CN106847974A - Low-concentration photovoltaic bar section stair staggered shape radiating fin radiating module - Google Patents

Abstract

The invention relates to a heat dissipation module for concentrating photovoltaics, in particular to a heat dissipation module with stepped and staggered heat dissipation fins for low-power concentrated photovoltaics, which belongs to the technical field of solar power generation and heat dissipation, and includes five heat dissipation fins with stepped and staggered shapes for low-power concentrated photovoltaics Radiator, each low-power concentrating photovoltaic strip segment stepped staggered heat sink radiator includes a stepped staggered heat dissipation fin array, heat dissipation ventilation slots, radiator bottom plate, circular fixing column and concentrated photovoltaic photoelectric conversion receiver installation One side of the radiator bottom plate has a stepped staggered heat dissipation fin segment array, and the other side of the radiator bottom plate has a circular fixing column and a concentrated photovoltaic photoelectric conversion receiver installation area, and the stepped staggered heat dissipation fin segment array The gaps between the stepped and staggered heat dissipation fins are heat dissipation ventilation slots. The heat dissipation module can use the natural wind in different directions to dissipate the heat in the middle of the heat dissipation fins; the installation efficiency and alignment efficiency of the heat dissipation module are extremely high. High; the heat dissipation module is very convenient for subsequent maintenance and replacement, and can be directly screwed to the base of the concentrated photovoltaic module.

Description

Low-magnification concentrating photovoltaic strip segment staggered heat dissipation fin cooling module

technical field

The invention relates to a concentrating photovoltaic cooling module, in particular to a low-magnification concentrating photovoltaic segment-staggered heat dissipation fin cooling module, which belongs to the technical field of solar power generation and cooling.

Background technique

The concentrated photovoltaic photoelectric conversion receiver is the core component of the concentrated photovoltaic power generation system, which is used to directly convert the light energy gathered by the lens into electrical energy. Due to the relatively high light energy collected by the low-magnification lens, the operating temperature on the surface of the concentrating photovoltaic cell and the receiver is too high, which affects the conversion efficiency of the concentrating photovoltaic cell chip. In order to ensure that the concentrating photovoltaic cell and the receiver The receiver can work stably in the normal temperature range. Generally, the concentrated photovoltaic photoelectric conversion receiver is directly bonded to the radiator. The lower end of the radiator is directly exposed to the outside air, and the heat generated by the concentrated sunlight is directly It is radiated into the external air by the radiator, but the existing concentrated photovoltaic radiator is heavy, and it is difficult to dissipate the heat in the middle of the cooling fin under the action of natural wind, that is, the cooling effect is poor, which directly affects the The normal operation of the concentrated photovoltaic receiver, and the installation of the existing radiator is fixed to the bottom of the concentrated photovoltaic module by multiple screws, so that it will take a lot of manual operation during installation, and it will be repaired or replaced in the follow-up It is also very inconvenient at times, and at the same time, it is difficult to ensure the precise alignment of the radiators during the installation of multiple radiators.

Contents of the invention

The purpose of the present invention is to provide a low-magnification concentrating photovoltaic strip section stepped and interlaced heat dissipation fin cooling module, which overcomes the shortcomings of the prior art.

In order to achieve the above-mentioned technical purpose, the technical solution adopted by the present invention is: a low-magnification concentrating photovoltaic strip segment stepped staggered fin cooling module, which is characterized in that it includes five low-magnification concentrating photovoltaic strip segment stepped staggered fin cooling modules Each low-magnification concentrated photovoltaic strip section stepped staggered heat sink includes a stepped staggered heat sink segment array, heat dissipation ventilation slots, radiator bottom plate, circular fixing column and concentrated photovoltaic photoelectric conversion receiver installation area , one side of the radiator bottom plate has a stepped staggered heat dissipation fin array, and the other side of the radiator bottom plate has a circular fixing column and a concentrated photovoltaic photoelectric conversion receiver installation area, and the stepped staggered heat dissipation fin array The gaps between the stepped and staggered heat dissipation fins are heat dissipation and ventilation grooves.

The stepped and staggered heat dissipation fin segment array is arranged in a cylindrical segment array or a polygonal columnar segment array.

The bottom plate of the radiator is in the shape of a square made of aluminum.

The circular fixing column is a hollow cylinder with external threads.

The concentrated photovoltaic photoelectric conversion receiver installation area is located on the bottom plate of the radiator in the middle of the circular fixing column.

