KR100858916B1 - A solar energy tracker - Google Patents

Abstract

A solar energy tracker is provided to receive stably incident light by using a length control member for controlling a module frame. A module frame(110) includes a plurality of solar modules(112). A hinge frame(120) includes supporting sections(123) coupled with a bottom surface of the module frame, a supporting member(125) formed at a bottom surface of the module frame, an insertion groove coupled with the supporting member, and a rotary shaft(122) connected to a center part between the supporting sections. A shaft fixing bracket includes a shaft insertion groove and an open space. A shaft coupling cover includes a shaft coupling groove in order to be coupled with the shaft fixing bracket. A pair of leg members(150,151) are inserted into the open space and are rotated through a hinge pin. A pair of les fixing brackets(160,161) have upper open grooves to be coupled with a hinge pin(163). A length control member(170) is selectively fixed by using a locking lever(172). Both ends of the rotary shaft are coupled with bearings. The insertion groove has a rectangular groove. Coupling grooves are formed at upper and lower holders.

Description

Inclined Variable Solar Tracker {A solar energy tracker}

The present invention relates to a solar tracker, and more particularly, to adjust the angle so that the sunlight is incident vertically to the position where the sunlight is incident, and at the same time the inclined surface having a horizontal plane or inclination of the module frame for incident sunlight The present invention relates to an inclined variable solar tracker that enables an operator to easily perform installation and maintenance work on a back.

Generally, photovoltaic power generation is a power generation method that converts sunlight directly into electric power by solar cells. Unlike conventional energy sources, solar power generation is a pollution-free energy source that does not cause greenhouse gas emission or environmental destruction factors. It is a situation that is emerging, and a variety of related technologies are released.

The above-described photovoltaic device includes a photovoltaic module that receives solar light so that its basic configuration produces power, a module frame for fixing a plurality of the photovoltaic modules on the surface, and rotates the module frame to move the photovoltaic movement. Therefore, it is composed of a tracking device that can always be incident to the sunlight, so that the module frame rotates in accordance with the solar movement direction when the solar movement is incident to the sunlight.

In the above-described configuration, a power generating device for generating solar light by fixing a solar module, and a tracking device for injecting sunlight while rotating or moving in accordance with a solar light moving direction, have been released and used in various ways.

For example, Utility Model Registration No. 20-0413647, "Solar Tracking Device", Utility Model Registration No. 20-0426018, "Solar Power Generator", Patent Registration No. 10-0715040, "Solar Power Generator", Patent Registration No. 10-0151562, "Solar Tracking Device," and Patent Registration No. 10-0754078, "Tracking Solar Collector Assemblies and Fixtures," and the like are proposed.

However, the above photovoltaic power generation or tracking device is configured to rotate the module frame through an actuator or the like while the structure of the module frame is fixed through a plurality of brackets. Since the brackets are coarse, there is a problem that the operator cannot easily install.

That is, the conventional solar tracking device, there is a problem that can not mass-produce the parts by taking the structure of assembling the bracket so that the sunlight can be tracked at the position to be installed, and also by a plurality of brackets As installed, there was a difficult problem of installation work or maintenance of the worker.

Thus, the present invention was devised to solve the above problems, an object of the present invention is to easily adjust the angle so that the module frame can be incident to the sunlight in a vertical state, and the solar structure is easily installed and The maintenance work is to facilitate the work.

In addition, the module frame can be easily installed in a plurality of horizontal plane or inclined curved surface.

In order to achieve the above object, the present invention provides a solar tracker for fixing a plurality of solar modules coupled module frame in the solar direction, both support pieces and the upper side is in close contact with the bottom of the module frame and the A hinge frame having an insertion groove for fitting and fixing a support member provided on the bottom surface of the module frame to both ends of the support piece, and a rotating shaft connecting the intermediate portion between the support pieces; A shaft fixing bracket having a semicircular shaft insertion groove formed on an upper surface thereof so as to receive the rotating shaft, and a downward opening space formed on a lower surface thereof in a direction orthogonal to the shaft insertion groove; A shaft coupling cover having a semicircular shaft coupling groove formed to cover the rotary shaft settled in the shaft insertion groove and coupled to the shaft fixing bracket; A pair of leg members having an upper end inserted into the downward open space of the shaft fixing bracket and rotatably coupled through a hinge pin; A pair of leg fixing brackets coupled to the ground and having upward opening grooves formed at lower ends of the leg members to be rotatably coupled with hinge pins; One end is hinged to the leg member through a hinge pin and the other end is hinged to the hinge frame through a hinge pin, the middle portion is extended in the antenna type to selectively secure the lock lever; comprises a.

Here, the bearing is coupled to both ends of the rotary shaft to be rotatably coupled to both support pieces of the hinge frame.

And, the support member coupled to the bottom of the module frame is to be made of a square pipe, the insertion groove formed to be opened upwardly on both ends of the support piece is made of a square groove to be inserted into the square groove and the support member is inserted and fixed. desirable.

