KR101708854B1 - Supporting structure of tilt angle variable type photovoltaic device - Google Patents

Abstract

The present invention relates to a supporting structure of a tilt angle variable photovoltaic device. The present invention includes three supporting pillars (20), an angle control member (30) to be installed between a first supporting pillar (21) and a module frame (10), and a supporting bar (40) to be installed between a second supporting pillar (22) and the module frame (10). Therefore, a photovoltaic module is supported through the supporting bar, so damage to the angle control member can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a support structure of a tilt-angle type photovoltaic device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a support structure for an inclined variable photovoltaic power generation apparatus, and more particularly, to a supporting structure for a tilting variable type solar power generation apparatus in which sunlight can be vertically incident .

In general, photovoltaic power generation is a power generation system that converts sunlight directly into electricity by solar cells. Unlike conventional energy sources, it is a pollution-free energy source that does not cause greenhouse gas emission or environmental destruction. And a variety of related technologies are being released.

The above solar photovoltaic power generation apparatus includes a solar photovoltaic module in which sunlight is incident so that its basic configuration produces electric power, a module frame in which a plurality of solar photovoltaic modules are arranged and fixed on the surface, And a tracking device for always allowing the sunlight to enter in accordance with the movement of the sunlight. The module frame rotates in accordance with the moving direction of sunlight when the sunlight moves.

Among the above-described structures, a tracking device that allows sunlight to be incident on a rotating or moving object in accordance with the moving direction of the sunlight is currently being used in various ways.

On the other hand, as a method for adjusting the angle of a solar module of a photovoltaic power generation apparatus, it is classified into an automatic trekking system using an actuator and the like, a fixed gradient variable system, and a fixed system.

In the automatic trekking system, the maintenance cost of the power plant is excessively spent against the power generation efficiency due to frequent malfunctions and troubles of the mechanical device, the electric device, and the control device, and the initial installation cost is increased, The trend is shifting to an inclined variable system.

As an automatic trekking system, there are a utility model registration No. 20-0413647 "solar tracking device", a utility model registration No. 20-0426018 "photovoltaic power generation device", a patent registration No. 10-0715040 "photovoltaic power generation device" .

The fixed ramp type system is usually classified as a two-post system (consisting of two main posts (posts) and one rotor) and a three-post system. The three-post system is more stable than the two- to be.

A structure for adjusting the angle of a solar module in a fixed ramp type system, comprising: a plate having a hole perforated in the post or a hole in the post; and an angle adjusting bar having a plurality of holes formed between the plate or the post and the module frame And the angle of the solar module is adjusted according to the hole fixing position of the angle adjusting bar.

As a fixed gradient variable system, Patent Document No. 2009-0025724 entitled " Manual Gradient Variable Solar Cell Module Support Structure "and Patent Registration No. 20-0858916" Gradient Variable Solar Tracker "

In the fixed type variable type system, the inclination angle of the photovoltaic module is manually adjusted according to the altitude angle of the sun in the season, thereby eliminating the need for electricity, machinery, and control, which is advantageous in maintenance and low initial installation cost.

However, since the solar module is fixed by the angle adjusting bar, when adjusting the inclination angle of the solar module by the season, two to three people need to adjust the angle while supporting the solar module and support the heavy solar module There is a possibility of a safety accident.

In addition, there is a risk of injuring an operator when sudden wind or blast occurs during the operation of adjusting the inclination angle, and serious damage may occur if the operator can not support the solar module.

Open Patent Publication No. 2009-0025724 (2009.03.11, support structure for manual gradient variable solar cell module) Patent Registration No. 20-0858916 (September 10, 2008, inclined variable-type solar optical tracker) Registration Utility Model No. 20-0413647 (April 04, 2006, Photovoltaic Tracking Apparatus) Registration Utility Model No. 20-0426018 (2006.09.02, Photovoltaic power generation device)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a solar module capable of easily constructing a structure, And a support structure of the power generation device.

Further, in the present invention, the angle adjustment member is provided on the support column located at the center among the three support columns, and the support bar is provided on the support columns on both sides so that the angle adjustment by the angle adjustment member and the support by the support bar are performed after the angle adjustment And to provide a support structure for an inclined variable photovoltaic power generation apparatus.

