CN208316678U - Radiating seat for Photospot solar mould group - Google Patents

Abstract

The utility model relates to a kind of radiating seats for Photospot solar mould group, the supporting upwardly extended in the middle part of the radiating piece and self-reference substrate that both ends including substrate, self-reference substrate upwardly extend, radiating piece and substrate, supporting surround the accommodating cavity that a cross section is in " E " font, radiating piece includes the corrugated part of first connecting portion, second connecting portion and connection first connecting portion and second connecting portion, first connecting portion is connect with substrate, and one end that corrugated part is connect with first connecting portion is tilted to the direction far from supporting to be extended.The above-mentioned heat radiation seat structure for Photospot solar mould group is simple, corrugated part is equipped with by radiating piece, the setting of corrugated part increases the heat-dissipating space inside radiating seat, the time of contact of hot-fluid and radiating piece is increased by river closure mode simultaneously, improve radiating efficiency, it realizes the heat generated during reducing solar power generation, improves the transfer efficiency and output power of more PN junction batteries.

Description

Radiating seat for Photospot solar mould group

Technical field

The utility model relates to radiator applied technical field more particularly to a kind of dissipating for Photospot solar mould group Hot seat.

Background technique

High-efficiency concentration solar photovoltaic power generation technology principle is using optical elements such as lens or reflecting mirrors, by large area Sunlight converge to the high conversion efficiency of small area, on more PN junction photovoltaic cell chips resistant to high temperature, by photovoltaic principle, by light Electric energy can be converted directly into.According to the energy amount of keeping law, the luminous energy of efficient optically focused energy, part can be turned by more PN junction batteries While being changed to electric energy, more PN junction battery temperatures are necessarily increased, and need to be distributed outward by radiator.It is hot in high power concentrator principle The reason of electronics is free and molecule vibration (turning) kinetic energy rank, so that energy gap reduction causes except VOC (open-circuit voltage) reduction, temperature liter Height can make the exhaustion region of more PN junctions narrow, and capacity effect reduces, therefore VOC (open-circuit voltage) is reduced, and affects whole optically focused The electricity of solar modules exports.

In the conventional technology, most of Photospot solar mould group is with die-casting technique, heat-dissipating pipe or coolant liquid cooling system The technologies such as system radiate, but above-mentioned heat dissipation technology processing procedure cost is excessively high, and craft precision ensures difficulty, affect more PN junction electricity Pond conversion and power output.Therefore, the prior art is defective, needs to improve.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of heat dissipation for Photospot solar mould group Seat, processing procedure is at low cost, and heat dissipation effect is preferable, to improve the transfer efficiency and output power of more PN junction batteries.

The technical solution of the utility model is as follows: a kind of radiating seat for Photospot solar mould group, including substrate, from institute State the both ends radiating piece upwardly extended of substrate and the supporting upwardly extended from the middle part of the substrate, the radiating piece with The substrate, supporting surround the accommodating cavity that a cross section is in " E " font, and the radiating piece includes first connecting portion, the second company The corrugated part of socket part and the connection first connecting portion and second connecting portion, the first connecting portion are connect with the substrate, institute One end that corrugated part is connect with the first connecting portion is stated to extend to the direction inclination far from the supporting.

Further, the outer wall of one end that the corrugated part is connect with the first connecting portion and the first connecting portion The inclination range of outer wall is 100 DEG C~160 DEG C.

Further, prolong to the direction far from the supporting one end that the corrugated part is connect with the second connecting portion It stretches.

Further, one end and the corrugated part and described first that the corrugated part is connect with the second connecting portion connect One end of socket part connection is set in parallel.

Further, the outer wall of the corrugated part towards the second connecting portion is equipped with several first radiating fins, each institute The first radiating fin is stated to be evenly distributed setting.

Further, the outer wall of the second connecting portion is equipped with several second radiating fins, second radiating fin Length is less than the length of first radiating fin.

Further, the outer wall of first radiating fin and the corrugated part towards the second connecting portion is perpendicular sets It sets, second radiating fin is vertical setting with the second connecting portion.

Further, the first connecting portion is vertical with the substrate connect, and the second connecting portion and described first connects Socket part is set in parallel.

Further, the supporting is vertical setting with the substrate, the one end of the supporting far from the substrate Equipped with mounting portion, the mounting portion is in I-shaped setting.

Further, the substrate, radiating piece, supporting pass through aluminium extruded technique, anode processing using aluminum-magnesium alloy material Integrated process be made.

