KR101185807B1 - a horizontal type of a solar cell generating system - Google Patents

Abstract

The present invention relates to a flat roof angle adjustable photovoltaic device.
The present invention, the anchor member 100 is fixed to a plurality of rooftop slab of the building structure; A fixed frame 200 having a rectangular beam shape and having both ends mounted on a horizontal surface of the anchor member 100 and arranged on an upper surface of the slab through a binding means 140; The solar panel 310 is formed in a rectangular panel shape formed on an upper surface, and the upper and lower hinge bars 320 and 340 are coupled to the bottom surfaces of both ends in a direction orthogonal to the fixing frame 200 to fix the upper and lower hinge bars 320 and 340. A module frame 300 mounted on the frame 200 and arranged in plural; A hinge bracket 400 coupled to the fixing frame 200 and the lower hinge bar 340 to be rotatable through a hinge pin 440; And an angle adjusting bracket 500 coupled to the fixed frame 200 and the upper hinge bar 320 to enable angle adjustment through the adjustment bar 540.
The present invention has the effect that it is possible to ensure the maintenance and installation when installing on the roof of the building structure as well as to secure the drainage function, secure waterproof function, angle adjustment function.

Description

Flat roof angle adjustable photovoltaic device {a horizontal type of a solar cell generating system}

The present invention relates to a photovoltaic device, and more particularly, to a flat roof angle adjustable photovoltaic device for easily installing and fixing a photovoltaic device on a rooftop slab of a building structure.

Recently, due to the increase of carbon dioxide caused by the use of fossil fuels, global warming problems and global environmental problems such as the treatment of nuclear wastes in nuclear power plants have emerged, and researches for utilizing energy in nature are being actively conducted. to be.

Looking at natural energy, there are solar energy, tidal power and wind power, which are the only energy sources that can be obtained without harming the earth's environment.

The method of using solar energy may be classified into a method of using solar heat and a method of using solar light, and a method of using solar heat is a method of supplying and heating hot water using water warmed by solar light. The method of using sunlight is to generate electricity by using solar light, and to operate various machines and apparatuses using the electricity. This is called a solar power generation or a solar power generation system.

The photovoltaic power generation system is a power generation that converts sunlight directly into electric power, and receives power from a solar module that generates electrical energy by solar light, and is a power generation facility that supplies stable power to a phase field system and a house. It is a natural power generation system that can use electricity safely and cheaply without power failure.

This is a pollution-free energy source that does not generate greenhouse gas emissions or environmental destruction factors, unlike the existing energy sources, and the solar industry is recently emerging, and various related technologies have been released.

In addition, the photovoltaic device is conventionally a photovoltaic module that enters sunlight so that its basic configuration produces power, a module plate for fixing a plurality of arrays of photovoltaic modules on the surface, a frame for fixing the module plate, and The frame is fixed to a certain height position from the ground and the tracking device for rotating the frame so that the sun can always be incident upon the movement of the solar light, so that the module plate in the solar movement direction It moves along with it to let sunlight enter.

Module structure for generating solar light by fixing the solar module of the above configuration, and the tracking device that is incident to the sunlight while rotating or moving in accordance with the solar light movement direction has been released and used in various ways.

Such environmentally friendly photovoltaic power generation system has the priority of good solar light due to the prerequisite of producing and supplying electric power stably, and satisfies conditions such as securing the installation area of solar module, ease of installation, and degree of interference. In the related art, as the solar modules for photovoltaic power generation are installed in a form of attaching to a roof or a roof, solar light incident efficiency is lowered and maintenance after installation is difficult.

In addition, solar power generators for self-powering are installed on the rooftop slab of building structures in recent years, but solar power generators have to be installed at an inclined angle through a plurality of supports. Has been a problem such as being lost.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

SUMMARY OF THE INVENTION [0006]

The rooftop slab of the building structure, that is, to facilitate the installation of the photovoltaic device on the slab plane and stable, as well as to simplify the maintenance.

The present invention to achieve the above object,

A plurality of anchor members that are fixed to the rooftop slab of the building structure, consisting of a contact surface formed in the middle horizontal plane and both bent end portion is in close contact with the upper surface of the slab anchor member fixed to the anchor bolt; A fixed frame having a rectangular beam shape and having both ends mounted on a horizontal surface of the anchor member and fixedly coupled to each other through a binding means and arranged on an upper surface of the slab; A module frame having a solar panel arrayed on an upper surface thereof, the upper and lower hinge bars being coupled to the bottom of both ends in a direction orthogonal to the fixed frame, the module frame being mounted on the fixed frame and arranged in a plurality; A binding piece slidably coupled in a form surrounding the fixing frame and having a hinge hole formed at an upper side thereof, a fixing piece having one end coupled to the lower hinge bar and a hinge hole formed at the other end thereof, the hinge hole of the binding piece and the fixing piece A hinge bracket formed of a hinge pin coupled to the hinge hole; A movable piece slidably coupled in a form surrounding the fixed frame, a fixed piece having one end coupled to the upper hinge bar and a hinge hole formed at the other end thereof, and one end coupled to the movable piece with a hinge pin and the other end being fixed to the fixed piece. It is coupled to the hinge pin to the angle adjusting bracket consisting of a control bar for adjusting the angle of the module frame; comprises a.