Therefore, the tiltable solar tracker according to the present invention has an effect of stably injecting sunlight according to the adjustment of the length adjusting member of the module frame, and also the shaft of the worker when the module frame is damaged or partially replaced. By disassembling the coupling member can be easily separated and coupled to the module frame has the effect that the work of installation and maintenance can be easily made.

In other words, there is an effect that can be used to easily combine and fix the module frame on which the solar module is arranged through the rotating shaft and the shaft fixing bracket and shaft coupling cover for fixing it.

Hereinafter, preferred embodiments of the variable tilt solar tracker according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known techniques and the like are considered to be obscure the subject matter of the present invention. Detailed description will be omitted.

The present invention relates to a solar tracker that allows the module frame to which a plurality of solar modules are coupled can be adjusted at an angle at which sunlight can be stably incident.

1 to 6, the module frame 110 provided with the solar module 112, the hinge frame 120 coupled to the module frame 110, and the hinge frame 120 are provided. A shaft fixing bracket (130) for supporting the rotating shaft (122) provided on the cover), a shaft coupling cover (140) for covering the rotating shaft (122) seated on the shaft fixing bracket (130) to be prevented from being separated, and Leg member 150 for supporting the shaft fixing bracket 130, leg fixing bracket 160 for hinge fixing the leg member 150 to the ground, and the length adjusting member for rotating the module frame 110 And 170.

The solar module 112, also known as a solar panel, is applied to convert solar light incident on a surface into electrical energy.

The module frame 110 is for fixing the photovoltaic module 112, and a plurality of photovoltaic modules 112 are coupled to the upper surface of the plate-shaped frame or the edge of the photovoltaic module 112 It is to fix mainly to form a rectangle, which is to convert the solar light incident from the photovoltaic module 112 into electrical energy. And the support member 125 is provided in the bottom surface.

The hinge frame 120, the support shaft 123, 124 is in close contact with the bottom surface of the module frame 110 and the rotating shaft 122 is in the middle portion between the support pieces 123, 124 Both ends are fixedly fixed to both support pieces 123 and 124 in the width direction.

Here, it is preferable that both ends of the rotating shaft 122 is rotatably coupled to both support pieces 123 and 124 through bearings.

In addition, an insertion groove 126 having a rectangular groove shape formed to open upwardly at both ends of the support pieces 123 and 124 of the hinge frame 120 is formed, and the support member made of a square pipe in the insertion groove 126. 125 is inserted and fixed so that an upper surface thereof is coupled and fixed to a bottom surface of the module frame 110.

The upper and lower holders 180, 182, and 184, which are formed in a pair of upper and lower portions, are inserted into the insertion grooves 126, and wing pieces 182a and 184a provided at both sides thereof are fastened and fixed by the fasteners 186. Coupling grooves 182b and 184b are formed on the corresponding surfaces of the upper and lower holders 182 and 184 so that the support member 125 is inserted and wrapped.

The upper and lower holders 182 and 184 may be coupled to surround the corresponding ends of the support member 125 and are applied to a portion to which the corresponding ends of the support members 125 are connected.

The shaft fixing bracket 130 has a semi-circular shaft insertion groove 132 is formed so that the rotation shaft 122 is placed on the upper surface, and both blade pieces 135 around the shaft insertion groove 132 Is formed. In addition, a bottom open space 134 is formed at both bottoms thereof by both support pieces in a direction perpendicular to the shaft insertion groove 132.

The shaft coupling cover 140 has a semi-circular shaft coupling groove 142 is formed to cover the rotary shaft 122 is placed on the shaft insertion groove 132, the center of the shaft coupling groove 142 The wing pieces 145 are formed on both sides thereof, and are coupled to the wing pieces 135 and the fastener of the shaft fixing bracket 130.

The leg members 150 and 151 are provided symmetrically in pairs, and each upper end is inserted into both sides of the downward opening space 134 of the shaft fixing bracket 130 to be rotatable through the hinge pin 153. Combined.

The leg fixing brackets (160, 161), the bottom surface is coupled to the foundation structure of the ground, the upper surface is formed with an upward opening groove 164 open upward, the opening groove 164, the leg member 150 Lower ends of the 151 are inserted and rotatably coupled to the hinge pins 163.

The length adjusting member 170, one end is hinged to the leg member 150, 151 through a hinge pin and the other end is hinged through the hinge pin to the hinge frame 120 or the module frame 110. And the middle portion is deployed in the antenna type is selectively fixed to the lock lever 172.

That is, the length adjusting member 170, the upper end is hinged to the bottom surface of the hinge frame 120 or the module frame 110 and the small diameter bar 174, the small diameter bar 174 is wrapped around the slide coupling A large diameter bar 176 hinged to one of the leg members 150 and 151 and a lower end thereof are coupled to the large diameter bar 176 to lock the small diameter bar 174. )

7 is another example of the hinge frame according to the present invention, wherein the hinge frame 120a is composed of support pieces 123a and 124a divided into two pairs of the support pieces and bent inwardly at both ends thereof. Bent pieces 128a are formed symmetrically and are provided on both upper and lower holders 180, 182, and 184 through bolt holes 129a formed in the bent pieces 128a, respectively. 184a is fastened and fastened by the fastener 186.

