KR20150003286U - Photovoltaic cell by venetian blind - Google Patents

Abstract

    The present invention relates to a blind type solar cell produced by stacking solar cell modules up and down like a blind, and can be mounted on a vertical plane of a flat such as a balcony or a window without damaging an outer wall by a simple combination of a module portion and a mounting portion, , It is possible to create module surface area and photoelectric efficiency more than that installed on the horizontal plane, and it is possible to contribute to diffusion of household solar cell because it is free to move and trade with a safe and easy installation method.

Description

 [0001] PHOTOVOLTAIC CELL BY VENETIAN BLIND [0002]

The present invention relates to a photovoltaic power generation facility capable of being mounted on a vertical surface such as a balcony, a window frame or an outer wall as well as a roof or a roof, more specifically, a photovoltaic solar module having a blind shape, So that it can be installed on the vertical plane of the vehicle. The present invention relates to a home-use blind type solar photovoltaic cell capable of easily installing even a general household and realizing a government policy of one million green homes by effectively expanding a limited installation space such as a roof, a roof, and moving and trading.

Conventional solar cells are fixedly installed on a horizontal surface such as a roof, a roof, and a ground in a slightly oblique state. However, this is very costly and time consuming to install, and it is almost impossible to move it when moving. Because it is not free to move, it can not be traded and can not be traded. This is because, although the initial purchase cost is high, when you move, you can not take it or sell it. Moreover, there is a problem in that the horizontal area where the roofs and rooftops of households can be installed is narrow, and personal installation is impossible even in an apartment building like an apartment.

      The Republic of Korea is narrow, expensive, and there are lots of apartment buildings like apartments, frequent movements, and the fact that the altitude of the sun is not high.

The purpose of this design is to make the energy self-power generation, free movement and sale by using the blind type solar photovoltaic cell which can be installed on the vertical wall, so that it can be easily installed on the balcony and the vertical wall in each family home have

The present invention relates to a photovoltaic cell capable of being installed in each building in an urban assembly building in which a large number of people live, and first, a mounting part is formed. The load of the structure completed by the load- Dispersed on the concrete floor, coupled with the iron railings of the balcony by a latch. A plurality of solar cell module parts are arranged in a layer like a blind. The T-shaped fitting shaft of the module part is engaged with the supporting shaft T hole at the upper end of the supporting shaft of the mounting part and is moved downward by the sliding method. A plurality of modular parts having a slightly oblique angle are formed to form a completed structure and the electric current generated from the photoelectric module is connected to an outlet to obtain the same module surface area and photoelectric efficiency as that provided on a horizontal plane .

In addition, the height of the load support with the 'c' shaped latch and the male screw is adjustable on the back of the mount according to the present invention, so that it can be easily mounted on the balcony of any condition and the outer wall is not damaged by the anchor bolt As shown in FIG.

Also, the sliding coupling method that occurs in the process of combining the support shaft and the module according to the present invention maximizes the safety and ease of installation.

This design is installed on the vertical plane of the building, but it achieves the same module surface area and photovoltaic efficiency as that installed on the horizontal plane by the blind type fabrication method, and makes use of the abandoned vertical wall surface.

In addition, there is no process such as bolt tightening when the module part and the mounting part are combined, and since the module part is installed by the sliding method, a safety accident is prevented because there is no dangerous work in the inside and outside of a man handrail.

In addition, it can be moved and traded by a very simple installation method. As a result, it can be used as household solar cell appliances to speed up the realization of one million green homes and to develop high-level energy farms.

Representative figure shows the installation appearance of household solar cell by this design
1 is an exploded perspective view showing a structure of a household solar cell according to the present invention;
2 is an exploded perspective view showing an enlarged view of a module part of a household solar cell according to the present invention.
Fig. 3 is a perspective view showing the back surface of the solar cell according to the present invention
FIG. 4 is a block diagram showing a configuration of a household solar cell according to the present invention
Fig. 5 is a view showing a state in which the solar cell according to the present invention is installed on the positive side

The present invention will be described in detail with reference to the accompanying drawings.

Each of the plurality of presented drawings is represented by a slightly different ratio. This is because, due to the limitations of the drawing size, the sizes and proportions of the products, the number of modules, and the like may appear differently depending on the installation environment such as the balcony of a building or the window frame.

The blind solar cell 1 mainly includes a module unit 10 and a mount unit 30. The module unit 10 includes a module 11 and a frame 12, a pedestal 14, a fitting shaft 18, The mounting portion 30 is constituted by a supporting shaft 31 and a mounting plate 35, a mounting shaft 38, a load supporting base 50, a latch 40, etc. As shown in FIG. 2 The frame 12 on which the module 11 is mounted is coupled with the pedestal 14. The frame fixing hole 13 on the rear side is first coupled to the pedestal engaging projection 15 and then the frame fixing hole 13 The pedestal fixing holes 17 are made to coincide with each other, and the pedestal 14 is fixed to the frame 12 by inserting the pedestal pin 16 penetrating through the pedestal fixing hole 17.

