CN220527923U - Wind-solar power generation solar panel ventilation and heat dissipation device - Google Patents

Abstract

The utility model discloses a ventilation and heat dissipation device of a wind-solar power generation solar panel, which comprises a chute, wherein a short rod is arranged above the chute, the short rod is connected with one end of a slidable connecting rod, the other end of the slidable connecting rod is connected with a supporting rod above the solar panel, and a telescopic fold type bellows is arranged below the supporting rod; the utility model provides a solar power generation device with adjustable installation height of a solar panel and ventilation and heat dissipation, wherein the angle of the solar panel and the volume inside an air box can be adjusted by arranging a chute and a telescopic fold type air box, the air flow rate inside the air box is changed by changing the volume of the air box, and the heat of the solar panel is rapidly taken away by blowing air inside a small fan blade pair, so that the working efficiency of the solar panel is improved, and the residual driving power of a wind power generation part is fully utilized.

Description

Wind-solar power generation solar panel ventilation and heat dissipation device

Technical Field

The utility model relates to the technical field of solar power generation, in particular to a ventilation and heat dissipation device of a wind-solar power generation solar panel.

Background

At present, the increasingly shortage of energy sources is increasing, solar energy utilization is receiving more and more attention, especially solar energy photovoltaic modules are widely applied in the fields of power industry, even traffic, communication and the like, but photovoltaic conversion efficiency is not high, the solar energy photovoltaic modules are also becoming barriers for restricting the development of the solar energy photovoltaic modules, as green energy sources, solar energy development and utilization are increasingly receiving attention, solar energy development and utilization types integrated with buildings are greatly developed, most of the photovoltaic modules in the types adopt a fixed installation mode, the problems of ventilation and heat dissipation of the fixed photovoltaic modules are not easy to solve due to various conditions in installation and design, especially the lower side plate surface are more severe, and the solar energy electric plates are easy to age and shorten the service life of the solar energy electric plates.

However, when the conventional solar panel ventilation and heat dissipation device is used, it is found that the highest temperature of the lower surface of the panel is not directly below the panel but behind the panel, that is, when the solar panel ventilation and heat dissipation device is installed on a large scale, the surface temperature of the panel installed at the rear part of the wind traveling direction is greatly higher than that of the front part, and the larger the scale is, the more serious the effect is, because the ventilation mode is formed by adopting air in natural environment, the higher the air temperature is in hot environment, the heat is mutually overlapped and influenced behind the solar panel, the heat cannot be naturally dissipated from the channel in a short time, and the ventilation and heat reduction effect is limited.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a ventilation and heat dissipation device for a wind-solar power generation solar panel.

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model relates to a ventilation and heat dissipation device of a wind-solar power generation solar panel, which comprises a chute, wherein a short rod is arranged above the chute, the short rod is connected with one end of a sliding connecting rod, the other end of the sliding connecting rod is connected with a supporting rod above the solar panel, a telescopic fold type bellows is arranged below the supporting rod, a small impeller is arranged at an air inlet on the right side of the fold type bellows, the small impeller is connected with one end of a small impeller shaft through threads, a deep groove ball bearing is arranged on the small impeller shaft and is connected with a large conical gear, the other end of the small impeller shaft is connected with a generator through a coupler, the large conical gear is meshed with the small conical gear, the small conical gear is arranged at one end of a transmission shaft, a conical roller bearing is arranged on the transmission shaft, the other end of the transmission shaft is provided with the same small conical gear, the small conical gear is meshed with the large conical gear, and one end of the large impeller shaft is provided with the large impeller and the deep groove ball bearing.

As a preferable technical scheme of the utility model, the transmission shaft is arranged in a circular column casing, the upper end of the circular column casing is connected with an upper gear box, a tapered roller bearing, a small tapered gear and a large tapered gear are arranged in the upper gear box, the lower end of the circular column casing is connected with a lower gear box, and the large tapered gear, the small tapered gear, a sleeve and a coupling are arranged in the lower gear box.

As a preferable technical scheme of the utility model, the chute is provided with the tooth groove, the tooth groove can fix the short rod, and the short rod is connected with the connecting rod.