The binding means may be erected in front, rear, left and right pairs through four locking holes formed on the horizontal surface of the anchor member, and the middle horizontal bent portion is caught on the bottom surface of the horizontal surface, and both screw portions are formed on the horizontal surface. A fastening bolt having a “U” shape, which is erected through two locking holes, and a screw hole is formed at both sides thereof so that the threaded portion of the fastening bolt is fitted, and a fastening piece for fixing the fixing frame to the horizontal plane when the nut of the screw is tightened. Is done.

In addition, it will be desirable to form a coupling hole to vertically penetrate the horizontal surface center portion of the anchor member.

In addition, both sides of the anchor member, the protective cap is coupled to prevent the external exposure of the anchor bolt; The protective cap is made of a synthetic resin material, the anchor bolt is passed through the bolt hole is formed so that the head is locked, the washer guide groove is formed in the upper surface is opened upward, the bottom is formed so that the pad fixing groove is opened downward The cover part to cover the head of the fixing part, the anchor bolt and the locking projection is formed along the circumference at the bottom of the inner wall is fixed to the engaging projection protruding on the outer wall of the fixing part, one end is connected to the lower end of the fixing part and the other end Is connected to the lower end of the cover portion may be composed of a connecting strip to prevent the separation of the cover portion 186.

The present invention,

first; Anchor members, fixed frames, module frames, hinge brackets, angle brackets can easily and quickly install the photovoltaic device on the slab plane of the building structure, as well as convenient maintenance work.

second; The angle adjustment bracket can be installed to selectively adjust the angle more than 45 degrees from the horizontal state of the rooftop slab in the horizontal state, so if the wind pressure such as a typhoon is generated, protect the device in the horizontal state and also for solar power generation. There is an effect that can be installed inclined at a certain angle.

third; By adjusting the angle, there is an effect that can greatly improve the light collection efficiency of sunlight.

fourth; The protective cap prevents the anchor bolts from being exposed, which can safely protect the structure for a long time, as well as having a waterproof function.

1 is a side configuration diagram of a flat roof angle adjustable photovoltaic device according to the present invention.
FIG. 2 is an enlarged view of a portion enlarged in FIG. 1; FIG.
3 is an enlarged perspective view of the portion “C” in FIG. 1.
Figure 4 is a plan view of the anchor member and a fastening bolt is coupled to the anchor member in Figure 3 Figure 4a is a plan view of the anchor member, Figure 4b is a state in which the fastening bolt is coupled.
5 is a plan view of the anchor member in Figure 3 and another embodiment of the fastening bolt is coupled to the anchor member, Figure 5a is a plan view of the anchor member, Figure 5b is a state in which the fastening bolt is coupled.
Figure 6 is a cross-sectional view showing the coupling and separation process of the protective cap in FIG.
7 is an assembly configuration of the module frame is installed in a horizontal state in the plane of the roof slab as an installation state according to the present invention.
8 is an assembly configuration of the module frame is installed with an inclination angle with respect to the plane of the rooftop slab as an installation state according to the present invention.
9 is another embodiment of 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 is to install a photovoltaic device on the rooftop slab horizontal surface of a building structure.

The present invention, the anchor frame 100 is fixed to the horizontal surface of the roof slab by a plurality of anchors shown in Figures 1 to 8, a rectangular beam shape and a fixed frame mounted on the horizontal surface of the anchor member 100 fixed The module frame 300 and the module frame 300 are mounted on the upper surface of the fixed frame 200, the solar module 310 is formed and arranged, and the module frame 300 with respect to the fixed frame 200 ) Is configured to include a hinge bracket 400 and the angle adjustment bracket 500 to be installed horizontally or at an angle inclined.

The anchor member 100 is fixed to a plurality of rooftop slabs of the building structure, both sides are bent on the basis of the intermediate horizontal plane 110 and the close contact surface 120 in close contact with the horizontal plane of the slab at the bent end The contact surface 120 is formed is fixedly coupled to the anchor bolt 130 on the upper surface of the slab.

The anchor member 100 is arranged at equal intervals on the horizontal plane of the rooftop slab and the fixing frame 200 is mounted on the horizontal planes 110 to be coupled to each other.

