KR200492366Y1 - Reflex board supporting device of solar power - Google Patents

Abstract

The present invention relates to a solar photovoltaic reflector fixing device, including front and rear posts that are installed perpendicular to the ground and installed at the front and rear, and a solar panel unit mounted on the tops of the front and rear posts, It is a solar power generation reflector fixing device comprising a; mounted under the rear post, mounted to be spaced apart from the ground, exposed to the outside of the solar panel unit, and reflecting sunlight.
According to this, by forming a solar reflector in an empty space between a plurality of solar panels, it is possible to increase the utilization of light energy by reflecting light from the solar reflector and irradiating the solar panel again, and by forming a shade on the ground. By preventing weeds from growing, there is an effect that can relieve the hassle of weeding.

Description

Solar PV reflector fixing device {Reflex board supporting device of solar power}

The present invention relates to a photovoltaic reflector fixing device, and more specifically, solar light that can convert sunlight into electric energy and reflect sunlight lost to the periphery of a solar panel to be used as light energy. It relates to a power generation reflector fixing device.

In general, the method of using solar energy is a method of using solar heat for heating and power generation by using water heated by the sun, and a method of using sunlight to operate various machines and devices with electricity by generating electricity using sunlight. It is divided into.

Power generation using solar energy includes photovoltaic power generation that converts sunlight into electrical energy, and solar thermal devices that collect solar energy with a heat collecting device and then use it for heating or hot water.

Among them, photovoltaic power generation does not require fuel, unlike conventional power generation facilities such as thermal power or nuclear power, and has the advantage of not generating noise and pollution. In addition, solar power generation does not require large-scale power generation facilities, and small-scale power generation is required. Because it is possible, there is also an advantage that it can be installed and used for home use.

This solar power generation system consists of a photovoltaic module that converts sunlight into electrical energy, and a number of photovoltaic cells (cells) are installed on the front of the photovoltaic module, and a condensing device that condenses sunlight as needed. May be installed.

As an example of the prior art in which the condensing device is installed, Korean Patent Application Publication No. 2010-0010256 has been disclosed.

The above-described prior art includes a solar panel for generating electricity by sunlight; A plurality of reflector modules for maximizing solar light mining efficiency; A solar tracking sensor module for tracking the sun; A support for supporting the solar panel; A swing shaft inserted into the solar panel and having both side ends fixed by the support to support the solar panel; A linear gear installed under the solar panel, parallel to the ground, and provided in a direction perpendicular to the earth's rotation direction; A control motor connected to one end of the linear gear to drive the linear gear; A mover installed on the linear gear and moving forward or backward by the control motor; A connecting means connecting the swing shaft and the mover so that the solar panel can swing by the movement of the mover; A control module for driving the control motor according to a signal from the solar tracking sensor module; In addition, as a condensing device, a'solar photovoltaic device using a reflector' has been proposed in which a reflector for reflecting and condensing sunlight is installed on a solar module.

Meanwhile, looking at a conventional solar power generation device, it includes a solar panel and a plurality of posts installed on the ground to support the solar panel.

Preferably, the solar panel is installed to have an inclination angle, and a plurality of solar panels are installed at regular intervals.

However, in the prior art, since a plurality of solar panels are spaced apart from each other at predetermined intervals, an empty space is inevitably formed, and solar light irradiated to the empty space is discarded.

The present invention was devised to solve the problems of the prior art, by providing a solar power generation reflector in an empty space between a plurality of solar panels, reflecting light from the solar reflector, and irradiating the bottom of the solar panel. It is an object of the present invention to provide a photovoltaic reflector fixing device capable of increasing the use of light energy.

The object of the present invention described above is to include a front and rear posts installed perpendicular to the ground and installed at the front and rear, and a solar panel unit mounted on the upper end of the front and rear posts, It is mounted on the lower side and mounted to be spaced apart from the ground, is formed to be wider than the solar panel unit, is exposed to the outside, and a solar light reflector reflecting sunlight; It may be achieved by a solar power generation reflector fixing device including.

Fixtures to which both sides of the solar reflector are coupled are formed on the front and rear posts.

An angle adjusting part for adjusting the angle of the solar reflector is included, and the angle adjusting part includes a plurality of through holes formed in the rear post in a longitudinal direction, and a pin coupled to the through hole and protruding to the outside to seat the solar reflector, It is formed on the front post and characterized in that it comprises a hinge shaft for hinge-coupled to the solar reflector.

A guide rail connecting the front and rear posts is formed, and the solar reflector is coupled to the guide rail to perform a pull-in or pull-out operation.

The solar reflector is characterized in that it comprises a first solar reflector that is coupled to the guide rail and is drawn out to the front of the solar panel unit, and a second solar reflector that is drawn out to the rear.