As a preferable technical scheme of the utility model, the supporting rod is connected with a fixing bracket of the solar panel. The support rod is connected with the connecting rod, and the connecting rod can rotate freely.

As a preferable technical scheme of the utility model, the bellows is of a telescopic fold type and has good elasticity, and the bellows is connected with the solar panel.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides a solar power generation device with adjustable installation height of a solar panel and ventilation and heat dissipation, wherein the angle of the solar panel and the volume inside an air box can be adjusted by arranging a chute and a telescopic fold type air box, the air flow rate inside the air box is changed by changing the volume of the air box, and the heat of the solar panel is rapidly taken away by blowing air inside a small fan blade pair, so that the working efficiency of the solar panel is improved, and the residual driving power of a wind power generation part is fully utilized. And moreover, by utilizing the relation between the sliding groove and the adjusting rod, the size of the bellows can be adaptively adjusted, so that the ventilation and cooling work of the solar panel in different use states can be met, and the adaptability is high.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the utility model and do not constitute a limitation to the utility model, and in which:

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is an enlarged schematic view of a chute portion of the present utility model;

FIG. 3 is an enlarged schematic view of the interior of section A of the present utility model;

FIG. 4 is an enlarged schematic view of the interior of section B of the present utility model;

FIG. 5 is an enlarged schematic view of the interior of section C of the present utility model;

in the figure: 101. a chute; 102. a short bar; 103. a connecting rod; 104. a support rod; 105. a wind box; 106. a solar panel; 201. a generator; 202. a small impeller; 203. a lower gear box; 204. a circular cylinder; 205. an upper gear box; 206. deep groove ball bearings; 207. a large conical gear; 208. a small conical gear; 209. tapered roller bearings; 210. a large impeller shaft; 211. a transmission shaft; 212. a small impeller shaft; 213. a sleeve; 214. a coupling; 215. a large impeller.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model,

wherein like reference numerals refer to like elements throughout.

Example 1

As shown in fig. 1-5, the utility model provides a ventilation and heat dissipation device for a wind-solar power generation solar panel, which comprises a chute 101, wherein a short rod 102 is arranged above the chute 101, the short rod 102 is connected with one end of a slidable connecting rod 103, the other end of the slidable connecting rod 103 is connected with a supporting rod 104 above the solar panel 106, a telescopic corrugated bellows 105 is arranged below the supporting rod 104, a small impeller 202 is arranged at an air inlet on the right side of the corrugated bellows 105, one end of the small impeller 202 and one end of a small impeller 202 shaft are connected through threads, a deep groove ball bearing 206 and a large conical gear 207 are arranged on the small impeller 202 shaft, the other end of the small impeller 202 shaft is connected with a generator 201 through a coupler 214, the large conical gear 207 is meshed with a small conical gear 208, the small conical gear 208 is arranged at one end of a transmission shaft 211, the other end of the transmission shaft 211 is provided with the same small conical gear 208, the small conical gear 208 is meshed with the large conical gear 207, the large conical gear 207 is arranged on a large impeller 215 shaft 210, and one end of the large impeller 215 shaft 210 is provided with the large impeller 215 and the deep groove ball bearing 206.

Further, the transmission shaft 211 is installed inside the circular column casing 204, the upper end of the circular column casing 204 is connected with the upper gear box 205, the tapered roller bearing 209, the small tapered gear 208 and the large tapered gear 207 are installed inside the upper gear box 205, the lower end of the circular column casing 204 is connected with the lower gear box 203, and the large tapered gear 207, the small tapered gear 208, the sleeve 213 and the coupler 214 are installed inside the lower gear box 203.

The chute 101 is provided with a tooth slot, the tooth slot can fix the short rod 102 and is connected with the connecting rod 103, the volume of the air box 105 can be adjusted only by adjusting the position of the short rod 102 on the chute 101, and the smaller the volume of the air box 105 is adjusted, the faster the wind speed flowing through the air box 105 is, so that more heat can be taken away, and the heat dissipation efficiency of the solar panel 106 is improved.

The support bar 104 is connected to a fixed support of the solar panel 106. The support rod 104 is connected to the link rod 103, and the link rod 103 can freely rotate.