The fixed frame 200 is formed in a rectangular beam shape and both ends thereof are respectively mounted on the horizontal surface of the anchor member 100 and fixedly coupled through the binding means 140 to be arranged on the upper surface of the slab.

The binding means 140 is to be erected in front, rear, left and right pairs through four locking holes 114 formed in the upper surface of the horizontal plane 110 of the anchor member 100, but the middle horizontal bent portion is caught on the bottom surface of the horizontal plane And both of the threaded portion of the "U" shaped fastening bolt 142 that is erected through two of the locking holes 114 formed in the horizontal surface 110 and the threaded portion of the fastening bolt 142 Screw holes are formed at both sides to be fitted, and when the nut 146 is tightened, the fixing frame 200 is fixed to the horizontal plane 110.

This, when the interference occurs with respect to the coupling position on the contact surface 120 of the anchor member 100 by binding the fixing frame 200 to the fastening bolt 142 by changing the direction of the fastening bolt 142. To do that.

In other words, forming the locking holes 114 in the front, rear, and left and right positions around the intermediate coupling hole 112 in the horizontal plane 110 of the anchor member 100 is the fastening bolt 142 is formed in the front and rear or left and right To be selectively coupled to the engaging hole 114, that is to be installed in the same direction or perpendicular to the direction of the fixing frame 200 to avoid and if the interference occurs in the horizontal surface of the rooftop slab to be fixed to be.

Here, it is possible to further form a coupling hole 112 formed to penetrate up and down in the central portion of the horizontal plane of the anchor member 100, the coupling hole 112 is also provided to the nut coupled to the fixing frame 200 As shown in FIG. 9, the coupling bolt 149 is directly coupled. That is, the fixing frame 200 may be fixed to the anchor member 100 through the fastening bolt only through the coupling hole 112.

The module frame 300 has a rectangular panel shape in which the solar modules 310 are arranged on an upper surface thereof, and upper and lower hinge bars 320 respectively on lower surfaces of both ends in a direction orthogonal to the fixed frame 200. 340 is coupled and mounted on the fixed frame 200 are arranged in plurality.

The upper and lower hinge bars 320 and 340 may have the same shape as the fixed frame 200 and have only a smaller size. And each one side may be fixed to the fixed frame 200 by welding or fastening through coupling, the other side of the fixing piece 430, 530 to be described later is coupled through the bolt at the nut coupling position.

The hinge bracket 400 is slidably coupled in a form surrounding the fixing frame 200 and a binding piece 420 having a hinge hole formed at an upper side thereof, and one end thereof is coupled to the lower hinge bar 340 and the other end thereof. A fixing piece 430 having a hinge hole formed therein, and a hinge pin 440 coupled to the hinge hole of the binding piece 420 and the hinge hole of the fixing piece 430.

The binding piece 420 constituting the hinge bracket 400 is fixedly coupled to the fixing frame 200 at an arbitrary position through the fixing bolt 460.

The angle adjusting bracket 500, the movable piece 520 is slidably coupled in a form surrounding the fixing frame 200, and one end is fixed to the upper hinge bar 320, the hinge hole is formed at the other end One side 530 and one end is coupled to the movable piece 520 by a hinge pin 521 and the other end is coupled to the fixing piece 530 by a hinge pin 531 to adjust the angle of the module frame 300. It consists of a control bar (540).

And, the moving piece 520 of the angle adjustment bracket 500 is selectively fixedly coupled to the fixed frame 200 through the fixing bolt 560 to control the movement of the adjustment bar 540.

The fixing piece 430 of the hinge bracket 400 and the fixing piece 530 of the angle adjusting bracket 500 are the same, and each of the locking jaws 555 protrudes from one end of each of the locking jaws 555. The upper and lower hinge bars 320 and 340 are fitted in close contact with each other. At this time, the fixing piece is coupled to nuts inserted into the upper and lower hinge bars 320 and 340 through bolts.

As another example, the protective cap 180 is coupled to both of the contact surfaces 120 of the anchor member 100 to prevent the external exposure of the anchor bolt 130 and to prevent corrosion.

The protective cap 180 is made of a synthetic resin material, a bolt hole 181 is formed so that the anchor bolt 130 is passed through the head is caught, the upper surface of the washer guide groove 182 is formed to open upward The bottom surface of the fixing portion 184 is formed so that the pad fixing groove 183 is opened downward, and covers the head of the anchor bolt 130 and the locking projection 187 is formed at the bottom of the inner wall along the periphery The cover 186 is fixed to the engaging projection 189 protruding from the outer wall of the government 184, and one end is connected to the lower end of the fixing portion 184, the other end is connected to the lower end of the cover 186 It is composed of a connecting strip 188 to prevent the cover portion 186 is separated.

