KR101891072B1 - Solar light structure easy to adjust angle and construction - Google Patents

Abstract

The present invention relates to a solar light structure that can be easily adjusted in angle and is easy to construct. In particular, the present invention relates to a novel concept technology capable of improving the installation and construction of a solar light structure by maximizing the efficiency of solar power generation by adjusting the angle of the solar panel alone without difficulty according to the season. According to a conventional solar light structure, one operator is required to adjust the angle while rotating a solar panel so that it is strenuous, and the work of assembling and installing the support and the vertical bar is complicated so that the workability is reduced. To solve the problems described above, the present invention provides a technology that can allow a worker to easily rotate the solar light structure without difficulty alone, where a rotation shaft provided through a rotation bracket formed on an upper end of a vertical bar is rotatably installed in a vertical bar holder on an upper portion of a support, and a rotation point of the vertical bar is positioned above the vertical bar.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a solar light structure,

The present invention relates to a new concept technology for maximizing the efficiency of solar power generation by adjusting the angle of the solar panel independently by the seasons according to the seasons, and improving the installation and the workability of the solar power structure.

Generally, a solar cell module (hereinafter referred to as a solar panel) is an essential device for solar power generation. The solar panel is mainly used for receiving light from the sun as much as possible and converting it into electricity. A solar cell module having characteristics has been developed and used.

While the self-development of the solar panels is of course important, the cradle that supports the solar panels is also a key component that can not be overlooked in order to achieve the goal of receiving many sunrays at the same opportunity.

Without a cradle for modules ranging from small households to large-scale power generation, it is impossible to optimize the generation of electricity through solar light, as well as the proper and safe handling of modules, and the installation cost of the cradle is 10 ~ And 20%, respectively.

Such solar power generation generates maximum efficiency when the solar panel is incident at an angle of 90 degrees with the direct sunlight of the sun. As the earth rotates and revolves, the sun position observed in each region changes every day, The azimuth is repeated from east to west on the basis of 1 day, and the altitude changes repeatedly from north to south based on 365 days.

Especially in summer and winter, it is necessary to adjust the angle (or elevation angle) of the solar panel toward the sun as the altitude difference of the sun becomes remarkable. Therefore, the user can change the solar panel several times (for example, once or twice according to the season change) You are manually adjusting the angle of the solar panel one by one.

In this way, for the maximum efficiency of solar power generation, the method of controlling the angle of the solar panel can be divided into an automatic mode and a manual mode. The automatic mode is to adjust the angle of the solar panel according to the rotation of the motor, In this case, in addition to consuming the additional electric power required for driving the motor, there is a problem that the structure is complicated and the maintenance required for the components necessary for driving the motor is required. Recently, a method of manually adjusting the angle of the solar panel has been noted .

As a prior art related to a method for manually adjusting the angle of the solar cell plate, a " photovoltaic power generation structure having a manual angle adjustment function "

In the prior art, one operator can adjust the inclination angle of the solar cell module at a time according to the altitude of the sun, and furthermore, even if the fastening member is released due to vibration due to wind or the like, the state of the inclination angle of the solar cell module can be stably It provides an effect to maintain.

However, in all the conventional solar photovoltaic structures including the prior art, the vertical bar for mounting the solar panel directly on the upper end of the supporting pillar is directly coupled to the rotating pin, so that one operator is forced to adjust the angle while rotating the solar panel , The work of assembling the support and the vertical bar is not only complicated but also difficult, resulting in a problem that the workability is lowered.

In addition, it is difficult to maintain a fixed state so that the solar panel does not move after adjusting the angle of the solar panel, and the fixing force required to fix the support to the concrete foundation is insufficient, thereby lowering the safety of construction.

As a means for solving the above-mentioned problems, the present invention provides a rotary bar, which is installed through a rotating bracket formed on the upper end of a vertical bar, and which is rotatably installed on a vertical bar holder at an upper portion of the vertical bar, A technique for making the vertical bar easy to rotate without difficulty by the worker alone is suggested.

