KR20120005985U - Glass block having solar condenser power module - Google Patents

Abstract

The light collecting block 100 for condensing light of the present invention comprises a condensing lens 110 for condensing sunlight and a front side of the light-capable block used as a building exterior material while supporting the condensing lens 110 from the front. The front block 120, the solar cell 130 is fixed to the inside of the front block 120 to be located behind the condenser lens 110, the solar cell 130 for converting the incident light into electrical energy, and the front block The rear block 150 is coupled to the rear of the 120 to seal the inside of the front block 120 and constitute a rear of a block capable of mining used as a building exterior material. This design is used as a building exterior material by incorporating a condensing power generation module that allows the production of electricity by condensing sunlight on glass blocks that can be mined, there is an advantage that can perform the mining function and power generation function at the same time. In addition, this design has an advantage that it is easy to secure the installation place because it is installed and used in windows or walls that require light.

Description

Mining block for collecting light {Glass block having solar condenser power module}

The present invention relates to a mining block, and more particularly, to a light collecting block for condensing and light-emitting using a condensing power generation module that can produce electricity by condensing solar light on a glass block capable of being used as a building exterior material.

As the demand for renewable energy increases rapidly in the 21st century, interest in solar power generation is drawing attention. In general, solar power generation means concentrating (heating) solar light to a solar cell or a photovoltaic module to perform power generation.

The solar module is called a solar module as a kind of solar panel, and there are a general type, a window type, a tracking type, and a hybrid type (type in parallel with other clean energy generating means).

The principle of photovoltaic using the photovoltaic module is carried out by the photovoltaic effect. When solar light is irradiated to a pn junction solar panel by n-type doping on a silicon crystal, Energy causes electromotive force by electron-holes, which is called the photovoltaic effect. The solar panels can be connected to each other directly and in parallel to make the desired electric power. The system stored in the battery and used as needed is called individual solar power system or stand-alone solar power system. It is called grid-connected solar power system. In particular, the DC power stored in the battery is converted into AC power through an inverter device, and then supplied to a power consumption device such as a lamp.

On the other hand, glass blocks and the like that can be mined are used as building exterior materials. However, these glass blocks are used only as building exterior materials for mining.

Therefore, the present invention has been devised to solve the problems of the prior art as described above, by incorporating a condensing power generation module that can produce electricity by condensing sunlight into glass blocks that can be mined while being used as building exterior materials, An object of the present invention is to provide a light collecting block for collecting light, which can simultaneously perform a mining function and a power generation function.

The light concentrating block for condensing light of the present invention includes a condensing lens for condensing sunlight, a front block for supporting the condensing lens from the front, and a front block for condensing which is used as a building exterior material, and located behind the condensing lens. The solar cell is fixed to the inside of the front block to convert the incident sunlight into electrical energy, and is coupled to the rear of the front block to seal the inside of the front block and the rear of the block capable of being used as a building exterior material. Characterized in that it comprises a rear block.

The front block of the present invention may have an insertion portion into which the condenser lens is inserted and fixed, and a mounting groove formed at the rear of the insertion portion to seat and fix the solar cell.

The interior of the front block of the present invention preferably has an empty space structure.

This design may further include a support bracket which is fixed to one side of the solar cell and the other side is fixed to the inner surface of the rear block, so that the solar cell is firmly seated in the seating groove of the front block.

The front block and the rear block of the present invention is preferably configured to be disassembled and assembled.

This design is used as a building exterior material by incorporating a light concentrating module that can produce electricity by condensing sunlight on glass blocks that can be mined, and has the advantage of simultaneously performing the light and power generation functions.

In addition, this design has an advantage that it is easy to secure the installation place because it is installed and used in windows or walls that require light.

1 is an exploded perspective view showing the configuration of the light collecting block for collecting light according to an embodiment of the present invention,
FIG. 2 is a perspective view illustrating a light collecting block for collecting light collected in FIG. 1.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of a light collecting block for collecting light according to the present invention will be described in detail.

As shown in Figures 1 and 2, the light collecting block 100 for light condensing of this embodiment is used as a building exterior material grafting a light condensing module that can produce electricity by condensing solar light on a glass block that can be lighted It is configured. Specifically, the light collecting block 100 for condensing according to this embodiment is a light condensing lens 110 for condensing sunlight and a light-capable block used as a building exterior material while supporting the condensing lens 110 from the front (eg For example, the front block 120 constituting the front of the glass block and the sunlight incident on the inside of the front block 120 so as to be positioned behind the condenser lens 110 correspond to a predetermined ratio or capacity. A solar cell 130 to be converted into electrical energy, a support bracket 140 coupled to one side of the solar cell 130 to support the solar cell 130 to be firmly seated and fixed to the front block 120, and the front The rear block 150 is coupled to the rear of the block 120 to seal the inside of the front block 120 and constitute the rear of the block capable of mining used as a building exterior material.

The condenser lens 110 serves to collect more sunlight and allow more sunlight to enter the solar cell 130 positioned behind the condenser lens, and has a block shape in front of the condenser lens 110.

