CN108718179A - Photovoltaic waterborne automatic pumping cleaning at times and cooling device - Google Patents

Abstract

The invention discloses a kind of automatic pumping cleaning at times of photovoltaic waterborne and cooling devices, including pumping system, cooling system, cleaning system；The cooling system is arranged in the lower section of photovoltaic panel, the cleaning system is arranged in the top of photovoltaic panel, the pumping system is connected with cooling system, cleaning system respectively, when daytime, pumping system feeds the water into cooling system and is cooled down to photovoltaic panel, when evening, pumping system feeds the water into cleaning system and is cleaned to photovoltaic panel.The present invention can also play photovoltaic panel cooling effect by the design for being laid with cooling system below photovoltaic panel and diversion flows through when photovoltaic works, and improve whole work efficiency.

Description

Photovoltaic waterborne automatic pumping cleaning at times and cooling device

Technical field

The present invention relates to a kind of photovoltaic module deashing/dedustings and cooling equipment, more particularly to a kind of water surface that is applied to float The photovoltaic automated cleaning of floating photovoltaic plant cools down equipment.

Background technology

Dust is the main environment unfavorable factor for influencing photovoltaic efficiency, and the cleaning on photovoltaic power station component surface is One of major issue paid close attention in solar energy generation technology.The photovoltaic plant to work long hours is blocked by what dust was brought, heat The influences such as spot and corrosion effect, there are component reduced service life, the problems such as decrease of power generation.Photovoltaic plant conduct waterborne Emerging photovoltaic generation form has reduced adverse effect of the dust to assembly property compared to ground photovoltaic, but there is still a need for It carries out regularly photovoltaic panel and cleans dedusting.Current floating photovoltaic plant, which there is no, considers photovoltaic cleaning device, if Photovoltaic plant cleaning is carried out using artificial row the boat, increases the difficulty of later maintenance.It is necessary to rely on the ring of photovoltaic installation waterborne Border advantage makes full use of convenient available clean water resources, is cleaned automatically to photovoltaic panel, to realize to photovoltaic waterborne just Victory is safeguarded.Solar module is very sensitive to temperature, and there is higher operating temperature, dust to set up surface when photovoltaic works Accumulation will increase the heat transfer resistance of photovoltaic module, influence its heat dissipation.Therefore high temperature when photovoltaic work is also another influence The unfavorable factor of photovoltaic efficiency.

Goal of the invention

For the present invention in order to solve the problems, such as that photovoltaic is difficult to clean, the purpose of the present invention is to provide a kind of easy-to-use collection to supply The photovoltaic automatic cleaning apparatus of water deashing cooling integrated can fetch water for the photovoltaic plant on fresh water level nearby, Realize the effect of dust in spraying-rinsing photovoltaic panel.

For this problem of the hot operation temperature of photovoltaic, the present invention by be laid with below photovoltaic panel serpentine waterways and The design that diversion flows through when photovoltaic works can also play photovoltaic panel cooling effect, improve whole work efficiency.

To achieve the above object, the present invention proposes that a kind of photovoltaic waterborne cleans automatically and cooling integrated system, the present invention relate to And a kind of photovoltaic dedusting waterborne and cooling device, automatic cleaning cooling is carried out to photovoltaic panel using the water resource being easy to get, to realize Convenient maintenance to photovoltaic waterborne, specifically：

A kind of automatic pumping cleaning at times of photovoltaic waterborne and cooling device, including pumping system, cooling system, cleaning system System；The cooling system is arranged in the lower section of photovoltaic panel, and the cleaning system is arranged in the top of photovoltaic panel, the pumping Water system is connected with cooling system, cleaning system respectively, and when daytime, pumping system feeds the water into cooling system and carried out to photovoltaic panel Cooling, when evening, pumping system feeds the water into cleaning system and is cleaned to photovoltaic panel.

Further, the cooling system includes the cooling tube being arranged below photovoltaic panel, described cooling tube one end Connect pumping system, another end opening, outflow of supplying water.

Further, the cooling tube is serpentine structure.