Further, the present invention provides a technique for easily assembling and mounting the support column and the vertical bar by a simple method of raising and lowering the rotation axis of the vertical bar on the rotation axis slit formed at the upper end of the rotation bracket.

In addition, the present invention provides a technique for preventing the rotation of the rotation shaft and the vertical bar while preventing the engagement plate, which is fitted on the outer side of the rotation shaft, from being caught by the injury prevention stopper attached to the outer surface of the rotation bracket.

The present invention also provides a technique for allowing a rock bolt provided through a fixing bracket formed on a support to be selectively inserted into an adjustment hole of an angle adjusting ring attached to the vertical bar, I will try.

The present invention also provides a technique for increasing the clamping force of a support while embedded in a concrete foundation, a buried pipe formed extending from a lower end of the support through the base plate.

According to the present invention, since the rotary shaft is not coupled to the vertical bar directly but is formed on the upper side of the vertical bar and the rotary point is located on the upper side of the vertical bar, the vertical bar is rotated by one operator without any difficulty, To provide a controlled effect.

Further, when the rotary shaft is placed on the rotary shaft slit formed in the vertical bar holder at the upper end of the column, the rotary shaft is inserted and held in the rotary shaft slit, so that the column and the vertical bar can be assembled very easily and the construction time, air shortening, The stopper plate which is fitted on the outer side of the rotary shaft after the assembling and installation of the support bar and the vertical bar is completed is prevented from floating on the rotary shaft and the vertical bar while being caught by the injury prevention stopper attached to the rotary bracket, While maintaining a robust construction condition.

In addition, the present invention maintains a rigid fixed state by a simple method of tightening the locking bolt after adjusting the angle of the solar panel, and the locking bolt is integrated in the bolt guide holder, thereby providing no effect of loss.

In addition, according to the present invention, a buried pipe body is formed to extend from a lower end of a pillar installed through a base plate that is seated on an upper end of a concrete foundation, so that the buried pipe body is buried in the concrete foundation, and concrete is filled in the buried pipe body. The fixing force can be increased and the safety of the construction can be improved.

1 is a front view of an installation state of a solar photovoltaic structure to which the present invention is applied
FIG. 2 is a front view of an installation state of a solar cell structure in which the solar panel of the present invention is separated
3 is a side view of the solar cell structure of the present invention
Fig. 4 is a perspective view showing a state where the supporting column and the vertical bar are separated
Fig. 5 is a side view showing the state of separation
Fig. 6 is a perspective view of the installation of the present invention,
Fig. 7 is a side view of the present invention,
8 is a side sectional view of the solar cell panel of the present invention in an angle-
9 to 10 are side views of the solar photovoltaic structure according to the present invention,
11 is a side view of the installation of the bar in the present invention
Fig. 12 is a view showing an installation state of the latching plate and the flushing-
Fig. 13 is a perspective view showing a state in which the latching plate and the flushing-
FIG. 14 is a plan view showing the engaging state of the lock bolt and the angle adjusting ring of the present invention
Fig. 15 is a cross-sectional view

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

The overall structure according to the preferred embodiment of the present invention will be schematically shown in the accompanying drawings, and it can be confirmed that the plurality of struts 10, the plurality of vertical bars 20, and the solar panel 40 are divided into components.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

As shown in FIGS. 1 to 3, the struts 10 of the present invention are respectively installed at the upper ends of a plurality of concrete foundations 1 that are buried in the ground, and can support the vertical bars 20 in a rotatable manner Shaped vertical bar holder 11 having an open upper part is integrally formed on both sides of the vertical bar holder 11. The rotary bar 21 provided on the vertical bar 20 can be easily installed on both sides of the vertical bar holder 11, 21 is rotatably supported by the rotating shaft slit 12 downwardly.

A plurality of vertical bars 20 rotatably assembled to the vertical bar holders 11 are separated from the conventional structure of the conventional solar vertical structure in which the rotary bar 21 is coupled through the vertical bars 20 A technique of allowing the rotation point of the vertical bar 20 formed by the rotary shaft 21 to be located above the vertical bar 20 and to be located on the upper side is combined.