The solar reflector is a base member made of any one of a fabric, a synthetic resin film, a synthetic resin plate, wood, and a metal material, and a reflective member that is attached to the upper surface of the base member and made of any one of a mirror, a metal material, and a silver foil, and reflects sunlight It characterized in that it comprises a.

The base member is a black synthetic resin material, the reflective member is a white synthetic resin material for reflecting sunlight, the black synthetic resin material is a polyethylene resin containing carbon as a black pigment, and the white synthetic resin material contains titanium dioxide as a white pigment. It is characterized in that the polyethylene resin.

According to the present invention, by forming a solar reflector in an empty space between a plurality of solar panels, it is possible to increase the utilization of light energy by reflecting light from the solar reflector and re-irradiating the solar panel. By forming it, there is an effect that it can eliminate the hassle of weeding work by preventing weeds from growing.

1 is a side view of a photovoltaic reflector fixing device according to a first embodiment;
2 is a side view of a photovoltaic reflector fixing device according to a second embodiment;
3 is a front view of the second embodiment shown in FIG. 2,
4 is a perspective view showing a modified embodiment of the second embodiment;
5 and 6 are side views showing the in/out operation of the solar power reflector fixing device according to the third embodiment;
7 is a front view of the third embodiment shown in FIG. 4.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings.

Prior to this, the terms to be described later are defined in consideration of functions in the present invention, and this should be interpreted as a concept consistent with the technical idea of the present invention and a meaning commonly or commonly recognized in the art.

In addition, when it is determined that a detailed description of a known function or configuration related to the present invention may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Here, the accompanying drawings are partially exaggerated or simplified for convenience and clarity of explanation and understanding of the configuration and operation of the technology, and each component does not exactly match the actual size.

In the accompanying drawings, FIG. 1 is a side view of a photovoltaic reflector fixing device according to a first embodiment, FIG. 2 is a side view of a photovoltaic reflector fixing device according to a second embodiment, and FIG. 3 is shown in FIG. 2. A front view of the second embodiment, Fig. 4 is a perspective view showing a modified embodiment of the second embodiment, and Figs. 5 and 6 show the pull-in or pull-out operation of the solar power reflector fixing device according to the third embodiment. A side view and FIG. 7 are a front view of the third embodiment shown in FIG. 4.

As shown in Figure 1, the photovoltaic reflector fixing device (A1) according to the present invention, the front and rear posts (2) (4) installed perpendicular to the ground and installed in the front and rear, the front, Includes a solar panel part 6 mounted on the top of the rear posts 2 and 4, and is mounted on the lower part of the front and rear posts 2 and 4, and is mounted to be spaced apart from the ground and a solar panel part (6) A solar reflector 8 that is formed to be wider than that and is exposed to the outside, and reflects sunlight.

The front post (2) and the rear post (4) are suitable pipes, and are installed perpendicularly to the ground to a certain length from the ground.

Preferably, the rear post 4 is formed longer than the front post 2 so that the solar panel part 6 attached to the upper end thereof has an inclined shape.

The solar panel part 6 is composed of a solar cell and a frame supporting it, and the solar cell is installed at an angle with the maximum amount of sunlight.

The solar reflector 8 is a base member made of any one of fabric, synthetic resin film, synthetic resin plate, wood, and metal, and is attached to the upper surface of the base member and is made of any one of a mirror, metal material, and silver foil, and reflects sunlight. It consists of a member.

The base member is a black synthetic resin material, and the reflective member is a white synthetic resin material for reflecting sunlight.

The black synthetic resin material is a polyethylene resin containing carbon as a black pigment.

The white synthetic resin material is a polyethylene resin containing titanium dioxide as a white pigment.

The contact surface of the black synthetic resin material and the white synthetic resin material may be bonded by any one of high-frequency bonding, thermal bonding by double extrusion, or bonding by an adhesive.

The solar reflector 8 is mounted to the front post 2 and the rear post 4 using a fixture 3.

The fixture (3) is composed of a bracket on which the side end of the solar reflector (8) is seated, and a bolt and a nut to penetrate through the bracket and the front and rear posts (2) (4).

Preferably, the solar reflector 8 is installed at a height of about 20 to 30 cm from the ground.

Since the solar reflector 8 occupies the ground with a relatively larger area than the solar panel part 6, sunlight does not reach, so that weeds do not grow, and a herbicidal effect can be obtained incidentally.

The solar reflector 8 is spaced apart from the ground, installed on the top, and irradiated to the periphery of the solar panel 6, that is, the solar light passing through the periphery without reaching the upper surface of the solar panel 6 It is for reflecting sunlight to illuminate the lower surface of the solar panel 6.

With this configuration, the central portion of the solar panel portion 6 is generated by sunlight directly irradiated from the sun, and the lower surface of the edge of the solar panel portion 6 is reflected by the solar reflector 8 Since power is generated by the generated solar light, double-sided power generation is possible and the amount of power generation can be increased.