The front block 120 is composed of a transparent or semi-transparent glass material that can be mined to constitute a part of the block of the building exterior material, the condensing lens 110 is configured to be inserted and fixed to the front. That is, the front block 120 has an insertion portion 121 into which the condenser lens 110 is inserted and fixed, and a mounting groove 122 formed at the rear of the insertion portion 121 to seat and fix the solar cell 130. It is composed. On the other hand, the front block 120 preferably has a hollow structure therein so that the replacement of the solar cell 130 is fixed to the seating groove 122.

The solar cell 130 is seated and fixed in the seating groove 122 of the front block 120 and converts solar light collected and collected by the condenser lens 110 into electrical energy corresponding to a predetermined ratio or capacity. . On the other hand, the solar cell 130 is provided with a cell terminal corresponding to the plus or minus polarity to supply electricity (power) generated in the solar cell 130 to a photovoltaic system or a storage battery. Each cell terminal is connected to one end of an electrical connection means such as an electric wire, a flexible substrate, and a cable. Here, the electrical connection means has a predetermined length such that the short end thereof is exposed to the outside through a passage formed in the rear block 150.

The support bracket 140 is coupled to one side of the solar cell 130 to support the solar cell 130 to be more firmly seated in the seating groove 122 of the front block 120, and the solar cell 130. It serves to more securely seated in the seating groove (122). That is, the support bracket 140 is configured such that one side of the solar cell 130 is fixed to one side thereof, and the other side is fixedly coupled to the inner surface of the rear block 150. Here, the support bracket 140 has a length that can be fixed to the mounting groove 122 of the front block 120 when the solar block 130 is coupled to the front block 120.

Therefore, by fixing the solar cell 130 to one side of the support bracket 140, the other side is fixed to the inner surface of the rear block 150, by coupling the rear block 150 to the front block 120, The solar cell 130 is conveniently and firmly fixed to the seating groove 122 of the front block 120.

The rear block 150 is composed of a transparent or semi-transparent glass material that can be mined to constitute a part of the building exterior block, and is coupled to the rear of the front block 120 to seal the inside of the front block 120. It is configured to. On the other hand, the rear block 150 is fixed to the other side of the support bracket 140 therein, provides a passage through which the short side end of the electrical connection means connected to the solar cell 130 can be exposed to the outside. Here, the passage preferably has a structure that is sealed in a state in which the short side end of the electrical connecting means is exposed to the outside. On the other hand, the rear block 150 is coupled to one side is fitted into the rear inside of the front block 120, it is possible to disassemble and assemble between each other through such a coupling structure.

At present, as the expansion of solar power generation systems is rapidly increasing, the manufacturing cost of solar panels is increasing due to the shortage of supply of silicon raw materials and silicon substrates. For this reason, thin-film silicon solar panels, dye-sensitized solar panels, plastic solar panels, and the like, which are lower in manufacturing cost, consume less raw materials, and have a smooth supply of materials than single crystal silicon solar panels, are in the spotlight.

Therefore, in determining the solar cell 130 used in the light collecting block 100 for light converging according to this embodiment, it is preferable to consider the manufacturing cost, efficiency, compatibility and the like. In general, high-efficiency solar cells used in concentrating solar panels are complex, expensive and high value-added materials that require heat sinks because they aggregate light to less than 1 cm and require a constant distance between the lens and the focal point. As a result, the thickness of the module is so large that there are many limitations to the actual power plant.

Therefore, in this embodiment, it is preferable to use a general type solar cell without using a high efficiency solar cell. However, in the next 20 years, since the high efficiency solar cell is known to be more competitive in price than other modules such as thin-film solar cells, it is desirable to design the solar cell so that the high efficiency solar cell can be used later. Therefore, in this embodiment, it is composed of a front block 120 and a rear block 150 capable of disassembling and assembling a glass block capable of mining while being used as a building exterior material.

The technical details of the light collecting block for condensing light emission of the present invention have been described together with the accompanying drawings, but this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

It is also apparent that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

100: light collecting block for condensing 110: condensing lens
120: front block 121: insertion portion
122: seating groove 130: solar cell
140: support bracket 150: rear block

Claims (5)

A condenser lens 110 for condensing sunlight;
A front block 120 supporting the condenser lens 110 from the front and constituting the front of the block capable of being used as a building exterior material;
A solar cell 130 which is fixed to the inside of the front block 120 so as to be located behind the condenser lens 110 and converts incident sunlight into electrical energy; and
Condensing power generation, characterized in that it comprises a rear block 150 is coupled to the rear of the front block 120 to seal the inside of the front block 120 and constitute the rear of the block that can be used as a building exterior material Mining block for The method according to claim 1,
The front block 120 is an insertion portion 121 into which the condenser lens 110 is inserted and fixed, and a seating groove 122 formed at the rear of the insertion portion 121 to seat and fix the solar cell 130. Light collecting block for light condensing, characterized in that it comprises a. The method according to claim 2,
The interior of the front block 120 is a light collection block for light condensing, characterized in that having an empty space structure. The method according to claim 3,
One side is fixed to one side of the solar cell 130 and the other side is fixed to the inner surface of the rear block 150, the solar cell 130 is firmly in the seating groove 122 of the front block 120 Light collecting block for condensing light emission, characterized in that it further comprises a support bracket (140) to be seated and fixed. The method of claim 4,
The front block 120 and the rear block 150 is a light collection block for condensing light, characterized in that the disassembly and assembly is possible.

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