A pair of rotation brackets 22 protrude from both sides of the center of the upper surface of the vertical bar 20 and a rotary shaft 21 fitted to the rotary shaft slit 12 is connected to the rotary bracket 22 And is formed integrally therewith.

8, the vertical bar 20 is positioned at an upper portion of the vertical bar 20 as shown in FIG. 8, so that the vertical bar 20 can be swung The angle of the solar panel 40 can be easily adjusted while rotating the vertical bar 20 without being difficult for the worker alone.

Here, the vertical bar holder 11 should be provided with a sufficient rotation space 13 below the vertical bar 20 to prevent the vertical bar 20 from colliding or interfering with the rotation.

A plurality of horizontal bars 30 are integrally installed at an upper end of the vertical bar 20 and a solar panel 40 is installed at an upper end of the horizontal bar 30 to complete a solar light structure do.

When the horizontal bar 30 is installed perpendicular to the upper end of the vertical bar 20, the horizontal bars 30 can be easily and easily installed by the operator alone while the horizontal bar 30 is rotated to be inclined as shown in FIG. A bolt 32 and a bolt 32 are attached to the upper end of the vertical bar 20 in a state in which the horizontal bar 30 is supported by the fixed angle 31, The fixing angle 31 and the horizontal bar 30 are integrally assembled by using the nut 33 to provide an effect of greatly improving the workability.

The vertical bar 20 can be integrally assembled with the support 10 more easily through the organic coupling structure of the rotary shaft 21 and the rotary shaft slit 12, 4 to 5, when the rotary shaft 21 is moved downward along the rotary shaft slit 12, the rotary shaft 21 is rotated at the lower end of the rotary shaft slit 12, And the vertical bar holder 11 covers the vertical bar 20 to provide an effect that the vertical support bar 10 and the vertical bar 20 can be easily assembled to each other.

The rotation axis slit 12 of the present invention is not limited to a simple configuration formed vertically but has a unique configuration in which the inclined section 12b is inclined downward at the lower end of the vertical section 12a, The rotary shaft 21 mounted on the lower end of the inclined section 12b is caught by the inclined surface of the inclined section 12b during the rotation operation and is prevented from being displaced upward while being separated from the inclined section 12b, Not only maintains solid integrity, but also improves the circular activity of the rotary operation.

In addition to the effect of preventing separation and separation of the vertical bar 20 due to the inclined section 12b of the rotary shaft slit 12 after the assembling and installation of the column 10 and the vertical bar 20 are completed, There is an additional technology that allows you to maintain state.

12 to 13, after the assembly of the struts 10 and the vertical bars 20 is completed, the engaging plate 14 is fitted on the outer side of the rotary shaft 21, The stopper 15 is attached to both sides of the rotary shaft slit 12 and the stopper plate 14 is fastened to the stopper 15 to prevent the rotary shaft 21 and the vertical bar 20 from coming into contact with each other. The effect of preventing floating in any case is provided.

In the sunlight structure (S) of the present invention constructed as described above, the solar panel 40 maintains the same angle as in Fig. 3 for the equinox or the equinox, So that the efficiency of the solar power generation can be maximized in response to the seasonal change.

In the meantime, the present invention is further combined with a technique for stably maintaining a firmly fixed state of the solar panel 40 whose angle has been adjusted.

A semicircular angle adjusting ring 50 having a plurality of adjusting holes 51 formed along a circumferential direction is integrally attached to one side of the vertical bar 20 and the front side of the supporting bar 10 A bolt guide holder 62 having a guide groove 62a formed therein is integrally attached to the fixing bracket 61 and the center of the bolt guide holder 62 The locking bolt 60 threadedly engaged therewith has a fixing pin 60a formed at one side thereof penetrating through the guide groove 62a and the fixing bracket 61 to be inserted into any one of the plurality of adjusting holes 51, The solar panel 40 can be stably maintained in the angle-adjusted state.

