the southern part of the sun is different, the installation angle of the solar power generation part is readjusted, The power generation efficiency of the ground solar photovoltaic power generation facility is adjusted throughout the four seasons by adjusting the installation angle of the solar power generation unit by performing the same procedure as in the above example. It is possible to improve it further.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

A, A1, A2: Ground photovoltaic power generation facilities, 100, 200: Column,
110, 210: solar power generation unit, 120, 220:
121, 221: first link, 121a, 121b, 221a, 250a:
122, 222: second link, 123, 224: first hinge pin,
124, 225: second hinge pin, 125, 226: third hinge pin,
130, 230a, 230b: position adjusting port, 131, 231: installation tube,
132: elevating part, 133: driving motor,
133a: rotation part, 232: normal rotation motor,
233: Screw shaft, 250: Connecting rod

Claims (7)

A column 100 having a hinge piece 100b formed at an upper end thereof and a hinge hole 100a formed at an outer circumference thereof so as to be vertically protruded upward from a base portion 140 embedded in the ground; A photovoltaic power generation unit 110 coupled to the upper side of the column and having hinge pieces 110a and 110b spaced apart from each other and having solar cell modules arranged therein; A link type rotary shaft 120 hinged to the column 100 and the solar power generation unit 110 to adjust the rotation angle of the solar power generation unit; And a position adjustment port (130) that is movably coupled to one side of the link type rotation mechanism and operates the link type rotation mechanism in accordance with an ascending and descending operation,
The link type rotary tool 120 includes a first link 121 having a pair of long holes 121a and 121b formed on a front surface thereof and having a hinge hole 121c at one end thereof, A second link 122 having hinge holes 122a and 122b hinged to the solar power generating unit 110 and spaced apart from the first link 121 and a second link 122 having one side long hole 121b and a pillar A first hinge pin 123 coupled to the hinge hole 100a and a second hinge pin 124 coupled to the hinge hole 121c of the first link and the one hinge hole 122a of the second link, And a third hinge pin (125) coupled to the other hinge hole (122b) of the second link and the hinge piece (110b) of the solar power generation unit.
The method according to claim 1,
The position adjuster 130 includes a connecting portion 134 having a flow pin 134b protruded at both ends in the longitudinal direction and having a screw shaft 134a protruding downward at the center thereof and a connecting portion 134 screwed to the flow pin 134b of the connecting portion A lifting part 132 formed with a fastening groove 132a to be fastened to the screw shaft 134a of the connecting part at its upper end and formed with teeth on its front side and a guide key 132b protruding in both side directions, An installation tube 131 formed by an inner side surface of the inner space and having an insertion hole 131b formed at the front thereof and fixed to the base 140, a key groove 131a into which the guide key 132b of the elevation part is inserted, And a driving motor (133) having a rotation part (133a) which is inserted into one side of the insertion hole of the installation tube and engaged with the teeth of the elevation part (132).
A column 200 fixed to the base 240; a solar power generator 210 rotatably coupled to an upper end of the column and having a solar cell module mounted therein; And a link type rotation unit 220 hinged to the solar power generation unit 210 to adjust the rotation angle of the solar power generation unit 210 as the position adjustment ports 230a and 230b move up and down, (220) are arranged side by side at least two in the lateral direction, and the position adjustment ports (230a) and (230b) are positioned on both outer sides of the arranged photovoltaic power generation facilities, And the connecting rod 250 is connected to one end of the link type rotary tool 220 provided in the solar power generating facility and connected to the solar power generating plant A1 A2 to simultaneously adjust the rotation angle of the solar power generation unit 210 In a ground-based photovoltaic power generation facility,
The link type rotary tool 220 includes a first link 221 having an elongated hole 221a formed in its front surface and a fitting hole 221b formed at one side thereof and a hinge A first hinge pin 224 coupled to the elongated hole 221a of the first link and the column 200 and a second hinge pin 224 coupled to the first link 221 and the second link 222, A third hinge pin 226 coupled to the second link 222 and the solar power generating unit 210 and a second hinge pin 226 coupled to the first link 221 and the link 250, And a fourth hinge pin (223) coupled to the first hinge pin (223).
The method of claim 3,
The position adjusting holes 230a and 230b include a mounting tube 231 formed on the upper surface of the base 240 and forming a cutting hole 231a opposed to both sides of the upper end of the tube 230. The mounting tube 231 is mounted inside the mounting tube, The screw 233 is screwed with the screw shaft 233 of the normal / reverse rotation motor so as to move up and down with a screw hole 234b at the center thereof. And a rising portion (234) protruding from the ground.
The method of claim 3,
The linkage 250 forms a long hole 250a for hinge connection with one end of the link type rotary shaft 220 of the photovoltaic power generation equipment and is provided with a fitting hole 250a for connecting to the position adjusting holes 230a, 250a, and 250b, respectively, so that the link-type rotary tool 220 is operated by interlocking with the position adjusting port elevating and lowering operation.

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