Further, the pumping system includes a centrifugal pump, and the water inlet end of the centrifugal pump connects water inlet pipe, The water outlet of centrifugal pump connects outlet pipe, and the water inlet pipe extends in water source, and check valve is equipped on water inlet pipe；Described Outlet pipe connects water spout and cooling tube by a two way valve.

Further, the length of the outlet pipe is adjustable, to adapt to photovoltaic panel angle of inclination, ensures water outlet and photovoltaic Plate surface keeps sustained height.

Further, the water outlet of the water spout is higher than photovoltaic panel, and when for photovoltaic panel cleaning, water spout will wash Water is sprayed in the form of water mist in photovoltaic panel.

Further, the cleaning system includes a motor, and the motor is driven by a set of transmission system It moves a washer to rotate in photovoltaic panel, realizes cleaning.

Further, the transmission system includes a worm screw, and by the motor drive, it is rotated the worm screw, Worm screw engages to form speed reducer structure with turbine, is set at the center of worm gear there are one short axle is exported, master is installed in the short axle The movement of crank, turbine makes main crank around the whole circle rotation of turbine axis；

The main crank other end connects auxiliary crank by connecting rod, to drive auxiliary crank to be rotated around fulcrum central axis, Fulcrum is vertical with photovoltaic bracket and fulcrum lower end is fixed on photovoltaic bracket, passes through a perpendicular connecting shaft above auxiliary crank Fixed layering is cross-linked fixed crank, and synchronous rotary, the fixed crank other side are solid simultaneously with auxiliary crank for fixed crank holding Surely there is photovoltaic washer.

Further, motor is fixed on the supporting rod of photovoltaic panel, and the auxiliary crank, connecting rod, main crank are located at light The lower section of plate is lied prostrate, fixed crank is located at the top of photovoltaic panel, and fulcrum is located at one end of photovoltaic bracket.

Further, the motor is controlled by controller.

Beneficial effects of the present invention：

1. the present invention can nearby be fetched water by the pumping system of design, convenient maintenance saves needed for clean and maintenance The energy and cost.

2. quick and convenient assembly may be implemented as individual system in the water spray and cleaning device of the present invention, simple to tie Structure design is installed when needing on photovoltaic bracket.

3. controlling motor work by controller and two way valve to control scavenging period, it is generally located on early morning or is close to Photovoltaic module is cleaned when late, photovoltaic panel is not blocked, avoiding artificial shade makes photovoltaic array that hot spot effect, shadow occur Ring the normal operation of photovoltaic panel.When photovoltaic panel on daytime works normally, made by the two-way valve between water spout and nozzle base Flow plays cooling effect from the serpentine waterways water outlet outflow on pedestal.According to the component pollution level cleaning frequency, For the photovoltaic plant in overwater service, since the water surface more cleans, the period can be suitably lengthened, one month 1-2 times.

3. plant investment is at low cost.

Description of the drawings

The accompanying drawings which form a part of this application are used for providing further understanding of the present application, and the application's shows Meaning property embodiment and its explanation do not constitute the improper restriction to the application for explaining the application.

Fig. 1 is photovoltaic automatic pumping waterborne cleaning and cooling device stereogram；

Fig. 2 is photovoltaic automatic pumping waterborne cleaning and cooling device front view；

Fig. 3 is photovoltaic automatic pumping waterborne cleaning and cooling device vertical view；

Fig. 4 is cooling system backside structure figure；

Fig. 5 is cooling system Facad structure figure (removing photovoltaic panel)；

Fig. 6 is cleaning systems vertical view；

Fig. 7 is a kind of photovoltaic automatic pumping cleaning device front view waterborne of (no photovoltaic panel, bearing)；

Fig. 8 is cleaning system detail structure diagram；

In figure：1 electric centrifugal pump, 2 water inlet pipes, 3 check valves, 4 outlet pipes, 5 nozzle bearing, 6 water spout, 7 spare water storages Case, 8 water filling ports, 9 serpentine waterways, 10 two way valves, 11 microcontrollers, 12 motor, 13 worm screws, 14 turbines, 15 short axles, 16 main songs Handle, 17 connecting rods, 18 auxiliary cranks, 19 fulcrums, 20 connecting shafts, 21 fixed cranks, 22 photovoltaic washers, 23 vertical supports, 24 photovoltaics Plate, 25 photovoltaic bearings, 26 photovoltaic brackets, 27 supporting rods, 28 spherical linkages, 29 cube bearings, 30 gaskets, 31 water float bowls.