In order to release the locked state for adjusting the angle of the solar panel 40, the lock bolt 60 is reversely rotated so that the fixing pin 60a is removed from the adjusting hole 51, The outward locking protrusion 60b protruding from the outer circumferential surface of the fixing pin 60a can be prevented from being deformed due to the inward protrusion 60a protruding from the tip of the guide groove 62a even when the locking bolt 60 is excessively rotated. The lock bolt 60 is prevented from being released to the outside while being caught by the latching jaw 62b, thereby effectively preventing the lock bolt 60 from being lost.

In order to further improve the fixing force of the column 10 fixed to the concrete foundation 1, the column 10 penetrates the base plate 16, which is seated on the concrete foundation 1, The buried tube 17 is buried in the concrete foundation 1 and the concrete is filled in the empty space in the interior of the concrete foundation 1 so that the anchor bolt 2 is provided with a basic The present invention is not limited to the fixing force, but the ground fixing force is further doubled, thereby providing an excellent effect of the construction stability.

S: Solar structure 1: Concrete foundation
10: column 11: vertical bar holder
12: rotation axis slit 12a: linear section
12b: Slope section 13: Rotation space
14: Retaining plate 15: Injury prevention stopper
17: burial tube 20: vertical bar
21: rotating shaft 22: rotating bracket
30: horizontal bar 31: fixed angle
40: Solar panel 50: Angle adjusting ring
51: Adjusting ball 60: Lock bolt
60a: Fixing pin 60b: Outward facing jaw
61: Fixing bracket 62: Bolt guide holder
62a: guide groove 62b: inward jaw

Claims (6)

A vertical bar holder 11 is provided at an upper end of a plurality of spaced concrete bases 1 and an upper opening is formed at an upper end of the vertical bar holder 11. A rotary shaft slit 12 is formed in a downward A plurality of pillars (10);
A rotary shaft 21 fitted to the rotary shaft slit 12 is inserted through a rotary bracket 22 protruding from both sides of the center of the upper surface so that the rotary point of the rotary shaft 21 is located on the upper side of the vertical bar 20 A plurality of vertical bars (20);
And a solar panel 40 installed at the top of the vertical bar 20 at the upper ends of the plurality of horizontal bars 30 installed at an interval in the fore-and-aft direction.
The vertical bar 20 is rotatably mounted on the lower end of the rotary shaft slit 12 while the rotary shaft 21 is moved downward when the rotary shaft 21 is lifted up on the rotary shaft slit 12, The vertical bars 20 can be easily assembled and installed with each other;
The rotary shaft slit 12 is formed such that the inclined section 12b is inclined downward at the lower end of the vertical section 12a and the rotary shaft 21 seated at the lower end of the inclined section 12b is lifted upward ;
After the assembly of the column 10 and the vertical bar 20 is completed, the fastening plate 14 is fitted on the outer side of the rotary shaft 21 and the fastening plate 14 is attached to the outer surface of the rotation bracket 22 Preventing the rotation shaft (21) and the vertical bar (20) from being injured while being caught by the lifting prevention stopper (15);
An angle adjusting ring 50 having a plurality of adjusting holes 51 formed in the circumferential direction is attached to one side surface of the vertical bar 20 and a bolt guide The lock bolt 60 threaded through the center of the bolt guide holder 62 is attached with a holder 62 and a fixing pin 60a formed at one side thereof passes through the guide groove 62a and the fixing bracket 61 And the outward locking protrusion 60b formed on the outer circumferential surface of the fixing pin 60a is engaged with the inward locking protrusion 62b formed at the tip of the guide groove 62a, And the bolt (60) is prevented from being released to the outside.
delete delete delete delete The method according to claim 1,
The support column 10 is formed by extending a subducting tube 17 protruding downward through a base plate 16 seated on a concrete foundation 1 and the subducting tube 17 is formed on a concrete foundation 1 And the reinforcing force of the pillar (10) is improved by filling the concrete inside the pillar (10).

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