1, the support shaft 31 is brought into close contact with the mounting plate 35 so that the mounting plate female screw 36 and the support shaft female screw 32 on the rear surface of the support shaft 31 are aligned with each other, 3, the height adjusting male screw 51 on the upper end of the load support base 50 is engaged with the mounting shaft female screw 39 of the mounting shaft 38, and the latch 40 has a height The latch fixing screw 42 of the mounting shaft 38 and the latching female screw 45 are aligned with each other and then the latch fixing screw 41 is engaged with the fixing screw 41. This completed mounting portion is shown in Figures 5 and 3 The hook 40 is hooked on the iron rail and then the load support 50 is rotated to move the fixing screw 39 and the height adjusting male screw 51 upward and downward, So that the load of the solar cell 1 is dispersed to the concrete floor immediately below the steel barrel, And the rubber 46 is padded on the inner surface of the latch 40 so as to correspond to the thickness of the railing crossbar and then the latch fixing hexagonal screw 43 is firmly engaged and fixed with the latch fixing hexagonal female screws 44 and 44 ' The T-shaped structure of the fitting shaft 18 of the module unit 10 formed as shown in FIGS. 1 and 2 is inserted into the supporting shaft T hole 33 (FIG. 3) of the supporting shaft 31 of the mounting portion 30 And the layer stack joins the plurality of module units 10 to the support shaft 31. When all the module units 10 are engaged with each other, the support shaft 31 of the support shaft 31 is fixed The hole 34 and the fitting shaft fixing hole 19 are made to coincide with each other and the fixing shaft 31 and the module unit 10 are firmly fixed by penetrating the fitting shaft fitting pin 20.

4 illustrates a photoelectric flow as a system block diagram of the solar cell 1. The (+) electrode 101 and the (-) electrode 102 connected to the module and the Schottky diode electrode 100 are applied to the junction box 103 and then the positive electrode 101 and the negative electrode 102 and enters the connection unit 105. [ The connection unit 105 connects the converged electrodes from the plurality of modules 11 in parallel and sends them to the inverter 106. The direct current is converted into an alternating current and applied to the power source 107 receptacle.

1, solar cell 10 module part 30 mounting part
11 module 12 frame 13 frame fixing hole
14 Pedestal base 15 Fitting projections 16 Fitting pin
17 base fixing hole 18 insertion shaft 19 insertion shaft fixing hole
20 Fitting pin Fitting pin 31 Support shaft 32 Support shaft female thread
33 Support shaft T hole 34 Support shaft fixing hole 35 Mounting plate
36 Mounting plate arm screw 37 Mounting plate thread 38 Mounting shaft
39 Mounting base female thread 40 Clasp 41 Clasp fixing screw
42 Latch fixing female thread 43 Latch holding hexagonal screw 44 Latch holding hexagonal female thread
45 Latch female thread 46 Rubber 50 Load support
51 height adjustable male thread 52 silicone
100 Schottky diode 101 + electrode 102 - electrode
103 Junction Box 105 Connection Panel 106 Inverter
107 Power outlet

Claims (3)

A solar cell capable of being mounted on a vertical plane such as a balcony or window frame of an assembly building such as an apartment, which has been abandoned in the solar power generation, is constructed by combining a plurality of module modules formed like a flat crossbar with a supporting shaft of the mounting part in a slightly oblique state Household solar cell structure.
The structural body is simple and simple to assemble in a sliding manner without act of bolt tightening when the module part is coupled with the mounting part, A solar cell capable of being mounted on a vertical plane such as a balcony or window frame of an assembly building such as an apartment, which has been abandoned in the solar power generation, is constructed by combining a plurality of module modules formed like a flat crossbar with a supporting shaft of the mounting part in a slightly oblique state Household solar cell structure.
The structure includes a vertical load support for distributing the load to the concrete floor, thereby minimizing the load applied to the balcony iron rail, thereby providing a rigid and stable installation state A solar cell capable of being mounted on a vertical plane such as a balcony or window frame of an assembly building such as an apartment, which has been abandoned in the solar power generation, is constructed by combining a plurality of module modules formed like a flat crossbar with a supporting shaft of the mounting part in a slightly oblique state Household solar cell structure.
The structure includes a height-adjustable load support, a latch, a structure adapted to control the amount of modules and to be applied to various types of balconies,

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