CN104014552A - Wind-power partition dust removing system for solar cell panel - Google Patents

Abstract

The invention relates to a wind-power partition dust removing system for a solar cell panel. The wind-power partition dust removing system comprises a base. The solar cell panel is arranged on the base through a supporting rod, a glass protection layer is arranged on the solar cell panel, a wind guide plate is arranged on one side of the supporting rod, the wind guide plate is connected with a fan, a plurality of dust removing areas are arranged on the lower surface of the glass protection layer, a plurality of parallel electrodes are arranged on the dust removing areas respectively, the ends of the electrodes are respectively connected with a high-voltage switch, the high-voltage switch is electrically connected with a high-voltage switching module, the output end of the solar cell panel is connected with a power detecting module, the power detecting module can transmit the detected power data to a data processing and controlling module, the data processing and controlling module is connected with the high-voltage switching module through an intelligent controlling module, the output end of the intelligent controlling module is further connected with the fan, and the data processing and controlling module is connected with a main machine. The wind-power partition dust removing system has the advantages of being good in dust removing effect, high in work efficiency and low in energy consumption.

Description

The wind-force subregion dust pelletizing system of solar panel

Technical field

The present invention relates to solar panel, relate in particular to the dust arrester of solar panel.

Background technology

The glass plate on solar panel surface is easy dust stratification dirt often, and dust can cause solar panel generating efficiency sharply to decline, and has a strong impact on the generating efficiency of solar power station.At present, the dedusting method on solar panel surface mainly relies on several modes such as wind-force dedusting, supersonic dust removal, scraper-type dedusting, and the major defect of above-mentioned dedusting method is: the reliability of wind-force dedusting and scraper-type dedusting is not high, complex structure, efficiency of dust collection are low; The shortcoming of supersonic dust removal is that cost is high, ease for use is poor.

The electromagnetic planar dust arrester having occurred at present, adopts dust detecting sensor and paired electrode, by detecting amount of dust, electrode is applied to alternating current, utilizes electrostatic force that dust is eliminated; When this dust arrester uses, owing to applying the alternating current of fixed size, its poor controllability on every pair of electrode, can not adjust flexibly, cause energy consumption and cost high, the degree of accuracy that dust sensor detects is not high, can not control exactly dust removal operation, cause dust removing effects not good.

Summary of the invention

The above-mentioned shortcoming that the applicant exists for prior art, studies and improves, and a kind of wind-force subregion dust pelletizing system of solar panel is provided, and it has controls flexibly, detects reliable feature.

The technical solution adopted in the present invention is as follows:

A wind-force subregion dust pelletizing system for solar panel, comprises base, and base is by rod assemblies solar panel, on solar panel, device has glassivation, one side device of support bar has wind deflector, and the sidepiece of wind deflector is evenly equipped with many guide ducts, and wind deflector is connected with blower fan; The lower surface of glassivation is divided into multiple dedustings region, on dedusting region, device has many parallel electrodes respectively, and the end of electrode connects respectively switch, and switch connects high-voltage switch gear, high-voltage switch gear electrical connection high pressure handover module, high pressure handover module is by high voltage supply module for power supply; On the output of solar panel, be connected with power detection module, the power data of detection is passed to data processing and control module by power detection module, described data processing is connected with described high pressure handover module by intelligent control module with control module, the output of described intelligent control module is also connected with described blower fan, and digital processing is connected with main frame with control module; In described main frame, device has real time data processing module; Described real time data processing module is repeatedly contrasted and is repeatedly regulated in real time high pressure handoff parameter to obtain the peak power output of solar panel by the power data that power detection module is detected, and by the high pressure handoff parameter under peak power output by intelligent control module control high pressure handover module, described high pressure handoff parameter comprises high pressure numerical value, switching frequency and switch electrode position.

Beneficial effect of the present invention is as follows:

The present invention combines with electromagnetism dedusting by the dedusting of Based Intelligent Control blower fan, has improved efficiency of dust collection; When electromagnetism dedusting, pass through subregion dedusting; owing to having reduced dedusting area; can pass through lower dedusting power; realize higher dust removing effects; and by detecting the power output of solar panel; utilize main frame wireless radio frequency transmission to regulate separately or combine adjusting to high pressure numerical value, switching frequency and the position of the switch; by high pressure handover module to alternately applying high pressure on electrode; between electrode, produce the electrostatic field of fluctuation; effectively remove the dust on glassivation, had the advantages that controllability is good, adjustment is flexible, energy consumption is low.

Brief description of the drawings

Fig. 1 is three-dimensional structure diagram of the present invention.