The advantages and positive effects of the present invention are: 1. The heat dissipation module can utilize natural wind from different directions to dissipate the heat in the middle of the heat dissipation fin; 2. The cooling module has extremely high installation efficiency and alignment efficiency; 3. The heat dissipation module is very convenient for subsequent maintenance and replacement, and can be directly screwed to the base of the concentrated photovoltaic module.

Description of drawings

Figure 1 is a three-dimensional view of a low-magnification concentrating photovoltaic strip-segment-shaped heat dissipation fin cooling module.

Fig. 2 is a schematic diagram of the cooling fins of the low-magnification concentrating photovoltaic strip segment staggered heat dissipation fin cooling module.

Among them: 1. Ladder staggered heat dissipation fin segment array, 2. Heat dissipation ventilation groove, 3. Radiator bottom plate, 4. Circular fixing column, 5. Concentrating photovoltaic photoelectric conversion receiver installation area.

detailed description

The present invention will be further described below in conjunction with the accompanying drawings.

The low-power concentrating photovoltaic strip segment staggered heat dissipation fin cooling module, as shown in Figure 1~2, includes five low-power concentrating photovoltaic strip step staggered fin radiators. The stepped staggered fin radiator includes a stepped staggered fin segment array 1, a heat dissipation ventilation slot 2, a radiator bottom plate 3, a circular fixing column 4 and a concentrated photovoltaic photoelectric conversion receiver installation area 5, and the radiator One side of the bottom plate 3 has a stepped staggered heat dissipation fin array 1, and the other side of the radiator bottom plate 3 has a circular fixing column 4 and a concentrated photovoltaic photoelectric conversion receiver installation area 5. The stepped staggered heat dissipation fin array 1 The gaps between the stepped and staggered heat dissipation fins are the heat dissipation and ventilation grooves 2.

The method of use of the present invention is: first paste the concentrating photovoltaic photoelectric conversion receiver on the installation area 5 of the concentrating photovoltaic photoelectric conversion receiver through thermal conductive sol, and then dissipate the heat dissipation of the concentrating photovoltaic photoelectric conversion receiver by rotating The module can be installed on the bottom plate of the concentrated photovoltaic module as a whole, which is very convenient for maintenance or replacement. At the same time, when the natural wind blows to the radiator, the natural wind can be introduced into the middle of the heat dissipation fins in the heat dissipation module through the heat dissipation ventilation groove 2 The heat formed by the air flows, so that the heat can be dissipated to the outside air as soon as possible.

In the present invention, as a modified example, the circular fixing column can be a hollow cylinder with internal threads, and the low-magnification concentrating photovoltaic strip segment staggered fin radiators can be two or more, and the circular fixing column It can also be designed as a solid or hollow alignment column, and the bottom plate of the radiator is made of copper or other alloy materials in any other shape, so the protection scope of the present invention is subject to the scope defined in the claims.

Claims (5)

1. low-concentration photovoltaic bar section stair staggered shape radiating fin radiating module, it is characterized in that, it include five low-concentration light Laid shoot section stair staggered shape radiating fin radiator, each low-concentration photovoltaic bar section stair staggered shape radiating fin radiator includes rank Terraced alternating expression radiating fin section chip arrays, heat dissipation ventilation groove, base plate of radiator, circular fixed column and condensation photovoltaic opto-electronic conversion are received Device installing zone, the base plate of radiator wherein simultaneously has stair staggered formula radiating fin section chip arrays, and base plate of radiator another side has Circular fixed column and condensation photovoltaic photoelectric conversion receiver installing zone, the ladder in the stair staggered formula radiating fin section chip arrays Space between alternating expression radiating fin section piece is heat dissipation ventilation groove.

2. low-concentration photovoltaic bar according to claim 1 section stair staggered shape radiating fin radiating module, it is characterized in that, institute It is that cylindrical segment array or Polygonal column shape section array arrangement are formed to state stair staggered formula radiating fin section chip arrays.

3. low-concentration photovoltaic bar according to claim 1 section stair staggered shape radiating fin radiating module, it is characterized in that, institute Base plate of radiator is stated for aluminium material square shape.

4. low-concentration photovoltaic bar according to claim 1 section stair staggered shape radiating fin radiating module, it is characterized in that, institute Circular fixed column is stated for the externally threaded hollow cylinder of hollow belt.

5. low-concentration photovoltaic bar according to claim 1 section stair staggered shape radiating fin radiating module, it is characterized in that, institute State on the base plate of radiator that condensation photovoltaic photoelectric conversion receiver installing zone is located in the middle part of circular fixed column.