As described above, when the flat roof angle adjustable photovoltaic device according to the present invention is installed on the roof plane of the building structure, first, the fixing frame on the upper side of the anchor member 100 in a state in which the anchor member 100 is arranged and fixed Fastening the 200 to the fastening bolt 142 that is the binding means 140. Then, the lower hinge bar 340 provided on one side of the module frame 300 is rotatably coupled to the hinge bracket 400 through the hinge pin 440, and the adjustment bar 540 to the upper hinge bar 320 in succession. After the hinge is combined and then slide the lower angle adjustment bracket 500 through the moving piece 520 and tighten the fixing bolt 560 at an appropriate angle, the installation is completed.

100: anchor member
110: horizontal plane 112: coupling hole
114: engaging hole 120: contact surface
130: anchor bolt 140: binding means
142: fastening bolt 144: binding piece
146: nut 180: protective cap
184: fixed portion 186: cover portion
188: tie
200: fixed frame
300: module frame 310: solar module
320: upper hinge bar 340: lower hinge bar
400: hinge bracket 420: binding
430: fixing piece 440: hinge pin
500: angle adjustment bracket
520: Moving piece 521: Hinge pin
530: fixed piece 531: hinge pin
540: control bar

Claims (4)

It is fixed to the roof slab of the building structure a plurality, the contact surface 120 is formed of the intermediate horizontal surface 110 and the bent ends formed on both sides of the contact surface 120 is in close contact with the upper surface of the slab is fixed by the anchor bolt 130 Being anchor member 100;
A fixed frame (200) formed in a rectangular beam shape and having both ends mounted on a horizontal surface of the anchor member (100) and fixedly coupled through a binding means (140) and arranged on an upper surface of the slab;
The solar panel 310 is formed in a rectangular panel shape formed on an upper surface, and the upper and lower hinge bars 320 and 340 are coupled to the bottom surfaces of both ends in a direction orthogonal to the fixing frame 200 to fix the upper and lower hinge bars 320 and 340. A module frame 300 mounted on the frame 200 and arranged in plural;
A binding piece 420 slidably coupled in a form surrounding the fixing frame 200 and having a hinge hole formed at an upper side thereof, and a fixing piece having one end coupled to the lower hinge bar 340 and having a hinge hole formed at the other end thereof ( 430 and a hinge bracket 400 including a hinge hole of the binding piece 420 and a hinge pin 440 coupled to the hinge hole of the fixing piece 430;
Moving piece 520 slidably coupled in a form surrounding the fixing frame 200, one end is coupled to the upper hinge bar 320, the fixing piece 530 having a hinge hole at the other end, one end is An angle consisting of a control bar 540 is coupled to the moving piece 520 by a hinge pin 521 and the other end is coupled to the fixing piece 530 by a hinge pin 531 to adjust the angle of the module frame 300. Adjusting bracket 500;
Flat roof angle adjustable photovoltaic device characterized in that configured to include.
The method according to claim 1,
The binding means 140,
Through the four engaging holes 114 formed in the upper surface of the horizontal plane 110 of the anchor member 100, the pair is erected in front, rear, left and right pairs, but the middle horizontal bent portion is caught on the bottom surface of the horizontal surface, and both screw portions are formed on the horizontal surface. And fastening bolt 142 of the "U" shape that is erected through two locking holes of the locking holes to be,
Screw holes are formed on both sides of the fastening bolt 142 so that the threaded portion is fitted, and the fixing frame 200 is fixed to the horizontal surface 110 when the nut 146 is tightened. Flat roof angle adjustable photovoltaic device.
The method according to claim 2,
Flat roof angle adjustable photovoltaic device characterized in that it further comprises a coupling hole 112 formed to penetrate up and down in the center portion of the horizontal plane of the anchor member (100).
The method according to claim 1,
On both contact surfaces 120 of the anchor member 100,
A protective cap 180 is coupled to prevent external exposure of the anchor bolt 130;
The protective cap 180,
It is made of a synthetic resin material, the anchor bolt 130 is passed through the bolt hole is formed so that the head is locked, the washer guide groove is formed on the upper surface is opened upward, the fixing portion is formed so that the pad fixing groove is opened downward (184),
The cover portion 186 to cover the head of the anchor bolt 130 and the locking projection is formed along the periphery of the inner wall is fixed to the engaging projection protruding on the outer wall of the fixing portion 184,
One end is connected to the lower end of the fixing portion 184 and the other end is connected to the lower end of the cover 186 to prevent the separation of the cover portion 186, 188,
Flat roof angle adjustable photovoltaic device characterized in that consisting of.

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