The bellows 105 is a stretchable bellows type, has good elasticity, is connected with the solar panel 106, keeps no air leakage at the connection part, and the solar panel 106 is mounted on a solar panel 106 fixing support.

Specifically, the use principle is as follows: the residual driving force of the wind power generation system is utilized by the small impeller 202, air except the back surface of the solar panel 106 can be blown into the bellows 105, the volume of the bellows 105 and the angle of the solar panel 106 are adjusted through the position of the connecting rod 103 on the chute 101, hot air on the back surface of the solar panel 106 is discharged through the air outlet on the other side, and the size of the bellows 105 is adjusted according to weather conditions. When rapid heat dissipation is required, the volume of the air box 105 can be reduced, and the air speed passing through the air box 105 can be increased under the same rotation speed of the small impeller 202, so that the heat of the solar panel 106 can be rapidly taken away. Under the condition that a plurality of solar panels 106 are installed, most of heat is in the bellows 105, and cold air blown by the small impeller 202 is blown to the left side of the solar panels 106, so that superposition of heat is avoided, and the power generation efficiency of the solar panels is improved.

In summary, the utility model provides a solar power generation device with adjustable installation height of a solar panel and ventilation and heat dissipation, which can adjust the angle of the solar panel and the volume inside an air box by arranging a chute and a telescopic fold type air box, change the air flow velocity inside the air box by changing the volume of the air box, rapidly take away the heat of the solar panel by blowing air inside a small fan blade pair, thereby improving the working efficiency of the solar panel, and further fully utilizing the residual driving power of a wind power generation part. And moreover, by utilizing the relation between the sliding groove and the adjusting rod, the size of the bellows can be adaptively adjusted, so that the ventilation and cooling work of the solar panel in different use states can be met, and the adaptability is high.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (5)

1. The utility model provides a wind-solar power generation solar panel ventilation heat abstractor, includes spout (101), its characterized in that, the top of spout (101) is equipped with quarter butt (102), but quarter butt (102) are connected one end of sliding connection rod (103), but sliding connection rod (103) other end links to each other with upper support rod (104) of solar panel (106), support rod (104) below is equipped with scalable fold bellows (105), fold bellows (105) right side wind inlet department is equipped with impeller (202), impeller (202) and impeller (202) one end of axle pass through threaded connection, install deep groove ball bearing (206) and large conical gear (207) on impeller (202) axle, but the other end of impeller (202) axle passes through shaft coupling (214) and links to each other with generator (201), large conical gear (207) meshes with small conical gear (208), conical gear (208) are installed in the one end of transmission shaft (211), install conical impeller (209) on transmission shaft (211), the same conical gear (208) is installed on the large conical gear (207) of impeller (210), one end of the shaft (210) of the large impeller (215) is provided with the large impeller (215) and the deep groove ball bearing (206).

2. The wind-solar power generation solar panel ventilation and heat dissipation device according to claim 1, wherein the transmission shaft (211) is installed inside a circular column casing (204), the upper end of the circular column casing (204) is connected with an upper gear box (205), a tapered roller bearing (209), a small tapered gear (208) and a large tapered gear (207) are installed inside the upper gear box (205), the lower end of the circular column casing (204) is connected with a lower gear box (203), and the large tapered gear (207), the small tapered gear (208), a sleeve (213) and a coupler (214) are installed inside the lower gear box (203).

3. The ventilation and heat dissipation device for the wind-solar power generation solar panel according to claim 1, wherein tooth grooves are formed in the sliding grooves (101), short rods (102) can be fixed on the tooth grooves, and the short rods (102) are connected with connecting rods (103).

4. The wind-solar power generation solar panel ventilation and heat dissipation device according to claim 1, wherein the support rod (104) is connected with a fixed bracket of the solar panel (106); the supporting rod (104) is connected with the connecting rod (103), and the connecting rod (103) can rotate freely.

5. A wind-solar power generation solar panel ventilation and heat dissipation device according to claim 1, characterized in that the bellows (105) is a telescopic bellows, and the bellows (105) is connected with the solar panel (106).