KR20160144628A - Sun Tracker with a Single Axis - Google Patents

Abstract

The present invention relates to a bearing separated sunlight short tracker.
The present invention relates to a method of manufacturing a solar module, which comprises a plurality of posts (100), a rotary shaft (200) coupled to the upper ends of the posts, and a rotary shaft for fixing the module frame And a rotary shaft fixing part 300 for rotatably and detachably coupling the rotary shaft 200 to upper ends of the posts 100,
The rotary shaft fixing part 300 includes a horizontal bracket 320 having a bottom surface coupled to an upper end of the post and a bolt hole formed in an outer corner of the horizontal bracket 320 and an upper surface of the horizontal bracket, An upper bearing 360 formed with a half-circle slide groove 342 so as to correspond to the lower bearing and a semi-circular slide groove 362 opened downward to cover the rotation shaft on the bottom surface, And a "U" -shaped locking bolt (380) which is coupled in the form of wrapping the upper bearing and has both ends thereof passed through a guide hole of the horizontal bracket and fixed by a nut.
In the present invention, the rotary shaft for fixing the module frame can be easily separated from the post, thereby ensuring ease of angle adjustment and reducing maintenance cost.

Description

{Sun Tracker with a Single Axis}

The present invention relates to a solar short-axis tracker, and more particularly, to a solar short-axis tracker, and more particularly, to a solar short- To a bearings-separated solar short tracker that allows easy rotation and disassembly and assembly.

Photovoltaic power generation is a power generation system that converts sunlight directly into electric power. Unlike existing energy sources, unlike pollution-free energy sources that do not cause greenhouse gas emission or environmental destruction, , And a related art of the photovoltaic power generation device is proposed variously.

A photovoltaic power generation apparatus includes a photovoltaic module in which sunlight is incident to produce a basic configuration of the photovoltaic power generation device, a modular frame for fixing a plurality of the photovoltaic modules on a surface thereof, a post for inclining the module frame, And a rotation axis for fixing the module frame to rotate with respect to the post so that the module frame can have a rotation angle about the rotation axis.

In addition, there has been proposed a tracking device that rotates the module frame relative to the post so that the sunlight can always be incident upon the movement of the sunlight. The module frame rotates along the direction of the sunlight while the sunlight is moving, .

As described above, a number of techniques have been proposed to enable incident light while tracking sunlight. For example, Korean Unexamined Patent Application No. 10-1202059 has been proposed as a short-axis variable solar power generation device.

The uniaxillary variable solar photovoltaic device according to claim 1, wherein the solar cell device comprises a solar cell plate that generates electricity by incident sunlight and is arranged in a longitudinal direction and is parallel to the solar cell device, An auxiliary frame arranged laterally parallel to each other; A main frame supporting a lower portion of the subframe and formed in parallel with the solar panel and forming a plane parallel to the solar panel; A main shaft rotatably mounted on the main frame, a main shaft rotatably mounted on the main frame, The support post supporting the rotation center shaft with a main bracket formed at an upper portion thereof and the lower portion being fixed to a ground or a structure; The main bracket being fixed to an upper end of the support post and holding the rotation center shaft; And fixing means for fixing the main frame and the rotary shaft combined body so as not to rotate when the solar battery board has a certain angle with the support post.

According to the present invention, when the angle of the sun's altitude difference is significant such as summer and winter, and the angle of the solar panel to the sun needs to be adjusted, the angle of the solar panel can be manually adjusted by the user several times a year However, there is a problem that it is difficult for the operator to adjust easily.

As another example, Korean Utility Model Registration No. 20-0453275, issued on April 22, 2011, discloses a tracker device for a variable power photovoltaic power generation system.

The connecting member includes: a connecting member provided at an upper end; a column body having a fixing base extended horizontally and installed vertically to the ground; a rotating shaft axially rotatably installed on the connecting member; A module frame configured to be installed immediately; A solar unit having a solar panel fixed between the installation bars and converting solar energy into electric energy, and a solar unit having a solar cell unit, And an angle adjusting member.

In this case, the angle of the module frame is adjusted by rotating the first angle-regulating member on the ground. Thus, it is difficult to adjust the angle and angle of the work by interlocking through the plurality of members.

As another example, Korean Patent Registration No. 10-1322965 discloses an apparatus for adjusting the angle of a solar collector plate.

This includes a solar condensing plate on which a plurality of solar cells are arranged; A fixed frame installed at a lower portion of the solar collector plate; A fixing plate provided at the rear center of the fixed frame; An angle regulating plate provided at a front center of the fixed frame and having a plurality of fixing grooves formed in a round portion formed at a lower portion thereof; A supporter having an upper portion inserted between the fixing plate and the angle adjusting plate and fixed by a hinge, A lifting and lowering means for lifting and lowering the lower portion of the base supporting portion, and a lifting and lowering means for selectively moving the upper and lower portions of the lifting and lowering means, respectively; And an angle adjusting means connected to the lower portion of the other side of the fixed frame and the lower portion of the supporting frame in an inclined manner to adjust the rotation angle of the fixed frame.