Specific implementation mode

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or combination thereof；

In order to facilitate narration, if there is "upper", "lower", printed words in the present invention, the upper and lower with attached drawing itself is only indicated To consistent, restriction effect is not played to structure, it is only for convenient for the description present invention and simplify description, rather than indicate or dark Show that signified equipment or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as pair The limitation of the present invention.

Term explains part:The terms such as term " installation ", " connected ", " connection ", " fixation " in the present invention should do broad sense Understand, for example, it may be being fixedly connected, may be a detachable connection, or be integrated；It can be mechanical connection, can also be Electrical connection, can be directly connected to, and can also be can be connection inside two elements indirectly connected through an intermediary, or The interaction relationship of two elements of person, for the ordinary skill in the art, can understand as the case may be on Term is stated in concrete meaning of the invention.

As background technology is introduced, in the prior art dust be influence photovoltaic efficiency main environment it is unfavorable because Element, the cleaning on photovoltaic power station component surface are one of the major issues paid close attention in solar energy generation technology.It works long hours Photovoltaic plant, blocked by what dust was brought, the influences such as hot spot and corrosion effect, there are component reduced service life, hair The problems such as electrical efficiency reduces.Photovoltaic plant waterborne has reduced as emerging photovoltaic generation form compared to ground photovoltaic Dust cleans dedusting to the adverse effect of assembly property, but there is still a need for regularly photovoltaic panel is carried out.Current floating photovoltaic electric Station, which there is no, considers photovoltaic cleaning device, if carrying out photovoltaic plant cleaning using manually rowing the boat, increases later maintenance Difficulty.It is necessary to rely on the environmental advantage of photovoltaic installation waterborne, convenient available clean water resources are made full use of, to photovoltaic panel Automatically it is cleaned, to realize the convenient maintenance to photovoltaic waterborne.Solar module is very sensitive to temperature, when photovoltaic works With higher operating temperature, dust will increase the heat transfer resistance of photovoltaic module in the accumulation for setting up surface, influence its heat dissipation.Cause High temperature when this photovoltaic works, which is also another, influences the unfavorable factor of photovoltaic efficiency.In order to which the technology for solving as above is asked Topic is right present applicant proposes a kind of a kind of photovoltaic automatic cleaning apparatus of easy-to-use collection water supply deashing cooling integrated of offer It in the photovoltaic plant on fresh water level, can fetch water nearby, realize the effect of dust in spraying-rinsing photovoltaic panel.For This problem of the hot operation temperature of photovoltaic, the present invention below photovoltaic panel by being laid with serpentine waterways and drawing when photovoltaic works The design that water flows through can also play photovoltaic panel cooling effect, improve whole work efficiency.

In a kind of typical embodiment of the application, as shown in Figure 1, including pumping system, cooling system, cleaning system System；The cooling system is arranged in the lower section of photovoltaic panel, and the cleaning system is arranged in the top of photovoltaic panel, the pumping Water system is connected with cooling system, cleaning system respectively, and when daytime, pumping system feeds the water into cooling system and carried out to photovoltaic panel Cooling, when evening, pumping system feeds the water into cleaning system and is cleaned to photovoltaic panel.

Further, pumping system includes a water pump, water inlet pipe and outlet pipe, and further preferred water pump uses one Kind miniature electric centrifugal pump 1,2 one end of water inlet pipe are connected with 1 water inlet of electric centrifugal pump, and edge is stretched after other end connection check valve 3 To extending into spare water tank 7 in lake water or according to actual needs.The water outlet of outlet pipe 4 lower end and electric centrifugal pump 1 It is connected.

And further preferred embodiment, outlet pipe 4 can be designed to the structure of collapsing length adjustment type, to adapt to photovoltaic 21 angle of inclination of plate ensures that water outlet keeps sustained height with photovoltaic plate surface.

The specific pumping system course of work is as follows：

After electric centrifugal pump 1 starts, the impeller that is rotated in electric centrifugal pump 1 drives the water high speed rotation in pump, water make from The heart moves, and throws away outward and is pressed into outlet pipe 4.After water is thrown out of, the pressure near impeller reduces, and is just formed near shaft One low-pressure area.Here pressure is more much lower than atmospheric pressure, the water in lake just under atmospheric pressure, wash open check valve 3 from Water inlet pipe 2 pumps interior into electric centrifugal pump 1.The water rushed in is thrown out of again in impeller high speed rotation, and is pressed into outlet pipe 4。

Further, two way valve 10 is installed between outlet pipe 4 and water filling port 8, nozzle 6, water filling port 8 is embedded in spray In mouth bearing, nozzle is positioned on nozzle bearing, nozzle water outlet in photovoltaic panel just above.

Cooling system includes cooling tube, it is preferred that the form that serpentine waterways 9 may be used of cooling tube, serpentine waterways 9 One end connects water filling port, another end opening；When daytime, start-up of cooling system work, by electric centrifugal pump 1 from water tank 7 or It absorbs water in person's lake water, water enters serpentine waterways 9, the water inlet of serpentine waterways 9 mouth of a river through two way valve 10 from outlet pipe 4 from water filling port 8 It is connected with water filling port 8, serpentine waterways are laid below photovoltaic panel backboard (Fig. 4, Fig. 5), so that water is flowed through entire backboard, snakelike 9 end of water channel is flowed back in lake, and cooling photovoltaic panel is played the role of.

Night is absorbed water by electric centrifugal pump 1 from water tank 7/ or lake water, is flowed through outlet pipe 4 and is passed through two way valve Washings are sprayed in the form of water mist on photovoltaic module 21 (Fig. 6, Fig. 7, Fig. 8) using nozzle 6.

Further, the controller in the present invention preferably uses microcontroller, and by microcontroller 11, two way valve 10 controls electricity Machine works to control scavenging period, is generally located on early morning or connects water spout 6 at dusk and cleaned to photovoltaic module, in daytime Between photovoltaic panel work when connect water filling port 8 cooled down, further, preferred embodiment, microcontroller 11 is fixed on photovoltaic bracket On the pillar of bottom, it is located at 12 lower section of motor.

Cleaning system includes motor 12, and power is provided for washer by motor 12 and 13 turbine 14 of deceleration worm screw, Make motor that washer 22 be driven to rotate by link mechanism；Specific transmission device is as follows：

It is rotated in motor drive scroll bar 13, worm screw 13 engages to form speed reducer structure with turbine 14, keeps motor output fast Degree reduces.There is an output short axle 15 at turbine center, exports and main crank 16 is installed in short axle 15, the movement of turbine 14 makes main crank Around the whole circle rotation of 13 axis of turbine.Link mechanism form configuration diagram and with photovoltaic panel, the opposite level of photovoltaic bracket, interleaved bits It sets and sees Fig. 6,7,8.

16 other end of main crank is connected with connecting rod 17, connecting rod 17 be connected to 18 side of auxiliary crank again to drive auxiliary crank around The secondary axis at 19 center of fulcrum is rotated, and 19 lower end of fulcrum is fixed on photovoltaic bracket 26, and 19 upper end cutting ferrule of fulcrum Auxiliary crank 18 not only supports auxiliary crank, but also auxiliary crank 18 may be implemented and rotated freely around fulcrum 19.18 top of auxiliary crank passes through company Axis 20 fixes layering and is cross-linked fixed crank 21, fixed crank 21 keep with the synchronous rotary simultaneously of auxiliary crank 18, it is fixed bent 21 other side of handle has been screwed photovoltaic washer 22.Therefore, photovoltaic washer 22 is driven while auxiliary crank 18 rotates Reciprocally swinging realizes the cleaning to photovoltaic panel.