The structure of the present invention for achieving the above object is provided between a module frame 10 to which a solar module 15 is coupled and a support column 20 vertically installed on the ground to adjust the angle of the module frame 10 The supporting structure of the solar cell module according to claim 1, wherein the supporting column (20) is provided with three supporting columns (20), a first support column (21) An angle adjusting member 30 is installed between the module frame 10 and the module frame 10 to directly and indirectly connect the module frame 10 and the support column 20 to adjust the angle of the module frame through the length adjustment, Between the module frame 10 and the second supporting columns 22 provided on both sides of the first supporting columns 21 of the first module 20, And is detachably attached to the support column The angle adjusting member 30 is hinged to the support pillar 20 at one end and has a first thread 31a at the other end inner circumferential surface, A second connecting rod 32 having one end hinged to the module frame 10 and a second thread 32a formed on the inner circumferential surface of the other end and a second connecting rod 32 having right and left threads on both outer circumferential surfaces A screw bolt 33 formed to be spirally coupled to the first screw thread 31a and the second screw thread 32a and a screw bolt 33 screwed to the first screw joint 32 And the other end of the second connecting rod 32 is inserted into the screw bolt 33. The screw bolt 33 is gear-connected to the center of the screw bolt 33 and is driven by the rotating means 36, So that the first connecting rod 31 and the second connecting rod 32 are drawn into the housing or drawn out from the housing And a driver unit (35).

According to the support structure of the inclined variable solar power generation apparatus having the above-described structure, since the construction is simple, the installation cost and the maintenance cost are reduced, and since the angle is adjusted while supporting the solar module, The angle adjustment operation of the optical module can be performed and the angle adjustment operation can be performed within a short time as compared with the conventional inclination variable type system.

Further, angle adjustment members are provided on the support posts located at the center of the three support posts, and support bars are provided on the support posts on both sides, so that the angle adjustment of the solar module by the angle adjustment member is easily performed, It is possible to prevent the breakage and damage of the angle adjusting member by supporting the solar module through the support bar.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an installation view of a support structure of an inclined variable photovoltaic power generation apparatus according to the present invention;
FIG. 2 is a perspective view of an angle adjusting member in a support structure of an inclined variable solar power generation apparatus according to the present invention,
Fig. 3 is a sectional view of Fig. 2,
FIG. 4 is an explanatory view showing a state in which a screw bolt and a driving unit are engaged with each other in a support structure of the inclined variable photovoltaic power generation apparatus according to the present invention,
FIGS. 5A and 5B are views showing a length-varying angle adjusting member according to the present invention,
FIG. 6 is a view showing a state in which the supporting bar is installed in the support structure of the inclined variable photovoltaic power generating device according to the present invention,
7A to 7D are flowcharts showing an angle adjustment process of the solar module using the support structure of the inclined variable solar power generation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

As shown in the drawings, a support structure of a tiltable variable photovoltaic power generation apparatus according to the present invention (hereinafter, referred to as a 'support structure') includes a module frame 10 to which a solar module 15 is coupled, The angle of the module frame 10 hinged to the upper end of the support column 20 is adjusted to rotate the solar module 15 and the angle of the solar module 15 after the angle is adjusted. .

The supporting structure of the present invention is characterized in that the angle adjusting member 30 is installed so that both sides of the module frame 10 and the supporting columns 20 are directly or indirectly connected to the module frame 10 and the supporting columns 20, And a support bar (40) mounted on the module frame and the support posts to support the modulated module frame,
The angle adjusting member 30 is provided to adjust the angle of the module frame through the length adjustment. The angle adjusting member 30 also serves to support the module frame as well as to adjust the angle of the module frame.

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Of course, since the support bar 40 is provided, the angle adjusting member 30 is used for adjusting the angle of the module frame, the support bar 40 supports the module frame, The angle adjusting member 30 serves to secondarily support the module frame.

A detailed structure of the angle adjusting member 30 includes a first connecting rod 31, a second connecting rod 32, a screw bolt 33, a housing 34, a driving gear 35 and a rotating means 36 .

