KR100862753B1 - Solar power plant having angle adjustment device - Google Patents

Abstract

A solar power plant having an angle adjustment device is provided to prevent a breakdown of a solar cell plate and a twisting effect of an electrical wire by restricting the rotation of the solar cell plate. A first coupling plate(130) is fixed and coupled to a pole(110) and is positioned at a position apart from a top end to a bottom side of the pole. A fixing combination hole is formed along a direction parallel to a rotary center line of a solar cell plate(120) in the first coupling plate. A second coupling plate(140) is extended opposite to the first coupling plate from the solar cell plate. A plurality of rotary combination holes are formed along an arc-shaped track corresponding to the fixing combination hole in the second combination plate. A coupling member is formed to couple the fixing combination hole and the rotary combination holes. A rotary restriction unit restricts the rotation of the solar cell plate within a maximum slope range and a minimum slope range with respect to a controllable slope of the solar cell plate to an upper surface of the pole in a releasing process of a coupling member.

Description

Solar power plant having angle adjustment device

The present invention relates to an inclination angle adjustable photovoltaic device, and more particularly, inclination angle adjustment type so that the solar panel can be rotated only within the set inclination angle when manually adjusting the inclination angle of the solar panel according to the change in the altitude of the sun. It relates to a photovoltaic device.

Recently, construction of eco-friendly power generation facilities using solar, wind, and tidal power, which is a clean energy source that does not cause environmental pollution while replacing fossil fuels, is gradually increasing.

Among these power generation facilities, a photovoltaic device that generates power by arranging a plurality of solar cells that convert sunlight into electrical energy generates power generated at a small scale that can generate enough power to generate hot water for daily use of a household. It is being installed on a large scale to allow further expansion.

However, the photovoltaic device has a problem in that the amount of power generation depends on the insolation time and the angle of incidence of the photovoltaic module into the solar cell module, so that the conventional fixed photovoltaic device does not improve the utilization efficiency of solar light.

In order to improve this problem, many tracking types have been proposed to track the position of the sun by using power so that the direct sunlight of the sun can be incident vertically on the front surface of the solar cell module.

As such a power system, a number of Korean Utility Model No. 297771, Patent No. 044021, Patent No. 0483291, Patent No. 0369897 and the like are disclosed.

However, in the case of such a power system, since some power consumption is generated by the power required to operate the driving equipment, the increase in power generation increased by tracking the sunlight is less than the power consumption required to operate the driving equipment. It may not improve the actual power generation efficiency.

In addition, the structure is complicated by the addition of the driving equipment, and thus the economic burden and maintenance costs incurred for the maintenance cannot be ignored.

In order to improve the above problems, the present applicant has proposed a solar power generating device having a simple structure through a domestic registered patent No. 0760043 to enable manual adjustment of the inclination angle.

However, in the photovoltaic device, when the inclination angle is adjusted, the solar panel is moved back by self weight or wind in the process of disassembling the bolts and nuts which fix the solar panel at a predetermined angle. It may cause kinks or safety accidents.

Accordingly, the present applicant has come to apply for a photovoltaic device capable of adjusting the inclination angle, which further improves the proposed invention.

The present invention has been made to improve the above problems, and provides an inclination angle adjustable solar cell apparatus capable of limiting the rotation of the solar panel within the maximum inclination angle and the minimum inclination angle range set for the adjustable inclination angle of the solar panel. Its purpose is to.

In the inclination angle adjustable photovoltaic device of the present invention for achieving the above object, in the inclination angle adjustable photovoltaic device that can adjust the inclination angle according to the change in the solar altitude of the solar panel rotatably installed on the support, A first coupling plate fixedly coupled to the support at a position spaced downward from an upper end of the support and having a fixed coupling hole along a direction parallel to the pivot center line of the solar panel; A second coupling plate extending from the solar panel to face the first coupling plate and having a plurality of rotation coupling holes spaced apart from each other along an arc-shaped trajectory corresponding to a distance from the fixed coupling hole with respect to the rotation center of the solar panel; Wow; A coupling member for detachably coupling the fixed coupling hole and the pivot coupling hole to each other; And rotational limiting means for limiting rotation of the solar panel within a range of a maximum inclination angle and a minimum inclination angle set for the adjustable inclination angle of the solar panel with respect to the upper surface of the support.

The first coupling plate has first and second protrusions extending to protrude to both sides more than the width of the strut, and the first and second protrusions have the same distance relative to the rotation center of the solar panel, respectively. First and second fixed coupling holes are formed to be spaced apart from each other, and the second coupling plate is set to be subdivided within the maximum and minimum angle ranges set for the adjustable inclination angle of the solar panel with respect to the upper surface of the support. The rotation coupling holes are formed to be coupled to the first and second fixed coupling holes for one subdivision angle, respectively.

The rotation limiting means includes a first stopper protruding from the second coupling plate so that the solar panel is caught by the support when the solar panel rotates at the lowest inclination angle with respect to the upper surface of the support, and the solar panel is the maximum inclination angle with respect to the upper surface of the support. It characterized in that it comprises a second stopper protruding from the second coupling plate to be caught by the support when the road rotates.

At least one of the first stopper and the second stopper may be formed to interconnect the second plates of adjacent solar panels.

As described above, according to the inclination angle adjustable photovoltaic device of the present invention, since the rotation of the solar panel is limited within the range of the maximum inclination angle and the minimum inclination angle set for the adjustable inclination angle of the solar panel, the solar panel at the time of adjusting the inclination angle of the solar panel It is possible to prevent damage to the solar panel, twisting or short-circuit of electrical wiring, and safety accidents that can be caused by conduction by self-weight or wind.

In addition, it is possible to prevent the solar panel from conducting even when the bolt fixing the solar panel at the selected inclination angle or the first and second coupling plates are damaged.

Hereinafter, an inclination angle adjustable photovoltaic device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a part of the inclination angle adjustable photovoltaic device according to the present invention, Figure 2 is a side view of the tilt angle adjustable photovoltaic device of Figure 1, Figure 3 is a structure of the stopper applied to FIG. Partial perspective view to show the, Figure 4 is a front view of FIG.

1 to 4, the inclination angle adjustable photovoltaic device 100 includes a support 110, a solar panel 120, a first coupling plate 130, a second coupling plate 140, and a rotation limiting means. It is provided.

The strut 110 is formed to extend to a certain height and the bottom surface 112 is formed to be coupled to the structure or building installed in the ground.

It is preferable that a hollow square tube structure is applied to the body 114 extending vertically of the support 110.

The strut 110 may be applied to the number of applications to be appropriately arranged according to the size of the solar panel 120 to be applied.

A shaft support bearing unit 150 is installed at the upper end of the support 110.

The shaft support bearing unit 150 has a housing 152 formed in a C shape and coupled to the upper end of the support 110, and a bearing 154 installed in the housing 152 to support the rotating shaft 160 to be described later. Having structure was applied.

The first coupling plate 130 is installed on a position spaced a predetermined distance downward from the top of the support (110).

The first coupling plate 130 is preferably bonded to the support 110 by welding.

The first coupling plate 130 is formed in a rectangular shape was applied, and for convenience of description, the main portion 132 and protruding to extend further to both sides than the width of the support 110, if divided into the support 110 The first and second protrusions 134 and 136 are provided.

Unlike the illustrated example, the first coupling plate 130 is not formed integrally with each other, and is formed in two pieces so as to have a first protruding portion 134 and a second protruding portion 136 on the support 110, respectively. Of course, it can be bonded to 110).

Fixed coupling holes 137 and 138 are formed in the first coupling plate 130 to be spaced apart from each other on the same radius with respect to the rotation center of the solar panel 120.

The first fixed coupling hole 137 is formed in the first protrusion 134, and the second fixed coupling hole 138 is formed in the second protrusion 136.

The solar panel 120 is rotatably installed by the rotation shaft 160 in the bearing support unit 150 installed on the upper end of the support 110.

The solar panel 120 includes a support frame 170 and a solar cell module 122.

The support frame 170 has a structure having a main support rod 172 and a sub support rod 174.

The main support rod 172 is preferably extended to a predetermined length and has a structure having a hollow hollow. In addition, the main support rod 172 is preferably to apply a hollow square tube.

The sub support rod 174 is joined to extend along the direction orthogonal to the main support rod 172 on the upper surface of the main support rod 172.

The sub support rods 174 are formed to be spaced apart from each other along the longitudinal direction of the main support rod 172.

The solar cell module 122 is arranged so that a plurality of solar cells are arranged in a lattice form and is coupled through the sub support rods 174 of the support frame 170.

The second coupling plate 140 is formed in a plate shape and is joined to one surface so as to close the hollow of the main support rod 172 at the end of the main support rod 172.

The second coupling plate 140 extends from the solar panel 120 to face the first coupling plate 130 and has the first and second fixed coupling holes 137 and 138 based on the rotation center of the solar panel 120. ), A plurality of pivotal coupling holes 142 are formed to be spaced apart from each other along a trajectory corresponding to an arc connecting the same radius.

Here, the number and spacing of the rotation coupling hole 142 formed in the second coupling plate 140 is a unit adjustment within the maximum angle and the minimum angle range of the tilt adjustment angle range of the solar panel 120 with respect to the upper surface of the support 110 The subdivision angle set at an angle may be formed to be coupled to the coupling member through the first and second fixed coupling holes 137 and 138.

In the illustrated example, the maximum angle with respect to the upper surface of the support, that is, the ground is 45 degrees and the minimum angle is 15, and when the subdivision angle is applied to 10 degrees, the inclination angle of the solar panel 120 is adjusted at 10-degree intervals. Four first group rotational coupling holes 142a are formed at intervals corresponding to the one fixed coupling hole 137 every 10 degrees, and four second group rotational couplings are also formed for the second fixed coupling hole 138. The ball 142b is formed.

The rotating shaft 160 is joined to the other surface of the second coupling plate 140 and is installed to be rotatably inserted into the shaft support bearing unit 150 installed at the upper end of the support 110.

As the coupling member, a bolt 182 and a nut 184 are applied to the coupling member to be tightened after being inserted through the rotation coupling hole 142 that is positioned to be coupled to the first and second fixed coupling holes 137 and 138. .

The inclination angle adjustable photovoltaic device 100 dismantles the bolt 182 and the nut 184 from the first coupling plate 130 and the second coupling plate 140, and then the inclination angle of the desired solar panel 120. Rotate the second coupling plate 140 as much as the rotation coupling hole 142 is positioned to correspond to the first and second fixed coupling holes (137, 138) using the bolt 182 and the nut 184 again. You can fix it.

In this case, when the bolt 182 and the nut 184 are disassembled from the first coupling plate 130 and the second coupling plate 140, the rotation of the solar panel 120 becomes free, so that the solar panel 120 is free of weight or wind. It can be turned over to the front side or the back side by the back.

Therefore, the photovoltaic device of the present invention includes a rotation limiting means capable of limiting the rotation of the solar panel 120 within the range of the maximum inclination angle and the minimum inclination angle set for the adjustable inclination angle of the solar panel 120 and excessive rotation. It is possible to prevent the damage of the solar cell module due to the twist or short circuit of the electrical wiring, and also to prevent the safety accident by the conduction of the solar panel in advance.

The first stopper 190 and the second stopper 195 are respectively formed on the second coupling plate 140 as the rotation limiting means applied to the present invention.

The first stopper 190 is formed to protrude toward the support 110 from the upper side of the side of the second coupling plate 140. Therefore, as shown in FIG. 5, when the solar panel 120 rotates, the second coupling plate also rotates in conjunction with the solar panel 120. In this case, the second coupling plate rotates at the lowest inclination angle with respect to the upper surface of the support 110. 1 stopper 190 is caught in the housing 152 of the bearing unit located on the top of the support 110 to prevent the solar panel 120 is rotated below the minimum inclination angle to prevent the solar panel 120 is conducted backward. Will be prevented.

Although not shown, the first stopper may be formed to be slightly outwardly on an extension line extending from the rotation center of the solar panel to the rotation coupling hole located at the outermost position of the second group rotation coupling hole. In this case, the first stopper is caught on the rear side of the torso of the shore when the solar panel is rotated at the lowest inclination angle or less.

The second stopper 195 is formed to protrude in the direction of the support 110 from the lower side of the side of the second coupling plate 140. More specifically, the second stopper 195 is formed to be positioned slightly outward on an extension line extending from the rotation center of the solar panel 120 to the rotation coupling hole located at the outermost position of the first group rotation coupling hole 142a. Therefore, as shown in FIG. 6, when the solar panel 120 rotates with respect to the upper surface of the support 1100 at the maximum inclination angle, the second stopper 195 is caught by the front surface of the support 110 so that the solar panel 120 is maximized. It is prevented from being rotated beyond the inclination angle to prevent the solar panel 120 from going forward.

In addition, the first and second stoppers 190 and 195 may have a structure in which the first and second stoppers 190 and 195 are coupled to and separated from the second coupling plate as well as the structure fixed to the second coupling plate integrally. As an example of such a structure, a separate through hole is formed in the second coupling plate, and a rod-shaped stopper penetrates the through hole in the direction of the support 110 in the direction of the main support rod 172. In this case, the stopper is mounted by screwing the second coupling plate.

And the rotation limiting means of another embodiment applied to the present invention is shown in FIG.

Referring to FIG. 7, the second stoppers are formed to interconnect the second coupling plates 140a and 140b respectively installed on adjacent main support rods 172a and 172b.

The second stopper is positioned between the second coupling plates 140a and 140b and has a hollow pipe-shaped spacer 207 and bolt through holes 205 formed in the second coupling plates 140a and 140b, respectively. 209 and a bolt that penetrates the through hole 205 of the second coupling plate 140a on the left side and is inserted into the spacer 207 and passes through the through hole 209 of the second coupling plate 140b on the right side. 201 and a nut 213 fastened to an end of the bolt 201 protruding through the through hole 209 of the second coupling plate 140b on the right side. Washers 203 and 211 may be mounted on the head side and the nut 213 side of the bolt 201.

The second stopper having the above structure prevents the solar panel 120 from rotating above the maximum inclination angle.

In addition, when a plurality of solar panels are supported and installed on each of the pillars 110 and are installed in each of the pillars 110, the second stopper may include a second coupling plate 140a formed on adjacent solar panels. 140b) interconnection between each solar panel is integrally interlocked to rotate so that the inclination angle of the solar panel is easy to adjust.

The first stopper 190 or the first stopper and the second stopper as well as the illustrated second stopper may have the above structure at the same time.

In addition, both ends of the spacer 207 is formed with a female threaded thread formed so that the bolt can be coupled between the second coupling plate (140a, 140b), the through hole 205 in the outward direction of the second coupling plate The second stopper may be formed in a structure in which the bolts passing through the 209 are respectively fastened to the female screw portions of the spacers.

In addition, the stopper may be deformed into various shapes as long as the stopper has a structure capable of limiting rotation of the solar panel within a predetermined angle range.

Meanwhile, the components not described above in the inclination angle adjustment type solar power generator of the embodiment shown in FIG. 7 are the same as the embodiments shown in FIGS. 1 to 4, and thus detailed descriptions thereof will be omitted.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments thereof are possible.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a perspective view showing a part of the inclination angle adjustable photovoltaic device according to the present invention,

Figure 2 is a side view of the inclination angle adjustable photovoltaic device of Figure 1,

3 is a partial excerpt perspective view illustrating the structure of the stopper applied to FIG. 1;

4 is a front view of FIG. 3,

5 and 6 are side views showing the action of the stopper applied in FIG.

Figure 7 is a partial excerpt perspective view for showing the structure of the stopper applied to the tilt angle adjustable photovoltaic device according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

110: pillar 120: solar panel

122: solar cell module 130: the first coupling plate

140: second coupling plate 150: bearing unit

160: axis of rotation 172: main support rod

174: sub support rod 190: first stopper

195: second stopper

Claims (4)

In the inclination angle adjustable photovoltaic device that can adjust the inclination angle according to the change in the solar altitude of the solar panel rotatably installed on the shore, A first coupling plate fixedly coupled to the support at a position spaced downward from an upper end of the support and having a fixed coupling hole along a direction parallel to the pivot center line of the solar panel; A second coupling plate extending from the solar panel to face the first coupling plate and having a plurality of rotation coupling holes spaced apart from each other along an arc-shaped trajectory corresponding to a distance from the fixed coupling hole with respect to the rotation center of the solar panel; Wow; A coupling member for detachably coupling the fixed coupling hole and the pivot coupling hole to each other; Rotating limiting means for limiting the rotation of the solar panel within the range of the maximum inclination angle and the minimum inclination angle set for the adjustable inclination angle of the solar panel with respect to the upper surface of the support when disassembling the coupling member; Tilt angle adjustable photovoltaic device. The method of claim 1, wherein the first coupling plate has a first and second protrusions extending to protrude to both sides more than the width of the pillar, the first and second protrusions, respectively, the rotation of the solar panel First and second fixed coupling holes are formed to be spaced apart from each other on the same distance with respect to the center, The second coupling plate is coupled to the first and second fixed coupling holes, respectively, for the subdivision angle set to be subdivided within the maximum angle and the minimum angle range set for the adjustable inclination angle of the solar panel with respect to the upper surface of the strut. The tilt angle adjustable photovoltaic device, characterized in that the rotating coupling holes are formed. 3. The rotation limiting means of claim 2, wherein the rotation limiting means comprises: a first stopper protruding from the second coupling plate such that the solar panel is caught by the support when rotated at the lowest inclination angle with respect to the upper surface of the support; And a second stopper protruding from the second coupling plate so as to be caught by the support when rotating at a maximum inclination angle with respect to an upper surface of the inclined angle adjustable solar cell apparatus. The solar cell apparatus according to claim 3, wherein at least one of the first stopper and the second stopper is formed to interconnect the second plates of adjacent solar panels.

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