CN205430167U - Photovoltaic assembly - Google Patents

Abstract

The utility model discloses a photovoltaic assembly, its characterized in that: including box structure, thin -film solar cell, convex lens, monocrystalline silicon solar cells piece, arc reflection aluminium lamination and lithium ion battery, the box structure is cuboid hollow structure, the box structure is the glass material, thin -film solar cell installs the top of box structure, the monocrystalline silicon solar cells piece is located in the box structure, the monocrystalline silicon solar cells piece is located under the convex lens, arc reflection aluminium lamination is installed in the box structure, arc reflection aluminium lamination is located under the monocrystalline silicon solar cells piece, lithium ion battery is located in the box structure. Compared with the prior art, the utility model, have following advantage and effect: it is quick convenient that photovoltaic assembly has the installation, and practicality is strong, simple structure, and energy utilization is high.

Description

Photovoltaic cell component

Technical field

This utility model relates to a kind of photovoltaic cell component, belongs to new energy field, is a kind of high-tech renewable energy power generation device.

Background technology

Photovoltaic is the abbreviation of solar photovoltaic generation system, is a kind of photovoltaic effect utilizing solar cell semi-conducting material, solar radiation can be converted directly into a kind of new power generating system of electric energy, has independent operating and the two ways that is incorporated into the power networks.

Meanwhile, solar photovoltaic generation system classify, one is centralized, such as large-scale northwest ground light photovoltaic generating system: one be distributed (with more than 6MW for boundary), such as industrial and commercial enterprises' factory roof photovoltaic generating system, local-style dwelling houses roof photovoltaic power generation system.

Photovoltaic generating system includes core component photovoltaic cell component, and one layer of photovoltaic battery panel that existing photovoltaic cell component is substantially unitary, although simple in construction, but owing to its energy utilization rate is low so that its promotion rate facilitates unsatisfactory.

Utility model content

The purpose of this utility model is to overcome above-mentioned deficiency present in prior art, and provides a kind of reasonable in design, the photovoltaic cell component that optoelectronic transformation efficiency is high.

The technical scheme in the invention for solving the above technical problem is: this photovoltaic cell component includes body structure, thin-film solar cells, convex lens, monocrystaline silicon solar cell sheet, arc reflection aluminium lamination and lithium ion battery, described body structure is cuboid hollow-core construction, described body structure is glass material, described thin-film solar cells is arranged on the top of described body structure, described monocrystaline silicon solar cell sheet is positioned at described body structure, described monocrystaline silicon solar cell sheet is positioned at the underface of described convex lens, described arc reflection aluminium lamination is arranged in described body structure, described arc reflection aluminium lamination is positioned at the underface of described monocrystaline silicon solar cell sheet, described lithium ion battery is positioned at described body structure.

Body structure simple in construction, uses glass material low price, and light transmission is good, improves light-use, has the effect of parts in guard box body.

Thin-film solar cells can be conveniently installed at the body structure of glass material, and first contact thin-film solar cells at sunlight and be capable of high photoelectric conversion, even if not absorbed by thin-film solar cells, also can enter in body structure through thin-film solar cells, carry out secondary condensation conversion.

Convex lens can focus on light, it is achieved the twice transformation of solar energy, thus improves the utilization ratio of solar energy.

Monocrystaline silicon solar cell sheet is three-decker, can absorb the light through convex lens in front, additionally it is possible to utilize the light that arc reflection aluminium lamination reflects, and capacity usage ratio is high.

Arc reflection aluminium lamination can reflect surrounding light, does not waste the energy.

Electric power can be stored by lithium ion battery.

As preferably, monocrystaline silicon solar cell sheet described in the utility model is made up of a PN ganglionic layer, base load glass and the 2nd PN ganglionic layer, and a described PN ganglionic layer, base load glass and the 2nd PN ganglionic layer are formed by stacking the most from top to bottom.Realizing obverse and reverse can generate electricity, light utilization is high.

As preferably, the bottom of body structure described in the utility model offers air-vent.The air pressure of regulation body structure.

As preferably, monocrystaline silicon solar cell sheet described in the utility model is connected with described body structure by L-shaped elastic construction.There is the effect of protection monocrystaline silicon solar cell sheet, prevent convex lens from dropping and damage monocrystaline silicon solar cell sheet.

As preferably, lithium ion battery described in the utility model electrically connects with described monocrystaline silicon solar cell sheet.Can conveniently store energy.

As preferably, body structure described in the utility model is provided with deionized water container, and described deionized water container is hatch frame.The temperature of regulation body structure.

As preferably, in convex lens described in the utility model, it is full of ethanol.Reduce cost, make relative to full glass and can effectively reduce cost.

As preferably, arc reflection aluminium lamination described in the utility model is semicircular structure.Drive grinding tool convenient.

As preferably, convex lens described in the utility model and described body structure pass through bonding connection.Easy for installation, replacing is also convenient for.

As preferably, lithium ion battery outer surface described in the utility model is provided with reflecting layer.Prevent lithium ion battery overheated.

This utility model compared with prior art, has the following advantages and effect: it is quick and convenient that photovoltaic cell component has installation, and Practical Performance is strong, simple in construction, and capacity usage ratio is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model embodiment.

Label declaration: body structure 1, thin-film solar cells 2, convex lens 3, monocrystaline silicon solar cell sheet 4, arc reflection aluminium lamination 5, lithium ion battery 6.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following example are that this utility model is not limited to following example to explanation of the present utility model.