The present invention controls motor work to control scavenging period by controller and two way valve, is generally located on early morning Or photovoltaic module is cleaned when the dusk, photovoltaic panel is not blocked, avoiding artificial shade makes photovoltaic array that hot spot effect occur It answers, influences the normal operation of photovoltaic panel.When photovoltaic panel on daytime works normally, by two-way between water spout and nozzle base Valve makes flow from the serpentine waterways water outlet outflow on pedestal, plays cooling effect.It is cleaned according to component pollution level Period, since the water surface more cleans, can suitably lengthen the period for the photovoltaic plant in overwater service, one month 1-2 times.

The foregoing is merely the preferred embodiments of the application, are not intended to limit this application, for the skill of this field For art personnel, the application can have various modifications and variations.Within the spirit and principles of this application, any made by repair Change, equivalent replacement, improvement etc., should be included within the protection domain of the application.

Claims (10)

1. a kind of automatic pumping cleaning at times of photovoltaic waterborne and cooling device, which is characterized in that including pumping system, cooling system System, cleaning system；The cooling system is arranged in the lower section of photovoltaic panel, and the cleaning system is arranged in the upper of photovoltaic panel Side, the pumping system is connected with cooling system, cleaning system respectively, and when daytime, pumping system feeds the water into cooling system Photovoltaic panel is cooled down, when evening, pumping system feeds the water into cleaning system and cleaned to photovoltaic panel.

2. photovoltaic waterborne as described in claim 1 automatic pumping cleaning at times and cooling device, which is characterized in that described Cooling system includes the cooling tube being arranged below photovoltaic panel, described cooling tube one end connection pumping system, another end opening, It supplies water and flows out.

3. photovoltaic waterborne as claimed in claim 2 automatic pumping cleaning at times and cooling device, which is characterized in that described Cooling tube is serpentine structure.

4. photovoltaic waterborne as claimed in claim 2 automatic pumping cleaning at times and cooling device, which is characterized in that described Pumping system includes a centrifugal pump, and the water inlet end of the centrifugal pump connects water inlet pipe, the water outlet connection water outlet of centrifugal pump Pipe, the water inlet pipe extend in water source, and check valve is equipped on water inlet pipe；The outlet pipe passes through a two way valve Connect water spout and cooling tube；The two way valve has controller control.

5. photovoltaic waterborne as claimed in claim 4 automatic pumping cleaning at times and cooling device, which is characterized in that described The length of outlet pipe is adjustable.

6. photovoltaic waterborne as claimed in claim 4 automatic pumping cleaning at times and cooling device, which is characterized in that described The water outlet of water spout is higher than photovoltaic panel, and when for photovoltaic panel cleaning, washings are sprayed at light by water spout in the form of water mist It lies prostrate on plate.

7. photovoltaic waterborne as described in claim 1 automatic pumping cleaning at times and cooling device, which is characterized in that described Cleaning system includes a motor, and the motor is turned by one washer of a set of transmission system drives in photovoltaic panel It is dynamic, realize cleaning.

8. photovoltaic waterborne as claimed in claim 7 automatic pumping cleaning at times and cooling device, which is characterized in that described Transmission system includes a worm screw, and the worm screw is engaged to form deceleration with turbine by its rotation of the motor drive, worm screw Mechanism sets there are one short axle is exported at the center of worm gear, main crank is installed in the short axle, the movement of turbine makes main crank Around the whole circle rotation of turbine axis；

The main crank other end connects auxiliary crank, to drive auxiliary crank to be rotated around fulcrum central axis, fulcrum by connecting rod And fulcrum lower end vertical with photovoltaic bracket is fixed on photovoltaic bracket, is fixed by a perpendicular connecting shaft above auxiliary crank Layering is cross-linked fixed crank, and synchronous rotary, the fixed crank other side are fixed with simultaneously with auxiliary crank for fixed crank holding Photovoltaic washer.

9. photovoltaic waterborne as claimed in claim 8 automatic pumping cleaning at times and cooling device, which is characterized in that the electricity Motivation is fixed on the supporting rod of photovoltaic panel, and the auxiliary crank, connecting rod, main crank are located at the lower section of photovoltaic panel, fixed crank Positioned at the top of photovoltaic panel, fulcrum is located at one end of photovoltaic bracket.

10. photovoltaic waterborne as claimed in claim 7 automatic pumping cleaning at times and cooling device, which is characterized in that described Motor controlled by controller.