CN104393085A - Concentrating solar special-purpose radiator - Google Patents

Abstract

The invention relates to a special radiator for concentrating solar energy, which belongs to the technical field of solar power generation. It includes the main cooling fins, the secondary cooling fins, the radiator bottom plate and the installation area of the concentrated photoelectric conversion receiver, and one side of the radiator bottom plate has an array of main cooling fins and two arrays of secondary cooling fins of different shapes, The other side of the radiator bottom plate has a concentrated photoelectric conversion receiver installation area. The radiator of the present invention has a simple structure and low manufacturing cost: the surrounding array of the secondary heat dissipation fins of the radiator can ensure that the natural wind enters the interior of the radiator as much as possible; when the natural wind acts on the inner cylindrical or elliptical When the column array is on, it will be refracted to different directions of the radiator, which can ensure that the natural wind after one or more refractions circulates inside the radiator, and dissipates the heat on the inner cylinder or elliptical cylinder array surface of the secondary cooling fin. The air is brought to the air in the exterior of the radiator by means of air flow, thereby ensuring that the heat dissipation capacity of the radiator is utilized to the maximum extent.

Description

A special heat sink for concentrating solar energy

technical field

The invention relates to a photovoltaic heat dissipation component, in particular to a radiator dedicated to concentrating solar energy, which belongs to the technical field of solar power generation.

Background technique

The concentrating photoelectric conversion receiver is the core component of the concentrating photovoltaic power generation system, which is used to directly convert the light energy collected by the lens into electrical energy. Since the light energy gathered by the lens is very strong, the working temperature on the surface of the concentrating photoelectric conversion receiver is very high. In order to ensure that the concentrating photoelectric conversion receiver can work stably within the normal temperature range, the concentrating photoelectric conversion The receiver is directly bonded to the radiator, and the cooling fins at the lower end of the radiator are directly exposed to the outside air, and the heat generated by the concentrated sunlight is directly dissipated from the radiator to the outside air, but the existing high-power thermal energy Dispersing all adopts adding fan on the radiator to dissipate heat, so that in addition to increasing the cost of the fan, it will also increase the cost of connecting wires and external power supply, as well as increase the workload of production, resulting in an increase in product cost; The heat dissipation fins of the radiator adopt the square column structure. When the natural wind circulates through the square column fin array, the natural wind can only pass the relatively high hot air on the two sides of the square column fins. The way of flow brings heat exchange to the air in the outside of the radiator, resulting in partial utilization of the radiator's cooling capacity.

Contents of the invention

The purpose of the present invention is to provide a radiator dedicated to concentrating solar energy, 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 special radiator for concentrating solar energy, which is characterized in that it includes a main cooling fin, a secondary cooling fin, a radiator base plate and a concentrating photoelectric conversion receiver. One side of the radiator bottom plate has a main heat dissipation fin array and two arrays of secondary heat dissipation fins of different shapes, and the other side of the radiator bottom plate has a light-concentrating photoelectric conversion receiver installation area.

The main cooling fins are arranged in a row of rectangular column arrays.

The internal array of the secondary cooling fins is a multi-row cylindrical array or multi-row elliptical cylindrical array, and the surrounding array of the secondary cooling fins is a graphic array formed by splicing square and semi-conformal shapes.

There is a concentrating photoelectric conversion receiver installation area on the bottom plate of the radiator.

The length of the rectangular column of the main cooling fins should be more than one millimeter longer than the corresponding length of the installation area of the concentrating photoelectric conversion receiver.

The advantages and positive effects of the present invention are: 1. the high-power radiator has a simple structure and low manufacturing cost; 2. the arrays around the secondary cooling fins of the radiator can ensure that natural wind enters the radiator as much as possible; 3. When the natural wind acts on the inner cylinder or elliptical cylinder array of the secondary fins, it will be refracted to different directions inside the radiator, which can ensure that the natural wind after one or more refractions circulates inside the radiator, and the The hot air on the inner cylindrical or elliptical cylindrical array surfaces of the secondary cooling fins is brought to the air outside the radiator through air flow, so as to ensure that the heat dissipation capacity of the radiator is utilized to the maximum extent.

Description of drawings

Figure 1 is a perspective view of a heat sink dedicated to concentrating solar energy.

Figure 2 is a bottom view of a heat sink dedicated to concentrating solar energy.

Among them: 1. Secondary cooling fins, 2. Main cooling fins, 3. Front ventilation slots, 4. Side air slots, 5. Radiator bottom plate, 6. Concentrating photoelectric conversion receiver installation area.

specific embodiment

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

A heat sink dedicated to concentrating solar energy, as shown in Figures 1 to 2, includes secondary heat dissipation fins 1, main heat dissipation fins 2, radiator bottom plate 5, and concentrating photoelectric conversion receiver installation area 6. The secondary cooling fin 1 is composed of a multi-row cylindrical array or a multi-row elliptical cylindrical array and a graphic array formed by splicing the surrounding array with square and semicircular arrays. The main cooling fin 2 is formed by a row of rectangular column arrays. , there is a mounting area 6 of a concentrating photoelectric conversion receiver on the radiator base plate 5 .

The method of use of the present invention is as follows: firstly paste the concentrating photoelectric conversion receiver on the installation area 6 of the radiator through heat-conducting insulating glue or heat-conducting silica gel, and then install the radiator with the concentrating photoelectric conversion receiver on the concentrating On the bottom plate 5 of the photovoltaic module. When the natural wind from different directions blows to the radiator, the side ventilation slots 3 and the front ventilation slots 4 can introduce more natural wind into the interior of the radiator to form air flow, so that the heat around the cooling column can be dissipated as soon as possible to the outside air.

In the patent of the present invention, as a modified example, the concentrated photoelectric conversion receiver installation area 6 can also be a protruding or recessed platform, and the shape of the concentrated photoelectric conversion receiver installation area 6 is completely consistent with the shape of the concentrated solar cell chip. There may be screw holes for fixing the condensing photoelectric conversion receiver inside or outside the condensing photoelectric conversion receiver installation area 6, and the size of the main heat dissipation fin part may be the same as or slightly larger than the size of the condensing photoelectric conversion receiver installation area 6. The rest of the heat dissipation fins are arranged in the same array as the secondary heat dissipation fins, and the surrounding array of the secondary heat dissipation fins is "a uniform array formed by splicing squares and semicircles". The scope of protection is subject to the scope defined by the claims.

Claims (5)

1. A special radiator for concentrating solar energy, characterized in that it comprises main cooling fins, secondary cooling fins, a radiator base plate and a concentrating photoelectric conversion receiver installation area, and one side of the radiator base plate has a main heat dissipation The fin array and the array of two different shapes of secondary heat dissipation fins, the other side of the heat sink bottom plate has a light-concentrating photoelectric conversion receiver installation area. 2. A heat sink dedicated to concentrating solar energy according to claim 1, wherein the main heat dissipation fins are arranged in a row of rectangular column arrays. 3. A special heat sink for concentrating solar energy according to claim 1, wherein the internal array of the secondary cooling fins is a multi-row cylindrical array or a multi-row elliptical column array, and the surrounding array of the secondary cooling fins An array of graphics concatenated from squares and semicircles. 4. A radiator dedicated to concentrating solar energy according to claim 1, characterized in that there is a concentrating photoelectric conversion receiver installation area on the bottom plate of the radiator. 5. A special radiator for concentrating solar energy according to claims 1, 2 and 4, characterized in that the length of the rectangular column of the main cooling fins should be longer than the length of the corresponding side of the concentrating photoelectric conversion receiver installation area more than one millimeter.