Fig. 2 is cross-sectional view of the present invention.

Fig. 3 is operation principle block diagram of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

See Fig. 1 to Fig. 3, the present invention includes and comprise base 1, base 1 installs solar panel 3 by support bar 2, on solar panel 3, device has glassivation 5, one side device of support bar 2 has wind deflector 21, the sidepiece of wind deflector 21 is evenly equipped with many guide ducts 22, and described wind deflector 21 is connected with blower fan 4; The lower surface of glassivation 5 is divided into multiple dedustings region 51, on dedusting region 51, device has many parallel electrodes 6 respectively, the end of electrode 6 connects respectively switch 13, switch 13 connects high-voltage switch gear 8, high-voltage switch gear 8 is electrically connected high pressure handover module 10, high pressure handover module 10 is powered by high voltage supply module 9, high pressure handover module 10 is to alternately applying high pressure on electrode 6, between electrode 6, produce the electrostatic field of fluctuation, the dust on glassivation 5 floats and fluctuates and comes off after electrostatic field polarization; On the output of solar panel 3, be connected with power detection module 7, the power data of detection is passed to data processing and control module 12 by power detection module 7, data processing is connected with high pressure handover module 10 by intelligent control module 11 with control module 12, the output of intelligent control module 11 is also connected with blower fan 4, for controlling the work of blower fan.

Digital processing is connected with main frame 14 with control module 12; In main frame 14, device has real time data processing module 15; Real time data processing module 15 repeatedly contrasts by the power data that power detection module 7 is detected and repeatedly regulates in real time high pressure handoff parameter to obtain the peak power output of solar panel, and the high pressure handoff parameter under peak power output is controlled to high pressure handover module 10 by intelligent control module 11, wherein, high pressure handoff parameter comprises high pressure numerical value, switching frequency and switch electrode position, data processing and control module 12 can regulate the one in high pressure handoff parameter separately, also can combine adjusting simultaneously;

Intelligent control module 11 batch (-type)s start blower fan 4 works, and blower fan 4 blows off the dust on glassivation 5 by wind deflector 21 and guide duct 22; When detecting that, after the peak power output of solar panel 3, intelligent control module 11 is closed blower fan 4 and worked.

The present invention combines with electromagnetism dedusting by the dedusting of Based Intelligent Control blower fan, has improved efficiency of dust collection; When electromagnetism dedusting, pass through subregion dedusting; owing to having reduced dedusting area; can pass through lower dedusting power; realize higher dust removing effects; and by detecting the power output of solar panel; utilize main frame to regulate separately or combine adjusting to high pressure numerical value, switching frequency and the position of the switch; by high pressure handover module to alternately applying high pressure on electrode; between electrode, produce the electrostatic field of fluctuation; effectively remove the dust on glassivation, had the advantages that controllability is good, adjustment is flexible, energy consumption is low.

More than describing is explanation of the invention, is not the restriction to invention, and limited range of the present invention is referring to claim, and without prejudice to spirit of the present invention in the situation that, the present invention can do any type of amendment.

Claims (1)

1. the wind-force subregion dust pelletizing system of a solar panel, comprise base (1), base (1) is by support bar (2) device solar panel (3), the upper device of solar panel (3) has glassivation (5), it is characterized in that: a side device of support bar (2) has wind deflector (21), the sidepiece of wind deflector (21) is evenly equipped with many guide ducts (22), and described wind deflector (21) is connected with blower fan (4); The lower surface of described glassivation (5) is divided into multiple dedustings region (51), on described dedusting region (51), device has many parallel electrodes (6) respectively, the end of electrode (6) connects respectively switch (13), switch (13) connects high-voltage switch gear (8), described high-voltage switch gear (8) electrical connection high pressure handover module (10), high pressure handover module (10) is by high voltage supply module (9) power supply; On the output of solar panel (3), be connected with power detection module (7), the power data of detection is passed to data processing and control module (12) by power detection module (7), described data processing is connected with described high pressure handover module (10) by intelligent control module (11) with control module (12), the output of described intelligent control module (11) is also connected with described blower fan (4), and digital processing is connected with main frame (14) with control module (12); In described main frame (14), device has real time data processing module (15); Described real time data processing module (15) is repeatedly contrasted and is repeatedly regulated in real time high pressure handoff parameter to obtain the peak power output of solar panel by the power data that power detection module (7) is detected, and the high pressure handoff parameter under peak power output is controlled to high pressure handover module (10) by intelligent control module (11), described high pressure handoff parameter comprises high pressure numerical value, switching frequency and switch electrode position.