In addition, the support member 125 is inserted into and fixed to the coupling grooves 182b and 184b formed on the corresponding surfaces of the upper and lower holders 182 and 184.

Here, the bending piece 128a may be directly fixed to the bottom of the support member 125 constituting the module frame.

In addition, the support pieces 123a and 124a are divided into two sides in order to adjust the width corresponding to the size of the shaft fixing bracket 130.

The tiltable solar tracker configured as described above, when assembled, the hinge frame 120 is coupled to the module frame 110 as shown in Figs. 2 to 4, and the leg fixing bracket to the base structure to be installed After fixing the lower end of the 160 and 161, the shaft fixing bracket 130 is coupled to the leg members 150 and 151. Then, as shown in FIG. 2 or FIG. 4, the rotating shaft 122 positioned in the hinge frame 120 is placed on the shaft insertion groove 132 of the shaft fixing bracket 130 and the shaft coupling cover 140 is continuously formed. After assembling the rotary shaft 122 to combine them with fasteners, the assembly is completed. Then, as shown in FIG. 6, when the length adjusting member 170 is coupled, the assembly is completed in an adjustable state.

In operation, as shown in FIG. 1 or FIG. 6, the lock lever 172 provided to the length adjusting member 170 is released and then the small diameter bar 174 and the large diameter bar 176 are extended or reduced. When the light is set at a position where it is incident vertically, and then the locking lever 172 is locked, sunlight can be incident in an optimized state.

1 is a side view of an installation state of the tilt variable solar tracker according to the present invention,

Figure 2 is a perspective view of the main portion separated to show the state to rotate the module frame in Figure 1,

Figure 3 is a perspective view showing a coupling state of the shaft fixing bracket and the shaft coupling cover for coupling the rotating shaft in Figure 1 or 2,

4 is an exploded perspective view of FIG. 3;

5 is a state diagram used in FIG.

6 is a bottom perspective view of FIG. 1 or 5;

7 is another embodiment of the hinge frame in FIG.

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

110: module frame 112: solar module

120: hinge frame 122: rotation axis

123, 124: support piece 125: support member

126: insertion groove

130: shaft fixing bracket 132: shaft insertion groove

134: open space 135: wing

140: shaft coupling cover 142: shaft coupling groove

145: wing

150,151: leg member 153: hinge pin

160,161: Leg fixing bracket 163: Hinge pin

164: open groove

170: length adjusting member

180: holder

Claims (4)

In the solar tracker for fixing the module frame 110 coupled to a plurality of solar modules 112 in the solar direction, both support pieces 123 that the upper side is in close contact with the bottom of the module frame 110. 124 and the insertion groove 126 for fitting and fixing the support member 125 provided on the bottom surface of the module frame 110 to both ends of the support piece, and a rotating shaft connecting the intermediate portion between the support piece ( A hinge frame 120 having 122; A shaft fixing bracket 130 having a semi-circular shaft insertion groove 132 is formed on the upper surface so that the rotating shaft 122 is settled, the downward opening space 134 is formed in a direction orthogonal to the shaft insertion groove 132 on the bottom surface. ); A shaft coupling cover 140 having a semicircular shaft coupling groove 142 formed to cover the rotation shaft 122 placed in the shaft insertion groove 132 and coupled to the shaft fixing bracket 130; A pair of leg members 150 and 151 having an upper end inserted into the downward open space 134 of the shaft fixing bracket 130 and rotatably coupled through the hinge pin 153; A pair of leg fixing brackets 160 and 161 coupled to the ground and having upward opening grooves formed at lower ends of the leg members 150 and 151 to be rotatably coupled to the hinge pins 163; One end is hinged to the leg member via a hinge pin and the other end is hinged to the hinge frame through a hinge pin, and the middle portion includes a length adjusting member 170 which is fixed to the locking lever 172 is deployed in the antenna type. To; Bearings are coupled to both ends of the rotary shaft (122) such that they are rotatably coupled to both support pieces (123) (124) of the hinge frame (120); Insertion grooves (126) formed at both ends of the support pieces (123) (124) in the hinge frame (120), so as to be made of a square groove open upward; The support member 125 is inserted into and fixed in the insertion groove 126, the upper surface is made of a square pipe for holding and supporting the bottom surface of the module frame 110, the upper and lower holders in the insertion groove 126 It is inserted so that both wing pieces are fastened by the fastener, but the coupling groove (182b) (184b) is formed so that the support member (125) is inserted and wrapped on the corresponding surface of the upper and lower holders (182) (184); The support pieces 123 and 124 constituting the hinge frame 120 are divided into two sides, and a plurality of bending pieces inwardly bent inward are symmetrically formed and bolt holes are formed in the bending pieces. Slope variable solar tracker characterized in that the fasteners coupled to the wing piece of the upper and lower holders (182) (184) is passed through and fixed. delete delete delete

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