CN105322875A - Efficient solar panel system - Google Patents

Abstract

The invention relates to an efficient solar panel system. The efficient solar panel system comprises a control unit; the control unit is connected with a photovoltaic unit, a turning unit, an optical detection unit, a temperature control unit and a cleaning unit separately for controlling the interworking of the units; the overall solar panel can be controlled integrally; the orientation of a fixed frame above the solar panel can be controlled by a PLC controller to enable the solar panel to constantly face to the sunshine irradiation direction, so that the solar conversion efficiency can be further improved; in addition, the optical detection unit can accurately sense illumination intensity and sunshine irradiation direction so as to match with other units to realize the accurate control of the solar panel; turning devices of each direction comprise a transverse turning device and a longitudinal turning device, and the turning devices can adjust respectively, so as to realize the circumferential adjusting of the solar panel to further improve the conversion efficiency.

Description

A kind of high-efficiency solar plate system

Technical field

The present invention relates to a kind of high-efficiency solar plate system.

Background technology

Solar panels assembly is that a kind of exposure in the sun just can thermal-arrest, is galvanic Blast Furnace Top Gas Recovery Turbine Unit (TRT), is made up of transform light energy the thin body solid photovoltaic cell almost all made with semiconductor material (such as silicon).Owing to there is no movable part, therefore can long-time operation and any loss can not be caused.Simple photovoltaic cell can be wrist-watch and computer provides the energy, and more complicated photovoltaic system can be house and provides illumination, and is mains supply.Solar panels assembly can make difformity, and assembly can connect, to produce more electric power.Balcony and building surface all can use solar panels assembly, and be even used as a part for window, skylight or masking device, these photovoltaic facilities are commonly called the photovoltaic system being attached to building.

Due to the solar photovoltaic generation system relative to some fixed locations, 1 year four seasons spring, summer, autumn and winter, every light rise sunset, the lighting angle of the sun at every moment all in change, if solar panel can the moment just to the sun, generating efficiency just can reach optimum state.Solar tracking control system general in the world all needs the angle at the not sun place in the same time calculating every day in 1 year according to information such as laying longitude and latitude a little, the position of sun in moment each in 1 year is stored in PLC, single-chip microcomputer or computer software, namely by calculating position of sun to realize following the tracks of.What adopt is that computer data is theoretical, desirably the data of ball warp latitude and setting, once install, the just mobile or mounting or dismounting of inconvenience, move at every turn and just must have reset data and adjust parameters; Principle, circuit, technology, equipment are complicated, and layman can not at will operate.

Summary of the invention

The object of the invention is to: for above-mentioned Problems existing, a kind of high-efficiency solar plate system is provided, can unify to control whole solar panels, fixed mount above solar panels towards PLC can be had to control, enable solar panels all the time towards sunniness direction, and then raising solar conversion efficiency, in addition, optical detecting unit can sense the intensity of illumination and the direction of irradiation accurately, thus coordinate other units to realize the accurate control of solar panels, the rot of all directions comprises lateral rotation device and longitudinal rot, regulate respectively, thus realize the circumference adjustment of solar panels, and then raising conversion ratio.Different battery wafers on photovoltaic frame are by the control of PLC, the Efficient Conversion of solar panels can not only be realized, suitable solar wafer can also be selected according to different intensities of illumination, thus realize the suitable use of solar wafer, improve conversion ratio, this apparatus structure is simple, easy to use, be easy to promote, effectively can improve useful life and the solar energy conversion ratio of solar panels.Native system controls by PLC is unified, so that realize proportion optimizing, thus effectively ensures the fail safe that sets and durability degree.

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

The invention discloses a kind of high-efficiency solar plate system, comprising:

(1), control unit, comprise PLC and power supply circuits, PLC powers for controlling power supply circuits;

(2), photovoltaic cells, comprise photovoltaic module, photovoltaic module comprises the photovoltaic frame of some quadrangular structures be set up in parallel, and the side of photovoltaic frame is respectively crystalline silicon side, film side and Graphene side, ceramic side; Crystalline silicon side surface is provided with the crystalline silicon solar cell piece of some series connection, and film side is provided with the thin film solar cell sheet of some series connection, and Graphene side surface is provided with the Graphene solar battery sheet of some series connection; This Graphene solar battery sheet is using Graphene as euphotic electrode;

(3), rotating unit, comprise the rotating mechanism be fixed on fixed mount; Rotating mechanism comprises lateral rotation device, longitudinal rot and turner; Lateral rotation device comprises lateral rotation motor and lateral velocity variation gear, and lateral rotation motor controls fixed mount by this lateral velocity variation gear that gear ratio is 80-120 and rotates in the scope of horizontal 0-45 degree; Longitudinal rot comprises longitudinal rotary electric machine, longitudinal change-speed gearing, and longitudinal rotary electric machine controls fixed mount by longitudinal change-speed gearing that gear ratio is 120-150 and rotates within the scope of longitudinal 0-40 degree; Turner comprises locking mechanism, gear mechanism and upset motor, and upset motor controls photovoltaic module by gear mechanism and rotates, thus changes photovoltaic module side upward, locking mechanism for locking photovoltaic module so that photovoltaic module location or directed;

(4), optical detecting unit, comprise the incident light detector be fixed on fixed mount, incident light detector comprises vertical photographic hole, and the degree of depth of deep hole and the ratio in aperture are not less than 5; The bottom of photographic hole is provided with a photo resistance, the sidewall in the middle part of photographic hole is evenly distributed with four photo resistance, and the sidewall on photographic hole top is evenly distributed with four photo resistance; