KR102089905B1 - Photovoltaic panel support device in solar facility - Google Patents

Abstract

Disclosed is a photovoltaic panel support apparatus in a photovoltaic facility. According to the present invention, the photovoltaic panel support apparatus in the photovoltaic facility comprises: a guide rail (110) which is horizontally installed on the ground surface or a support structure having a certain height to be extended in a longitudinal direction; a slider (130) which is slidably engaged along the guide rail (110) to be movable in a longitudinal direction along the guide rail (110); a vertical member (140) which is fixed on an upper side of the slider (130); a panel frame (150) which has the photovoltaic panel (2) fixed to be parallel to the photovoltaic panel (2); a rotary shaft (160) which is installed between the center lower side of the panel frame (150) and an upper end of the vertical member (140) to allow the panel frame (150) to rotate around the vertical member (140); a circular arc member (170) which includes a circular arc unit (172), which is formed at a radius of curvature around the rotary shaft (160), and in which both end units (174, 174), which are at the same distance from the rotary shaft (160), are fixed on the panel frame (150); and a fixing unit which fixes the circular arc member (170) on the vertical member (140) with the panel frame (150) having a varied angle by rotating around the rotary shaft (160) for a certain angle, and which fixes the position of the panel frame (150) with the varied angle. The present invention aims to provide the photovoltaic panel support apparatus in the photovoltaic facility, which is able to be favorably used for the agricultural-type photovoltaic facilities.

Description

Photovoltaic panel support device in solar facility

The present invention relates to a photovoltaic power generation facility, in particular, crop types, seasons, natural phenomena and modules of products on farmland (cultivated fields such as paddy fields, fields, etc.) that grow more than two crops per year (two crops per year) It is possible to adjust the angle of the photovoltaic panel to cope with growth (transparent modules, etc.), and it is also possible to horizontally move the photovoltaic panel on the installation site, supporting a photovoltaic panel that can be advantageously used in farm-type photovoltaic power generation facilities. It is about the device.

Solar power generation is very advantageous in that power generation can be performed using eco-friendly solar energy without using additional energy or driving equipment. Recently, farm-type photovoltaic power generation using farmland (or farmland) has been spotlighted.

Farm-type photovoltaic power generation facilities are installed on farmland in order to simultaneously perform photovoltaic power generation and farming (especially paddy and field farming). In order to perform farming in arable land, a solar panel must be arranged high to enter the farm equipment, and the position must be easily adjusted in the highly arranged state.

In addition, it is advantageous that the gaps between the photovoltaic panels must be sufficiently secured to secure the amount of sunshine of the crops, so that the gaps between the photovoltaic panels can be easily adjusted. In addition, a solar power generation facility can be installed on a large scale or a small scale depending on the size of the arable land, and the installation density of the solar panel is adjusted by adjusting the spacing of the solar panels according to the types of crops in the arable land of a predetermined area. It is advantageous to be able to increase or decrease.

On the other hand, the altitude of the sun varies depending on the season. Since the solar panel of the existing power generation facility is always inclined at a certain angle, it is difficult to increase the solar power generation efficiency. For this reason, in the management of a conventional photovoltaic power generation facility, work is being performed to change the inclination angle of the photovoltaic panel according to the season. However, the conventional photovoltaic power generation facility has had many difficulties in controlling the inclination of the photovoltaic panel. In particular, the hinge allowing the rotation of the solar panel is biased away from the center of the solar panel, which poses many difficulties in reducing the slope by rotating the heavy solar panel. For this reason, there has been a problem in that a large number of manpower and time are input when adjusting the inclination angle of the solar panel.

The problem to be solved by the present invention is that the current farming-type photovoltaic facility is fixed, and the required amount of sunlight is calculated and installed only for the type of crop at the time of installation, and the amount of the amount of crop to be changed when changing from an existing crop to another crop. For this reason, it is not possible to change the structure, and it is a farm-type solar light that can control the amount of sunlight that can cultivate multiple crops (more than twice a year) and several types of crops at the same time in a wide area, and also improve the amount of solar power generation. By providing a photovoltaic panel support device of a photovoltaic power generation facility that can be used to control the angle of the photovoltaic panel, and horizontally move the photovoltaic panel on the installation site, which can be advantageously used in a farm-type photovoltaic power generation facility. will be.

A photovoltaic panel support apparatus of a photovoltaic power generation facility according to an aspect of the present invention includes a guide rail 110 horizontally installed on a ground or a support structure having a certain height and extending in a lengthwise direction; A slider 130 slidably coupled along the guide rail 110 and movable in the longitudinal direction along the guide rail 110; A vertical member 140 fixed to the upper portion of the slider 130; A panel frame 150 to which the solar panel 2 is fixed to be parallel to the solar panel 2; A rotation shaft 160 installed between the lower center of the panel frame 150 and the upper end of the vertical member 140 to rotate the panel frame 150 with respect to the vertical member 140; An arc having a circular arc portion 172 formed with a radius of curvature centered on the pivot shaft 160, and both ends 174 and 174 having the same distance from the pivot shaft 160 are fixed to the panel frame 150 Member 170; And the panel frame 150 is rotated at a certain angle around the rotation shaft 160 to fix the arc member 170 to the vertical member 140, and the angle is varied. It includes a fixing unit for fixing the position of the frame 150.

According to one embodiment. The guide rail 110 extends along the longitudinal direction of the front and rear, while a pair of left and right side walls 112 and 112, an upper wall 114 and a lower wall 116, and the guide rail 110. A pair of side guide grooves 1122 and 1122 formed on the pair of side walls 112 and 112 over the entire length, and an upper guide formed on the upper wall 114 over the entire length of the guide rail 110 It includes a groove 1142, the slider 130 is a pair of sliding projections (1322) are guided by being inserted into the upper plate portion and the pair of side guide grooves (1122, 1122) to which the vertical member 140 is coupled, 1322) integrally formed with a pair of side plate parts, the front, rear, and lower sides of the sliding member 132 and the sliding member 132 rotatably supported on both side walls and the upper portion of the guide rail 110 It includes a rotating wheel 134 that rotates rolling along the wall surface, the The positive unit includes a plurality of angle adjusting holes 181 formed along the arc direction in the arc portion 172, and the angle in a state in which the arc member 170 is rotated at a certain angle integrally with the panel frame 150. With the fastening hole 182 formed in the vertical member 140 to be matched with one of the adjustment holes 181, and one of the angle adjustment holes 181 and the fastening hole 182 are matched It includes a fastener 183 that passes through the angle adjustment hole 181 and is fastened to the fastening hole 182.

According to an embodiment, the vertical member 140 includes a lower vertical portion 141 connected to the slider 130, an upper vertical portion 142 provided with the rotating shaft 160, and the rotating shaft 160 A tilt rotation axis 143 having an axis that is not parallel to the axis of the axis and rotatably connecting the lower vertical portion 141 to the upper vertical portion 142, wherein the solar panel supporting device includes the guide rail ( A pair of left and right auxiliary guide rails 110 ', 110' symmetrically arranged on both sides of the left and right sides of the 110) and the pair of auxiliary guide rails 110 ', 110' slidably coupled to the one A pair of auxiliary sliders (130 ', 130') movable in the longitudinal direction along the pair of auxiliary guide rails (110, 110 '), and coupled to the upper portion of the pair of auxiliary sliders (130', 130 ') The upper support portion 143 'is separated from the panel frame 150, and the panel frame 150 It includes a pair of supporting vertical member (140 ', 140'), the auxiliary vertical member (140 ') is connected to the auxiliary slider (130'), the lower bar (141 ') and the lower bar (141) It includes a top bar 142 'having a support portion 143' for adjusting the height with respect to ') and supporting the panel frame 150 in a separated state.

The photovoltaic panel support device according to the present invention is applied to a photovoltaic power generation facility, in particular, a farm-type photovoltaic power generation facility, so that the angle of the photovoltaic panel can be adjusted and the horizontal movement of the photovoltaic panel on the installation site is possible. There is this.

1 is a perspective view for explaining a solar panel support device of a solar power generation facility according to an embodiment of the present invention,
2 is a plan view showing a solar panel support device of a solar power generation facility according to an embodiment of the present invention,
3 is a cross-sectional view taken along AA of FIG. 1,
4 is a cross-sectional view taken along the BB of FIG. 1,
5 is a view for explaining the operation of the solar panel support device of a solar power generation facility according to an embodiment of the present invention,
6 is a view for explaining a solar panel support device of a solar power generation facility according to another embodiment of the present invention,
7 and 8 are views for explaining a photovoltaic panel support device of a solar power generation facility according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that the accompanying drawings and the embodiments described with reference to the drawings are simplified and exemplified with the intention of helping those skilled in the art to understand the present invention.

1 is a perspective view for explaining a solar panel support device of a solar power generation facility according to an embodiment of the present invention, Figure 2 is a solar panel support device of a solar power generation facility according to an embodiment of the present invention 3 is a cross-sectional view taken along AA of FIG. 1, FIG. 4 is a cross-sectional view taken along BB of FIG. 1, and FIG. 5 is a photovoltaic power generation facility according to an embodiment of the present invention. It is a figure for explaining the operation of the panel support device.

1 to 5, the solar panel support apparatus 100 according to an embodiment of the present invention is applied to a farm-type photovoltaic power generation facility, and supports one or more solar panels 2 It is configured to. Although not shown, the solar panel support device may be used in combination with a support structure having one or more vertical frames having a certain height.

In addition, the solar panel support apparatus 100 according to the present embodiment is configured to be capable of varying the inclination angle of the solar panel 2, and is also configured to allow horizontal movement of the solar panel 2.

To this end, the solar panel support apparatus 100 according to the present embodiment is horizontally installed on the ground or a support structure having a certain height, and the guide rail 110 extended in the longitudinal direction and the guide rail 110 A slider 130 slidably coupled along the guide rail 110 and movable in the longitudinal direction, a vertical member 140 fixed to the upper portion of the slider 130, and the solar panel 2 It is installed between the panel frame 150 in which the solar panel 2 is fixed while being parallel, and is installed between the center lower portion of the panel frame 150 and the upper end of the vertical member 140, and the panel frame 150 is disposed. Both ends having a rotation shaft 160 to be rotated relative to the vertical member 140 and an arc portion 172 formed of a radius of curvature centered on the rotation shaft 160, and the distance from the rotation shaft 160 is the same. (174, 174) above The circular member 170 fixed to the null frame 150 and the panel frame 150 are rotated at a predetermined angle around the rotation shaft 160 to change the angle of the circular member 170 to the vertical It is fixed to the member 140, and includes a fixing unit for fixing the position of the panel frame 150 is variable in angle.

The guide rail 110 is installed on a support structure installed at a predetermined height or higher from the ground or the ground, and extends long in the longitudinal direction, that is, along the direction in which the solar panel 2 moves, while a pair of left and right The side walls (112, 112), the upper wall 114 and the lower wall 116. In addition, the guide rail 110 is formed on a pair of side guide grooves 1122 and 1122 formed on the pair of side walls 112 and 112 over the entire length and on the upper wall 114 over the entire length. It includes an upper guide groove 1142. Although not shown, a stopper structure for fixing the slider 130 placed at a specific position of the guide rail 110 to the guide rail 110 may be additionally provided. The stopper structure may be a stopper structure by bolting or other type of stopper structure.

In addition, the slider 130 is a pair of sliding projections 1322 and 1322 formed by a pair of sliding projections 1322 and 1222 guided by the upper plate portion to which the vertical member 140 is coupled and the pair of side guide grooves 1122 and 1222 are formed. Sliding member 132 integrally including a side plate part and open in front, rear, and bottom, and rotatably supported on both side walls of the sliding member 132 and rolling along the upper wall surface of the guide rail 110 It includes a rotating wheel 134 to rotate. In this embodiment, the rotating wheel 134 is provided with an insertion protrusion 1342 inserted into the upper guide groove 1143 in the center.

The above structure allows the slider 130 to slide smoothly in the front-rear direction along the guide rail 110 while preventing the slider 130 from being detached from the guide rail 110, and the slider The clearance between the 130 and the guide rail 110 is greatly reduced, and the panel frame 150 moved in the same direction by sliding of the slider 130 and the solar panel 2 coupled thereto are smoothly moved and It enables movement to the correct position. And, even when the movement is completed, the solar panel 2 is minimized to be shaken by external force.

The guide rail 110 may be formed of various shapes in addition to the illustrated section steel, and the slider 130 may have various shapes or arrangements depending on the shape of the guide rail 110. Various types of rollers can be provided. Alternatively, the slider 130 may include various types of protrusions or similar structures that can be inserted into various types of grooves provided in the guide rail 110.

 On the other hand, the fixing unit, the panel frame 150 rotates a certain angle around the rotation shaft 160 to fix the circular member 170 to the vertical member 140 in a state where the angle is variable, For fixing the position of the panel frame 150 which is variable in angle, a plurality of angle adjustment holes 181 formed along the arc direction in the arc portion 172 and the panel frame 150 integrally with the The fastening hole 182 formed in the vertical member 140 and the angle adjusting holes 181 so as to be matched with one of the angle adjusting holes 181 while the circular member 170 is rotated at a certain angle It may include a fastener 183 that is fastened to the fastening hole 182 by passing through the angle adjustment hole 181 in a state where one of the fastening hole 182 is matched.

In this embodiment, the panel frame 150 includes a pair of transverse bar members 152, 152 and both ends of the pair of transverse bar members 152, 152. 152, 152, a pair of distal longitudinal bar members 154 and one or more intermediate longitudinal bar members 155 connecting the middle between the pair of transverse bar members 152. do. In this embodiment, the pivot shaft 160 is installed at the center of the intermediate longitudinal bar member 155.

In FIG. 5, the panel frame 150 on which the solar panel 2 is installed is rotated at an angle with respect to the vertical member 140 to change the inclination angle, and in the state where the angle is changed, the rotation of the panel frame 150 is allowed. By fixing the vertical member 130 and the arc member 170 integrally fixed to the panel frame 150, the action of changing and fixing the angle of the solar panel 2 is well illustrated.

6 is a perspective view for explaining another embodiment of the present invention.

Referring to FIG. 6, the photovoltaic panel support apparatus 100 according to the present embodiment is horizontally installed on a ground or a support structure having a predetermined height, and a plurality of guide rails 110 extended in the longitudinal direction and the plurality A plurality of sliders 130 slidably coupled along the guide rails 110 and movable in the longitudinal direction along the plurality of guide rails 110, and a plurality of coupled to the top of the plurality of sliders 130 A vertical member 140, one panel frame 150 to which the solar panel 2 is fixed while being parallel to one solar panel 2, and a plurality of lower points of the panel frame 150, The plurality of rotation shafts 160 and the plurality of rotation shafts 160 installed between the upper ends of the plurality of vertical members 140 to rotate the panel frame 150 with respect to the plurality of vertical members 140 ) A plurality of arc members 170 having arc portions 172 formed of a radius of curvature as a shim and having both ends 174 and 174 having the same distance from the rotation shaft 160 being fixed to the panel frame 150; The panel frame 150 is rotated at a certain angle around the plurality of rotation shafts 160 to fix the plurality of arc members 170 to the plurality of vertical members 140 in a state where the angle is variable, so that the angle It includes a plurality of fixing units for fixing the position of the variable panel frame 150.

The rest of the configuration is the same as in the previous embodiment, so the description is omitted.

7 is a perspective view for explaining another embodiment of the present invention, and FIG. 8 is a view showing an auxiliary support structure for a panel frame.

7 and 8, the solar panel support apparatus 100 according to the present embodiment includes a main support structure of the panel frame and an auxiliary support structure of the panel frame.

The main support structure of the photovoltaic panel support device 100 is horizontally installed on a support structure having a predetermined height, and a guide rail 110 extended in the longitudinal direction and a slide along the guide rail 110 Combined, the slider 130 is movable in the longitudinal direction along the guide rail 110, the vertical member 140 coupled to the upper portion of the slider 130, and the solar panel while being parallel to the solar panel It is installed between the fixed panel frame 150, the center lower portion of the panel frame 150 and the top of the vertical member 140 to rotate the panel frame 150 with respect to the vertical member 140 The panel frame 150 is provided at both ends 174 and 174 having a coaxial 160 and an arc portion 172 formed of a radius of curvature centered on the rotating shaft 160 and having the same distance from the rotating shaft 160. Set to) The circular member 170 and the panel frame 150 are rotated at a predetermined angle around the rotation shaft 160 to fix the circular member 170 to the vertical member 140 in a state where the angle is variable, It includes a fixing unit for fixing the position of the panel frame 150 is variable angle.

At this time, the vertical member 140 is parallel to the lower vertical portion 141 connected to the slider 130, the upper vertical portion 142, the rotation shaft 160 is installed, and the axis of the rotation shaft 160 It includes a tilt axis of rotation (143) having an axis that is not an axis and rotatably connecting the lower vertical portion (141) to the upper vertical portion (142). By rotating the upper vertical portion 142 relative to the lower vertical portion 141, in addition to adjusting the inclination angle of the solar panel 2, it is possible to adjust the tilt angle of the solar panel 2 in a different direction. Do. Adjusting the tilt angle of the solar panel 2 helps to acquire more sunlight according to environmental, seasonal and temporal conditions.

On the other hand, the auxiliary support structure of the solar panel support device 100, a pair of left and right auxiliary guide rails (110 ', 110') symmetrically arranged on both left and right sides of the guide rail (110), A pair of auxiliary sliders 130 ', 130' slidably coupled along the pair of auxiliary guide rails 110 ', 110' and movable in the longitudinal direction along the pair of auxiliary guide rails 110, 110 ' ), As long as the upper portion of the pair of auxiliary sliders 130 ′ and 130 ′ is supported and the upper support portion 143 ′ is separated from the panel frame 150 to support the panel frame 150. And a pair of auxiliary vertical members 140 'and 140'. At this time, the auxiliary vertical member 140 'is adjusted in height with respect to the lower bar 141' and the lower bar 141 'connected to the auxiliary slider 130', and the panel frame 150 at the top. It includes an upper bar 142 'formed with a support 143' for supporting in a separated state. In this embodiment, the support 143 'is formed in a roll or wheel structure, but may be formed in another structure.

In the state in which the tilt angle of the panel frame 150 is defended by using the tilt rotation axis 143, the tilt angle is adjusted by adjusting the heights of the pair of auxiliary vertical members 140 'and 140' differently. The position of the changed panel frame 160 can be fixed.

The rest of the configuration is the same as in the previous embodiment, so the description is omitted.

Note that the present invention is not limited to the above embodiments and can be implemented in various modifications.

110: guide rail 130: slider
140: vertical member 150: panel frame
160: rotating shaft 170: circular member
172: circular portion 174: end of the circular member

Claims (3)

A guide rail 110 horizontally installed on the ground or a support structure having a predetermined height and extending in a lengthwise direction;
A slider 130 slidably coupled along the guide rail 110 and movable in the longitudinal direction along the guide rail 110;
A vertical member 140 fixed to the upper portion of the slider 130;
A panel frame 150 to which the solar panel 2 is fixed to be parallel to the solar panel 2;
A rotation shaft 160 installed between the lower center of the panel frame 150 and the upper end of the vertical member 140 to rotate the panel frame 150 with respect to the vertical member 140;
An arc having a circular arc portion 172 formed with a radius of curvature centered on the pivot shaft 160, and both ends 174 and 174 having the same distance from the pivot shaft 160 are fixed to the panel frame 150 Member 170; And
While the panel frame 150 is rotated at a certain angle around the rotation axis 160 to change the angle, the circular frame 170 is fixed to the vertical member 140 to change the angle of the panel frame. It includes a fixing unit for fixing the position of (150),
The guide rail 110 extends along the longitudinal direction of the front and rear, while a pair of left and right side walls 112 and 112, an upper wall 114 and a lower wall 116, and the guide rail 110. A pair of side guide grooves 1122 and 1122 formed on the pair of side walls 112 and 112 over the entire length, and an upper guide formed on the upper wall 114 over the entire length of the guide rail 110 It includes a groove 1142, the slider 130 is a pair of sliding projections (1322) are guided by being inserted into the upper plate portion and the pair of side guide grooves (1122, 1222) to which the vertical member 140 is coupled, 1322) integrally formed with a pair of side plate parts, the front, rear, and lower sides of the sliding member 132 and the sliding member 132 rotatably supported on both side walls and the upper portion of the guide rail 110 It includes a rotating wheel 134 that rotates rolling along the wall surface, the The positive unit includes a plurality of angle adjusting holes 181 formed along the arc direction in the arc portion 172, and the angle in a state in which the arc member 170 is rotated at a certain angle integrally with the panel frame 150. With the fastening hole 182 formed in the vertical member 140 to be matched with one of the adjustment holes 181, and one of the angle adjustment holes 181 and the fastening hole 182 are matched A photovoltaic panel support device of a photovoltaic power generation facility comprising a fastener 183 that passes through the angle adjustment hole 181 and is fastened to the fastening hole 182. delete The method according to claim 1, wherein the vertical member 140 is a lower vertical portion 141 connected to the slider 130, the upper vertical portion 142, the rotation shaft 160 is installed, and the rotation shaft 160 of the A tilt rotation axis 143 having an axis that is not parallel to an axis and rotatably connecting the lower vertical portion 141 to the upper vertical portion 142, wherein the solar panel supporting device includes the guide rail 110 ), A pair of left and right auxiliary guide rails 110 ', 110' symmetrically arranged on both sides of the left and right sides, and the pair is slidably coupled along the pair of auxiliary guide rails 110 ', 110' A pair of auxiliary sliders (130 ', 130') movable in the longitudinal direction along the auxiliary guide rails (110, 110 '), coupled to the upper portion of the pair of auxiliary sliders (130', 130 ') and at the top The support frame 143 'is separated from the panel frame 150, and the panel frame 150 It includes a pair of auxiliary vertical members (140 ', 140'), the auxiliary vertical member (140 ') is connected to the auxiliary slider (130'), the lower bar (141 ') and the lower bar ( 141 '), the height of the solar panel of the solar power facility, characterized in that it comprises a top bar (142') formed with a support (143 ') for supporting the panel frame 150 in a separated state at the top Optical panel support device.

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