The first link 31 is formed to have a predetermined length, and one end is hinged to the support pillar 20 and a first screw thread 31a is formed on the inner circumferential surface of the other end.

The second connecting rod 32 is formed in the same manner as the first connecting rod 31 and has one end hinged to the module frame 10 and a second thread 32a formed on the inner circumferential surface of the other end.

One end of each of the first connecting rod 31 and the second connecting rod 32 is formed with a supporting column 20 and a bracket formed with a hole to be hinged to the module frame 10.

The first screw thread 31a and the second screw thread 32a are formed on the inner circumferential surfaces of the other ends of the first connecting rod 31 and the second connecting rod 32 and are screwed to the screw bolt 33 . Since it is not easy to directly form the first thread 31a and the second thread 32a on the body of the first link 31 and the second link 32, A ring can be formed by bonding to the body.

The screw bolt 33 is coupled to both the first connecting rod 31 and the second connecting rod 32 at both sides thereof and the first screw thread of the first connecting rod 31 and the second screw thread 32 of the second connecting rod 32, And right and left threads are formed on the outer circumferential surfaces on both sides, respectively.

The housing 34 is a hollow tube having a predetermined length and is provided with the screw bolt 33 in its longitudinal direction and the other ends of the first connecting rod 31 and the second connecting rod 32 are inserted .

The drive gear unit 35 is installed to be meshed with the center of the screw bolt 33 and is driven by the rotating unit 36 to rotate the screw bolt 33 in the forward and reverse directions. By driving the driving gear 35, the first linkage 31 and the second linkage 32 are drawn into the housing or drawn out of the housing.

It is preferable that the gears of the drive unit 35 and the screw bolt 33 are coupled in a worm gear system for accurate power transmission.

In order to engage with the worm gear mechanism, the drive gear unit 35 is installed in a direction orthogonal to the screw bolt 33, and a driving gear 35a is formed on the outer circumferential surface at a constant pitch. A driven gear 33a is formed on the outer peripheral surface of the central portion of the screw bolt 33 so as to be gear-engaged with the driven gear 35a.

The angle adjusting member 30 configured as described above rotates the screw bolt 33 by rotating the drive unit 35 through normal and reverse rotation of the rotating unit 36. The screw bolt 33 is rotated The length of the angle adjusting member is varied by the first connecting rod 31 and the second connecting rod 32 which are spirally coupled to both sides of the first connecting rod 31 and the second connecting rod 32, respectively.

The length of the angle adjusting member varies, and the module frame 10 is rotated to adjust the installation angle of the solar module coupled to the module frame.

According to the present invention, the length of the first connecting rod and the second connecting rod are controlled by being inserted or drawn out to both sides of the housing, so that the length of the first connecting rod and the second connecting rod can be changed by twice the length of one rotation, thereby adjusting the angle of the solar module within a short time.

Here, the rotating means 36 may be a handle coupled to one end of the drive unit 35, or may be an electric wrench. In the accompanying drawings, the handle is constituted as a handle and the worker directly grasps the handle.

In the present invention, three support columns 20 for supporting the module frame 10 may be provided. The angle adjustment member 30 may be installed on all support columns, May be installed.

Preferably, as shown in FIG. 1, an angle adjusting member 30 is provided between the module frame 10 and the first support post 21 located at the center among the three support columns 20, A supporting bar 40 is provided between the module frame 10 and the second supporting columns 22 provided on both sides of the first supporting columns 21 of the columns 20.

When the angle adjusting member 30 is provided on all the support posts 20, the angle adjusting member also plays a role of supporting the module frame as well as adjusting the angle of the solar module through the rotation of the module frame.

1, when the support bar 40 is installed, the angle adjusting member 30 rotates the module frame to adjust the angle of the solar module, And serves to support the module frame 10 after the adjustment.

Accordingly, the operator can adjust the angle of the module frame by himself / herself, since the angle adjusting member 30 supports the module frame.

This is because the angle adjusting member 30 is likely to be damaged due to the fact that the first connecting rod 31 and the second connecting rod 32 are screwed together with the screw bolt 33 and the driving gear 35, So that the bar 40 supports the module frame to which the solar module is coupled.