In such a case, there is a problem in that it is difficult to adjust the angle in the same way as well as an economic cost due to an increase in the number of parts.

Korea Patent Registration No. 10-0886971 Notification Mar. 09, 2009 Korea Patent Registration No. 10-1202059 Notification Nov. 15, 2012 Korea Utility Model Registration No. 20-0453275 Notification Date April 22, 2011 Korea Patent Registration No. 10-1322965 Notice Date October 28, 2013 Korean Patent Registration No. 10-0868916 Published Date Sep. 17, 2008

Accordingly, the present invention has been made to solve the above problems

SUMMARY OF THE INVENTION [0006]

first; So that the rotary shaft for rotating the module frame for solar power generation can be stably fixed and rotated at the upper end of the post through the bearing coupling with respect to the upper end of the post placed on the ground.

second; The rotary shaft for fixing the module frame can be easily separated from the upper end of the post, thereby facilitating installation and replacement.

That is, the bearings for coupling the rotation shafts are separated so that the rotation shafts for coupling the plurality of sunlight frames through the bearings can be easily separated from the posts.

According to an aspect of the present invention,

And a plurality of photovoltaic modules mounted on the upper surface of the frame, wherein the plurality of photovoltaic modules are horizontally or vertically coupled to the rotary shaft, A module frame arranged in the longitudinal direction, and a rotary part for rotating the rotary shaft to change the rotation angle of the module frame,

And a rotation axis fixing unit for rotatably and releasably coupling the rotation axis to the upper ends of the posts, respectively;

The rotation-

A lower bearing coupled integrally to an upper surface of the horizontal bracket and having a semi-circular slide groove formed therein so that the rotary shaft is slidably inserted into the upper bracket, a horizontal bracket coupled to an upper end of the post and having a bolt hole at an outer corner thereof, An upper bearing disposed in correspondence with the lower bearing and having a semicircular slide groove opened downwardly to surround the rotating shaft on a bottom surface thereof and an upper bearing coupled to the upper bearing in such a manner as to surround the upper bearing, Quot; U "-shaped locking bolts.

A pair of locking protrusions may be formed on the outer surface of the upper bearing so that the bent arcuate portion of the locking bolt may not be detached from the outer bearing. Both side surfaces of the lower bearing may have both upright surfaces The guide member may be formed to protrude.

Further, a guide rail groove may be formed in the slide groove, and a plurality of balls may be inserted into the guide rail groove so that rotation can be smoothly performed.

The present invention is advantageous in that the rotary shaft for rotating the module frame for solar power generation with respect to the upper end of the post placed on the ground can be stably fixed and rotated at the upper end of the post through the bearing coupling, And can be easily separated from the upper end of the post, thereby facilitating installation and replacement.

In addition, there is an advantage that the angle of the module frame can be easily and stably adjusted as the rotation of the module frame arranged for the solar power generation is rotated through the rotating shaft coupled with the bearing as well as the cost reduction effect by minimizing the component parts.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing a configuration of a bearing separated single axis photovoltaic tracker according to the present invention;
Fig. 2 is an operational state diagram of Fig. 1,
FIG. 3 is an exploded perspective view of FIG. 1,
4 is a side view of the coupled state of Fig. 3,
Fig. 5 is a front view of the joining state of Fig. 3,
Fig. 6 is an external perspective view of Fig. 1,
FIG. 7 is a perspective view of the used state in the state where the tracker of FIG. 6 is installed;
FIG. 8 is a perspective view of another embodiment showing the coupling process of the rotating shaft and the lower bearing in FIG. 1; FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention. do.

The present invention relates to a bearing separated single axis tracker.

1 to 7, a plurality of posts 100 installed vertically and horizontally on the ground, a plurality of posts 100 arranged in a transverse direction or a longitudinal direction through a plurality of upper ends of the posts 100, A rotary shaft fixing part 300 for detachably coupling the rotary shaft 200 to the upper end of the post 100 and a module frame 300 coupled to the rotary shaft 200 and rotated together with the rotary shaft 200, And a rotary unit 500 for rotating the rotary shaft 200 so that the module frame 400 is rotated.

The post 100 is fixed to a base structure having a bottom end fixed to the ground, and is installed in a plurality of vertical and horizontal directions.

The rotary shaft 200 is equidistantly disposed in a horizontal or vertical direction with respect to the upper end of the post in a solid or hollow form having a circular cross section.

In other words, one rotary shaft 200 is raised and positioned relative to at least one upper end of the post 100.

The rotation shaft fixing part 300 is configured such that the rotation shaft 200 is rotatably and detachably coupled to the upper end of the post 100. Also, the rotation shaft fixing part 300 can be fixed to the upper end of the post 100 in a state in which the rotation shaft fixing part 300 is adjusted in height through coupling engagement.