Using the above scheme, the heat radiation seat structure for Photospot solar mould group of the utility model is simple, passes through heat dissipation Part is equipped with corrugated part, and the setting of corrugated part increases the heat-dissipating space inside radiating seat, while being increased by river closure mode The time of contact of hot-fluid and radiating piece improves radiating efficiency, realizes the heat generated during reducing solar power generation, improves more The transfer efficiency and output power of PN junction battery.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the radiating seat of a preferred embodiment of the utility model；

Fig. 2 is the top view of radiating seat shown in FIG. 1；

Fig. 3 is the side view of radiating seat shown in FIG. 1；

Fig. 4 is the enlarged drawing at A shown in FIG. 1；

Fig. 5 is radiating seat shown in FIG. 1 for the assembling figure in a Photospot solar mould group.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms in fact It is existing, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes public affairs to the utility model The understanding for opening content is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.

It is referring to FIG. 1 to FIG. 4, the dissipating for Photospot solar mould group 100 of a preferred embodiment of the utility model Hot seat 10, which further includes the condenser 90 being mounted on radiating seat 10, above condenser 90 Glass (not shown) and receiver (not shown), be mounted on condenser 90 both ends sheet metal component 80, sheet metal component 80, which is located at, to be dissipated The both ends of hot seat 10.The radiating seat 10 includes substrate 20, the radiating piece 30 that upwardly extends of both ends of self-reference substrate 20 and from base The supporting 40 that the middle part of plate 20 upwardly extends, radiating piece 30 and substrate 20, supporting 40 surround a cross section in " E " font Accommodating cavity, accommodating cavity is for accommodating condenser 90, receiver and glass, so that generated heat passes through when 90 optically focused of condenser Radiating seat 10 distributes outward.

Substrate 20 is supported for complete equipment, and the bottom surface of the substrate 20 is equipped with support portion 21, and support portion 21 is in item Shape setting, support and installation for substrate 20.Direction of the support portion 21 along substrate 20 far from radiating piece 30 is in gradually small setting, with Support portion 21 and ground or the contact area of other installation positions are reduced, so that external heat is transmitted on radiating seat 10. In another embodiment, the quantity of support portion 21 is two, and support portion 21 is equipped with inner cavity 210, is used for fixed support portion 21.

Referring to Fig. 5, the radiating seat 10 for the utility model is used in a Photospot solar mould group 100, the top of substrate 20 Face is equipped with several mounting posts 22, and mounting post 22 cooperates radiating piece 30, supporting 40 for installing sheet metal component 80.Substrate 20 Limiting section 23 and several hole locations 24 are additionally provided on top surface, the quantity of limiting section 23 is two, and each limiting section 23 is close to radiating piece 30 Setting, for installing condenser 90, and assembles condenser 90 in a manner of sliding rail, when saving the assembly assembly of condenser 90 Screw cost；Each hole location 24 is evenly distributed on the both ends of substrate 20, for installing the accessories such as connection joint, purge valve.At it In in an embodiment, the total length of the substrate 20 is 200mm~1200mm.

Referring to Fig. 3 and Fig. 4, the corrugated setting in the cross section of radiating piece 30, specifically, the radiating piece 30 includes First connecting portion 31, second connecting portion 32 and the corrugated part 33 for connecting first connecting portion 31 and second connecting portion 32, the first connection Portion 31 is vertical with substrate 20 to be connect, and second connecting portion 32 is set in parallel with first connecting portion 31, and corrugated part 33 is connect with first One end that portion 31 connects is tilted to the direction far from supporting 40 to be extended, so that the lower end of corrugated part 33 and condenser 90 form one A biggish heat-dissipating space increases heat dissipation effect.Similarly, it is held to close one end that corrugated part 33 is connect with first connecting portion 31 The direction of fitting 40, which tilts, to be extended, but to be formed by heat-dissipating space smaller for the lower end of the corrugated part 33 and condenser 90, radiates not It is ideal and be not easy to install.In one embodiment, the outer wall of one end that corrugated part 33 is connect with first connecting portion 31 and The inclination range of the outer wall of one interconnecting piece 31 is 100 DEG C~160 DEG C.One end that corrugated part 33 is connect with second connecting portion 32 to Direction far from supporting 40 extends.In one embodiment, one end and wave that corrugated part 33 is connect with second connecting portion 32 One end that line portion 33 is connect with first connecting portion 31 is set in parallel.The setting of corrugated part 33 increases dissipating inside radiating seat 10 Heat space, while the time of contact of hot-fluid Yu radiating piece 30 is increased by river closure mode, improve radiating efficiency.

The outer wall of corrugated part 33 towards second connecting portion 32 is equipped with several first radiating fins 330, each first radiating fin 330 are evenly distributed setting, and the outer wall of second connecting portion 32 is equipped with several second radiating fins 320, each second radiating fin 320 Be evenly distributed setting, and the heat dissipation effect of corrugated part 33 and second connecting portion 32 can be improved.In one embodiment, first dissipates The length of hot fin 330 is greater than the length of the second radiating fin 320, keeps radiating seat 10 compact, saves material.From outside and From cross section, the first radiating fin 330 and the outer wall of corrugated part 33 towards second connecting portion 32 are vertical setting, and second dissipates Hot fin 320 is vertical setting with second connecting portion 32.Second connecting portion 32 is equipped with far from one end of corrugated part 33 and abuts slot 321, which abuts slot 321 for installing glass, is suitable for for being clamped different types of glass Glass.