See Fig. 1, the photovoltaic cell component of the present embodiment includes body structure 1, thin-film solar cells 2, convex lens 3, monocrystaline silicon solar cell sheet 4, arc reflection aluminium lamination 5 and lithium ion battery 6, body structure 1 is cuboid hollow-core construction, body structure 1 is glass material, thin-film solar cells 2 is arranged on the top of body structure 1, monocrystaline silicon solar cell sheet 4 is positioned at body structure 1, monocrystaline silicon solar cell sheet 4 is positioned at the underface of convex lens 3, arc reflection aluminium lamination 5 is arranged in body structure 1, arc reflection aluminium lamination 5 is positioned at the underface of monocrystaline silicon solar cell sheet 4, lithium ion battery 6 is positioned at body structure 1.

In the present embodiment, the when that photovoltaic cell component using, light is initially transmitted to thin-film solar cells 2, part luminous energy is converted into electric energy by thin-film solar cells 2, then some light passes thin-film solar cells 2, enter body structure 1, by being irradiated on monocrystaline silicon solar cell sheet 4 after convex lens 3 optically focused, again energy is converted into electric energy, and enter the luminous energy of body structure 1 from surrounding and be transmitted to monocrystaline silicon solar cell sheet 4 by arc reflection aluminium lamination 5, again energy is converted into electric energy.

In the present embodiment, body structure 1 simple in construction, use glass material low price, and light transmission is good, improves light-use, has the effect of parts in guard box body.

In the present embodiment, thin-film solar cells 2 can be conveniently installed at the body structure 1 of glass material, and first contact thin-film solar cells 2 at sunlight and be capable of high photoelectric conversion, even if not absorbed by thin-film solar cells 2, also can enter in body structure 1 through thin-film solar cells 2, carry out secondary condensation conversion.

In the present embodiment, convex lens 3 can focus on light, it is achieved the twice transformation of solar energy, thus improves the utilization ratio of solar energy.

In the present embodiment, monocrystaline silicon solar cell sheet 4 is three-decker, can absorb the light through convex lens 3 in front, additionally it is possible to utilize the light that arc reflection aluminium lamination 5 reflects, and capacity usage ratio is high.

In the present embodiment, arc reflection aluminium lamination 5 can reflect surrounding light, does not waste the energy.

In the present embodiment, electric power can be stored by lithium ion battery 6.

In the present embodiment, monocrystaline silicon solar cell sheet 4 is made up of a PN ganglionic layer, base load glass and the 2nd PN ganglionic layer, and a PN ganglionic layer, base load glass and the 2nd PN ganglionic layer are formed by stacking the most from top to bottom.Realizing obverse and reverse can generate electricity, light utilization is high.

In the present embodiment, the bottom of body structure 1 offers air-vent.The air pressure of regulation body structure 1.

In the present embodiment, monocrystaline silicon solar cell sheet 4 is connected with body structure 1 by L-shaped elastic construction.There is the effect of protection monocrystaline silicon solar cell sheet 4, prevent convex lens 3 from dropping and damaging monocrystaline silicon solar cell sheet 4.

In the present embodiment, lithium ion battery 6 electrically connects with monocrystaline silicon solar cell sheet 4.Can conveniently store energy.

In the present embodiment, body structure 1 is provided with deionized water container, and deionized water container is hatch frame.The temperature of regulation body structure 1.

In the present embodiment, in convex lens 3, it is full of ethanol.Reduce cost, make relative to full glass and can effectively reduce cost.

In the present embodiment, arc reflection aluminium lamination 5 is semicircular structure.Drive grinding tool convenient.

In the present embodiment, convex lens 3 and body structure 1 pass through bonding connection.Easy for installation, replacing is also convenient for.

In the present embodiment, lithium ion battery 6 outer surface is provided with reflecting layer.Prevent lithium ion battery 6 overheated.

Above content described in this specification is only to this utility model example explanation.Described specific embodiment can be made various amendment or supplements or use similar mode to substitute by this utility model person of ordinary skill in the field; without departing from the content of this utility model description or surmount scope defined in the claims, protection domain of the present utility model all should be belonged to.

Claims (9)

1. a photovoltaic cell component, it is characterized in that: include body structure, thin-film solar cells, convex lens, monocrystaline silicon solar cell sheet, arc reflection aluminium lamination and lithium ion battery, described body structure is cuboid hollow-core construction, described body structure is glass material, described thin-film solar cells is arranged on the top of described body structure, described monocrystaline silicon solar cell sheet is positioned at described body structure, described monocrystaline silicon solar cell sheet is positioned at the underface of described convex lens, described arc reflection aluminium lamination is arranged in described body structure, described arc reflection aluminium lamination is positioned at the underface of described monocrystaline silicon solar cell sheet, described lithium ion battery is positioned at described body structure.

Photovoltaic cell component the most according to claim 1, it is characterised in that: the bottom of described body structure offers air-vent.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described monocrystaline silicon solar cell sheet is connected with described body structure by L-shaped elastic construction.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described lithium ion battery electrically connects with described monocrystaline silicon solar cell sheet.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described body structure is provided with deionized water container, and described deionized water container is hatch frame.

Photovoltaic cell component the most according to claim 1, it is characterised in that: it is full of ethanol in described convex lens.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described arc reflection aluminium lamination is semicircular structure.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described convex lens and described body structure pass through bonding connection.

Photovoltaic cell component the most according to claim 1, it is characterised in that: described lithium ion battery outer surface is provided with reflecting layer.