At this time, the support bar 40 is formed to have a predetermined length, and after the rotation of the module frame, the support bar 40 is fixed to the second support column 22 by fixing means such as a bolt, (41).

It is preferable that the holes 41 are formed at positions corresponding to the corresponding angles so as to fix the solar modules at an angle corresponding to a predetermined angle for each season. The reason for this is that the angle of the photovoltaic module is most efficient when it is 90 ° to the incident angle, so it is usually adjusted about 4 times a year according to the season, about 37.5 ° in spring and autumn, about 14 ° in summer, So that an angle of about 61 ° can be fixed at an appropriate angle depending on the season according to the optimum angle.

At this time, one or more holes may be formed adjacent to each other in order to finely adjust the angle of the solar module in consideration of external conditions and the like during each season.

7A to 7D, in order to adjust the angle of the solar module, the fixing state of the support bar 40 fixed to the second support pillar 22 is first released do. The rotation of the module frame is prevented as the angle adjusting member 30 supports the module frame even if the support bar 40 is released.

Thereafter, when the rotating means 36 of the angle adjusting member 30 is rotated in the reverse direction, the screw 33 is rotated while the driving gear 35 is rotated. By the rotation of the screw bolt 33, The length of the angle adjusting member is shortened as the two connecting rods are drawn into the inside of the housing, and the module frame is rotated together with the connecting frame, thereby adjusting the angle of the solar module in the inclined standing position.

After the solar module is adjusted to a desired angle, the angle adjustment operation of the solar module is completed by fixing the unfixed support bar 40 to the second support column 22. [

In order to prevent breakage or damage of the angle adjusting member after the fixing operation of the supporting bar 40, the rotating unit is slightly rotated in the reverse direction to reduce the drawing length of the first connecting unit and the second connecting unit, It is desirable that the load of the module frame is not transmitted to the angle adjusting member.

The reverse rotation angle of the rotating means is such that the load of the solar module and the module frame is not transmitted to the angle adjusting member.

10: module frame 15: solar module
20: support column 21: first support column
22: second supporting column 30: angle adjusting member
31: first connecting rod 31a: first thread
32: second connecting rod 32a: second thread
33: screw bolt 33a: driven gear
34: housing 35:
35a: Spur gear 36: Rotation means
40: support bar 41: hole

Claims (3)

The present invention relates to a solar cell module and a solar cell module which are installed between a module frame 10 to which a solar module 15 is coupled and a support column 20 vertically installed on the ground to rotate the solar module by adjusting the angle of the module frame 10 In the supporting structure of the present invention,
Three support pillars (20) are provided,
Both sides of the first support posts 21 located at the center of the support posts 20 and the module frame 10 are directly or indirectly connected to the module frame 10 and the support posts 20, An angle adjusting member 30 for adjusting the angle of the frame is provided,
A module frame that is angularly adjusted by the angle adjusting member 30 is supported between the second support posts 22 provided on both sides of the first support posts 21 of the support posts 20 and the module frame 10. [ A support bar 40 of a predetermined length, which is detachably coupled to the support column by fixing means and has a plurality of holes 41 formed therein,
The angle adjusting member 30 includes a first connecting rod 31 having one end hinged to the supporting column 20 and a first thread 31a formed on the inner circumferential surface of the other end and a second connecting rod 31 having one end hinged to the module frame 10, And a second thread 32a is formed on the other end inner circumferential surface of the first screw thread 31a and the second screw thread 32a. A housing 34 in which the screw bolt 33 is installed in the longitudinal direction and the other end of the first connecting rod 31 and the second connecting rod 32 are inserted into both sides of the screw bolt 33, The screw bolt 33 is rotated in the forward and reverse directions while being driven by the rotating means 36 so that the first connecting rod 31 and the second connecting rod 32 are connected to the housing And a drive unit (35) that draws in or out of the housing A support structure of the solar-electric power generator.
delete The method according to claim 1,
The rotating means 36 is composed of a handle or an electric wrench coupled to one end of the drive unit 35,
And the holes (41) formed in the supporting bar (40) are formed at positions corresponding to the corresponding angles so as to fix the solar modules at an angle corresponding to a predetermined angle for each season Support structure.

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