In other words, the rotary shaft fixing part 300 is coupled to the rotary shaft 200 located at the upper ends of the posts 100 so as to be able to rotate, separate, and adjust the height thereof. A horizontal bracket 320 coupled to an upper end of the horizontal bracket 320 and formed with a bolt hole at an outer corner thereof and a semicircular slide groove 342 formed integrally with the upper surface of the horizontal bracket 320, An upper bearing 360 which is positioned in correspondence with the lower bearing 340 and has a semicircular slide groove 362 opened downward to surround the rotary shaft 200 on a bottom surface thereof, And a U-shaped locking bolt 380 which is coupled to the upper bearing 360 so as to surround the upper bearing 360 and has both ends thereof passed through the bolt holes of the horizontal bracket 320 and fixed to the nuts 382.

A pair of locking protrusions 364 and 365 are protruded from the outer surface of the upper bearing 360 so that the bent arcuate portion of the locking bolt 380 is not released. Guide members 344 and 345 having both upright surfaces are protruded to guide the linear portion of the lock bolt 380 to the side surface.

Here, a guide rail groove is formed around the slide grooves 342 and 362, and a plurality of balls are inserted into the guide rail groove, so that the rotation shaft 200 is slidably supported (see FIG. 8). )

The module frame 400 has a plate-like structure, and a plurality of solar modules for generating solar power are arranged on the surface in the horizontal and vertical directions.

The rotary unit 500 rotates the rotary shaft 200 to change the rotation angle of the module frame 400.

The rotary unit 500 includes a rotary bar 510 having an upper end fixed to the rotary shaft 200, an angle adjusting bar 520 horizontal to the ground and fixing the lower end of the rotary bar 510, And a forward / backward driving unit 530 connected to an end of the angle adjusting bar 520 to forward / backward the angle adjusting bar 520 through a driving force.

Hereinafter, an installation process and a use state of the separated type single axis solar tracker according to the present invention will be described with reference to the accompanying drawings.

During installation,

As shown in Fig. 1, a plurality of posts 100 are installed standing on the base structure of the paper. At this time, as shown in FIG. 7, they may be arranged in the horizontal or vertical direction. The rotary shaft 200 may be placed on the upper surface slide groove 342 of the lower bearing 340 provided at the upper end of the post 100 and constituting the rotary shaft fixing part 300 and the upper bearing 360 may be coupled to each other. At this time, the rotary shaft 200 is fixed in the form of wrapping the upper and lower bearings 340 and 360, and the rotation shaft 200 is rotated by friction with the slide grooves 342 and 362, . When the module frame 400 and the rotary unit 500 are connected to the rotary shaft 200, the installation is completed.

When adjusting the angle,

When the rotary part 500 operates according to the signal value of the control part, the arranged rotary shafts 200 are simultaneously rotated, and the rotation angle of the module frame 400 is adjusted.

During the replacement operation,

When the locking bolt 380 coupled to the upper end of the post 100 is separated from the post 100 and then the upper bearing 360 is lifted and the rotary shaft 200 is lifted in succession, The rotary shaft 200 is placed on the slide groove 342 of the lower bearing 340 and then the upper bearing 360 is engaged and the lock bolts 380 are continuously engaged.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: Post
200:
300:
320: horizontal bracket 340: lower bearing
342: slide groove 344, 345: guide member
360: upper bearing 362: slide groove
364, 365: Locking projection 380: Locking bolt
382: Nuts
400: Module frame
500:

Claims (4)

And a plurality of photovoltaic modules mounted on the upper surface of the frame, wherein the plurality of photovoltaic modules are horizontally or vertically coupled to the rotary shaft, A module frame arranged in the longitudinal direction, and a rotary part for rotating the rotary shaft to change the rotation angle of the module frame,
And a rotation axis fixing unit for rotatably and releasably coupling the rotation axis to the upper ends of the posts, respectively;
The rotation-
A horizontal bracket having a bottom surface coupled to an upper end of the post and a bolt hole formed in an outer corner,
A lower bearing integrally coupled to an upper surface of the horizontal bracket and formed with a semicircular slide groove for slidingly inserting the rotary shaft on an upper surface thereof,
An upper bearing disposed in correspondence with the lower bearing and having a semicircular slide groove opened downwardly to surround the rotating shaft on a bottom surface thereof,
And a "U" -shaped locking bolt coupled to the upper bearing to surround the upper bearing and having both ends thereof passed through a guide hole of the horizontal bracket and fixed with a nut.
The method according to claim 1,
A pair of locking protrusions protruding from the outer surface of the upper bearing so as to prevent the bent arcuate portion of the locking bolt from being detached,
Wherein a guide member having both upright surfaces is protruded and formed on both sides of the lower bearing so as to guide straight portions of the lock bolts.
The method according to claim 1,
Wherein a guide rail groove is formed in the slide groove and a plurality of balls are inserted into the guide rail groove.
The method according to claim 1,
Wherein the rotary shaft fixing part is fixed to the post with the height adjustment through the coupling engagement.

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