CN206283465U - A kind of Photospot solar module high - Google Patents

Abstract

The utility model discloses a kind of Photospot solar module high, including module box body housing, bottom safety glass, Fresnel microscope group and receiver, wherein, the bottom safety glass, Fresnel microscope group is arranged on the outer inframe of casing, the receiver is encapsulated in the focal point on the safety glass of bottom and below Fresnel microscope group, the receiver and Fresnel mirror are array arrangement, light source can be followed the trail of under different angles, make it possible to sunray omnidirectional tracking, simple structure, cost economy, the precision of tracking is also higher, improve light gathering efficiency, passage of heat bottom is additionally provided with thermo-electric generation sheet simultaneously, it is not only the secondary utilization of heat, improve the efficiency of solar power generation, again can be as heat-conducting plate heat conduction supplement, so that heat-conducting effect is improved.

Description

A kind of Photospot solar module high

Technical field

The utility model is related to a kind of optically focused module, particularly a kind of Photospot solar module high.

Background technology

Solar energy power generating is one of green energy resource for improving the ecological environment, improving human survival quality, studies the sun Energy generation technology is significant, and Photospot solar module high must be in outdoor lower work, it is therefore necessary in view of the stability of structure, Light utilization ratio simultaneously needs to keep solar panel at any time just to the sun, allows the light vertical irradiation solar energy at any time of sunshine On cell panel, this just proposes requirement very high to Photospot solar module high.

The content of the invention

The purpose of this utility model is to provide a kind of Photospot solar module high to have the structure under various use environments Stability and optical utilization efficiency higher.

The technical solution adopted in the utility model is：A kind of Photospot solar module high, including module box body housing, bottom Safety glass, Fresnel microscope group and receiver, wherein, the bottom safety glass, Fresnel microscope group are arranged on the outer inframe of casing, The receiver is encapsulated in the focal point on the safety glass of bottom and below Fresnel microscope group, the receiver and Fresnel Mirror is array arrangement, and the receiver is carved including the first light, the second light is carved, prism, bypass diode and metal contact wires, described First light is carved, the second light is carved and is close to two non-parallel faces of prism, and the prism bottom is provided with solar cell, the sun Energy battery, bypass diode and metal contact wires are encapsulated on the heat-conducting plate of solar cell bottom, and the heat-conducting plate bottom is set There are some passages of heat.

Wherein in order to preferably collect sunshine, the folder of two non-parallel faces composition that first light is carved or the second light is carved Angle α, wherein 2 ° of 5 ° of ＜ α ＜, and the angle of two non-parallel faces composition of the prism is 2 θ, wherein 6 ° of 10 ° of ＜ θ ＜.It is logical Cross two light of slant setting to carve so that incident ray is just totally reflected after being carved into the first light in the plane of refraction of prism, light Line is carved incident light and is also totally reflected through being totally reflected in second light, by this rule, can be used to follow the trail of sunray Offset direction.

The Fresnel microscope group is made up of safety glass, and the module box body housing is made up of glass fibre.Thus solve Determine because material is different, the module deformation that thermal coefficient of expansion difference causes is adapted to the work under varying environment.

The passage of heat bottom is additionally provided with thermo-electric generation sheet, the high temperature section of the thermo-electric generation sheet by heat conducting pipe with Passage of heat bottom is connected, and thermo-electric generation sheet low-temperature zone is provided with radiator, is not only the secondary utilization of heat, improves the sun The efficiency that can be generated electricity, again can be as heat-conducting plate heat conduction supplement so that heat-conducting effect is improved, it is to avoid due to solar energy mould Group radiating inequality causes the problem that module is damaged.

Advantage of the present utility model compared with prior art：Carved using the first light, the second light is carved can be to the sun with prism Light carries out comprehensive tracking, has saved production cost, improves light gathering efficiency, while passage of heat bottom is additionally provided with the temperature difference Generating piece, is not only the secondary utilization of heat, improves the efficiency of solar power generation, again can be as heat-conducting plate heat conduction benefit Fill so that heat-conducting effect is improved.