Supporting 40 is used to support condenser 90, and supporting 40 is vertical setting with substrate 20, and supporting 40 is far from substrate 20 one end is equipped with mounting portion 41, and mounting portion 41 is substantially in I-shaped setting, and the top surface of mounting portion 41 is plane, poly- for being clamped Light microscopic 90.In one embodiment, the height of the top surface of top surface, that is, mounting portion 41 of the supporting 40 to substrate 20, which is less than, dissipates Height of the top surface of top surface, that is, second connecting portion 32 of warmware 30 to substrate 20.Specifically, the top surface of supporting 40 is to substrate 20 Height be equal to the junction of corrugated part 33 and second connecting portion 32 to the height of substrate 20.In another embodiment, supporting 40 are equipped with card interface 42 close to one end of substrate 20, and card interface 42 is one of rectangular, arc, taper, trapezoidal, for being clamped Sheet metal component 80.

In another embodiment, substrate 20, radiating piece 30, supporting 40 using aluminum-magnesium alloy material by aluminium extruded technique, The integrated processes such as anode processing are made, and appearance and overall deformation control are in 0.2mm, so that the making technology of the radiating seat 10 Simply, at low cost, light-weight, the service life is long, and large-scale production is easy, while when light gathering concentration, avoiding mould group defocusing burning The bad phenomenons such as coke, and heat dissipation effect can satisfy the cooling requirements of whole high-effective concentration mould group, improve open-circuit voltage VOC Value, can obtain after tested, and every to reduce by 1 DEG C, VOC rises 0.005V, and mould group can totally reduce by 10 DEG C~25 DEG C, i.e. promotion VOC= 0.05V~0.75V improves output power, increases the generated energy of mould group.

Above-mentioned 10 structure of radiating seat for Photospot solar mould group 100 is simple, is equipped with ripple by radiating piece 30 Portion 33, the setting of corrugated part 33 increase the heat-dissipating space inside radiating seat 10, at the same by river closure mode increase hot-fluid with The time of contact of radiating piece 30 improves radiating efficiency, realizes the heat generated during reducing solar power generation, improves more PN junctions The transfer efficiency and output power of battery.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of radiating seat for Photospot solar mould group, which is characterized in that including substrate, from the both ends of the substrate to The radiating piece of upper extension and the supporting upwardly extended from the middle part of the substrate, the radiating piece and the substrate, supporting The accommodating cavity that a cross section is in " E " font is surrounded, the radiating piece includes first connecting portion, second connecting portion and connection described the The corrugated part of one interconnecting piece and second connecting portion, the first connecting portion are connect with the substrate, the corrugated part and described the One end of one interconnecting piece connection is tilted to the direction far from the supporting to be extended.

2. the radiating seat according to claim 1 for Photospot solar mould group, which is characterized in that the corrugated part and institute The inclination range for stating the outer wall of one end of first connecting portion connection and the outer wall of the first connecting portion is 100 DEG C~160 DEG C.

3. the radiating seat according to claim 1 for Photospot solar mould group, which is characterized in that the corrugated part and institute The one end for stating second connecting portion connection extends to the direction far from the supporting.

4. the radiating seat according to claim 3 for Photospot solar mould group, which is characterized in that the corrugated part and institute One end that the one end and the corrugated part for stating second connecting portion connection are connect with the first connecting portion is set in parallel.

5. the radiating seat according to claim 4 for Photospot solar mould group, which is characterized in that the corrugated part direction The outer wall of the second connecting portion is equipped with several first radiating fins, and each first radiating fin is evenly distributed setting.

6. the radiating seat according to claim 5 for Photospot solar mould group, which is characterized in that the second connecting portion Outer wall be equipped with several second radiating fins, the length of second radiating fin is less than the length of first radiating fin.

7. the radiating seat according to claim 6 for Photospot solar mould group, which is characterized in that first heat radiating fin Piece and the outer wall of the corrugated part towards the second connecting portion are vertical setting, and second radiating fin and described second connects Socket part is vertical setting.

8. the radiating seat according to claim 1 for Photospot solar mould group, which is characterized in that the first connecting portion Vertical with the substrate to connect, the second connecting portion is set in parallel with the first connecting portion.

9. the radiating seat according to claim 1 for Photospot solar mould group, which is characterized in that the supporting and institute It states substrate to be vertical setting, the supporting is equipped with mounting portion far from one end of the substrate, and the mounting portion is set in I-shaped It sets.

10. according to claim 1 to the radiating seat for being used for Photospot solar mould group described in 9 any one, which is characterized in that institute Substrate, radiating piece, supporting is stated to be made up using aluminum-magnesium alloy material of the integrated process of aluminium extruded technique, anode processing.