Meanwhile, as shown in FIGS. 2 and 3, according to the second embodiment (A2), an angle adjusting unit 5 for adjusting the angle of the solar reflector 8 is included.

The angle adjustment unit 5 includes a plurality of through holes 52 formed in the rear post 4 in the longitudinal direction, and a pin 54 which is coupled to the through hole 52 and protrudes to the outside and on which the solar reflector 8 is seated. ), and a hinge shaft 56 coupled to the front post 2 and coupled to the solar reflector 8.

Therefore, the pin 54 is inserted into the through hole 52 having a predetermined height to protrude, and then the solar reflector 8 is seated over the pin 54 to facilitate setting the angle.

Meanwhile, as shown in FIG. 4, according to another second embodiment (A2'),

The angle adjustment unit includes a plurality of through holes 52 formed in the rear post 4 in the longitudinal direction, and a pin 54a that is coupled to the through hole 52 and protrudes to the outside and is fitted to the side of the solar reflector 8 ), and a hinge shaft 56 coupled to the front post 2 and coupled to the solar reflector 8.

The long hole 88 is formed in a predetermined length on the side of the solar reflector 8, and the long hole 88 is formed in a serrated shape, so that a pin 54a is inserted for each jaw to be temporarily fixed.

When the solar reflector 8 rotates according to the angular change, the length change relative to the height change can be accommodated by the long hole 88 into which the pin 54a is inserted.

Meanwhile, as shown in FIGS. 4 to 6, according to another embodiment (A3), a guide rail 7 connecting the front and rear posts 2 and 4 is formed, and the solar reflector 8 is It is coupled to the guide rail (7) to operate in or out.

The guide rail 7 has a'C' shape in cross section and is arranged symmetrically on both sides and is attached to the front and rear posts respectively.

The solar reflector 8 may be inserted into the guide rail 7 to slide.

The solar reflector 8 is coupled to the guide rail 7 and is a first solar reflector 81 that is drawn out or drawn in to the front of the solar panel unit 6, and a second solar light that is drawn out or drawn in to the rear. It includes a light reflector 82.

The guide rails 7 are coupled to both sides, and both ends of the first solar reflecting plate 81 and the second solar reflecting plate 82 are inserted into and coupled to the guide rails 7 on both sides.

Therefore, the first solar reflector 81 is drawn forward on the guide rail 7 and the second solar reflector 82 is drawn rearward on the guide rail 7 so that the solar panel unit 6 is By protruding outward from the front and rear, it is possible to cover a relatively large area, thereby reflecting sunlight.

Power generation efficiency may be improved by irradiating the reflected sunlight onto the lower surface of the solar cell of the solar panel unit 6.

On the other hand, the present invention is not limited by the above-described embodiments and the accompanying drawings, and various modifications and applications not illustrated within the scope not departing from the technical spirit of the present invention are possible, as well as substitution of components and equivalent Since it can be changed to example, the contents related to the application and modification of the features of the present invention should be interpreted as being included within the scope of the present invention.

2: front post 4: rear post
5: angle adjustment part 6: solar panel part
7: guide rail 8: solar reflector
52: through hole 54: pin
56: hinge shaft 81: first solar reflector
82: second solar reflector

Claims (9)

It is installed perpendicular to the ground and includes a front and rear posts installed at the front and rear, and a solar panel unit mounted on the top of the front and rear posts
Including; a solar reflector mounted under the front and rear posts, mounted to be spaced apart from the ground, exposed to the outside of the solar panel unit, and reflecting sunlight,
Fixtures to which both sides of the solar reflector are coupled are formed on the front and rear posts,
Includes an angle adjustment unit for adjusting the angle of the solar reflector,
The angle adjustment unit
A number of through holes formed in the longitudinal direction in the rear post,
A pin coupled to the through hole and protruding to the outside and on which a solar reflector is overlaid and seated,
It is formed on the front post and includes a hinge shaft for hinge-coupled to the solar reflector,
A guide rail connecting the front and rear posts is formed,
The solar reflector
It is combined with the guide rail to operate in or out,
A photovoltaic reflector fixing device comprising: a first solar reflector coupled to the guide rail and operating in front of the solar panel unit and a second solar reflector operating in a rearward manner. delete delete delete delete delete delete The method of claim 1,
The solar reflector,
A base member made of any one of fabric, synthetic resin film, synthetic resin plate, wood, and metal material;
A reflective member attached to the upper surface of the base member and made of any one of a mirror, a metal material, and a silver foil, and reflecting sunlight;
Solar power generation reflector fixing device comprising a. The method of claim 8,
The base member is a black synthetic resin material,
The reflective member is a white synthetic resin material for reflecting sunlight,
The black synthetic resin material is a polyethylene resin containing carbon as a black pigment,
The white synthetic resin material is a photovoltaic reflector fixing device, characterized in that the polyethylene resin containing titanium dioxide as a white pigment.

Images