Brief description of the drawings

Fig. 1 the utility model structural representations；

Fig. 2 the utility model polycrystalline substance schematic diagrames；

Fig. 3 power-generating chip structural representations；

Fig. 4 the utility model thermo-electric generation structural representations；

Wherein, 1 it is prism, 2 is that the first light is carved, 3 is that the second light is carved, 4 is solar cell, 5 is heat-conducting plate, 6 is heat conduction Passage, 7 be bypass diode, 8 be metal contact wires, 10 is module box body housing, and 11 is Fresnel microscope group, and 12 is bottom tempering Glass, 13 is receiver, and 15 is thermo-electric generation sheet, and 16 is heat conducting pipe, and 17 is radiator.

Specific embodiment

Below by drawings and Examples, the technical solution of the utility model is described in further detail.Such as Fig. 1, Shown in Fig. 2, a kind of Photospot solar module high, including module box body housing 10, bottom safety glass 12, Fresnel microscope group 11 and Receiver 13, wherein, the bottom safety glass 12, Fresnel microscope group 11 are arranged in casing housing 10, the receiver 13 It is encapsulated on bottom safety glass 12 and positioned at the focal point of the lower section of Fresnel microscope group 11, as shown in figure 3, the receiver and phenanthrene Nie Er mirrors are array arrangement, and the receiver carves the 2, second light and carves 3, prism 1, bypass diode 7 and metal company including the first light Wiring 8, first light is carved, the second light is carved and is close to two non-parallel faces of prism, and the prism bottom is provided with solar-electricity Pond 4, the solar cell, bypass diode and metal contact wires are encapsulated on solar cell bottom heat-conducting plate 5, described to lead Hot plate bottom is provided with some passages of heat 6.Wherein, the Fresnel microscope group is made up of safety glass, outside the module box body Frame is made up of glass fibre.As shown in figure 4, the passage of heat bottom is additionally provided with thermo-electric generation sheet 15, the thermo-electric generation The high temperature section of piece 15 is connected by heat conducting pipe 16 with passage of heat bottom, and thermo-electric generation sheet low-temperature zone is provided with radiator 17.

The angle α of two non-parallel faces composition that first light is carved or the second light is carved in one embodiment, and institute The angle for stating two non-parallel faces composition of prism is 2 θ, α=2 °, θ=8 °, and the power-generating chip and Fresnel mirror are 4 × 5 arrays Arrangement, frame structure thickness is 1 times of Fresnel mirror focal length.Light source can be followed the trail of under different angles, enabling to the sun Light omnidirectional tracking, simple structure, cost economy, the precision of tracking is also higher, improves light gathering efficiency, while passage of heat Bottom is additionally provided with thermo-electric generation sheet, is not only the secondary utilization of heat, improves the efficiency of solar power generation, again can be as leading One supplement of hot plate heat conduction so that heat-conducting effect is improved.

Claims (4)

1. a kind of Photospot solar module high, including module box body housing, bottom safety glass, Fresnel microscope group and receiver, Characterized in that, the bottom safety glass, Fresnel microscope group are arranged on the outer inframe of casing, the receiver is encapsulated in bottom steel Change on glass and the focal point below Fresnel microscope group, the receiver and Fresnel mirror are array arrangement, the reception Device is carved including the first light, the second light is carved, prism, bypass diode and metal contact wires, and first light is carved, the second light is carved and is close to Two non-parallel faces of prism, the prism bottom is provided with solar cell, the solar cell, bypass diode and gold Category connecting line is encapsulated on the heat-conducting plate of solar cell bottom, and the heat-conducting plate bottom is provided with some passages of heat.

2. a kind of Photospot solar module high according to claim 1, it is characterised in that the Fresnel microscope group is by tempering Glass is made, and the module box body housing is made up of glass fibre.

3. a kind of Photospot solar module high according to claim 1, it is characterised in that the passage of heat bottom also sets It is equipped with thermo-electric generation sheet.

4. a kind of Photospot solar module high according to claim 3, it is characterised in that the high temperature of the thermo-electric generation sheet Section is connected by heat conducting pipe with passage of heat bottom, and thermo-electric generation sheet low-temperature zone is provided with radiator.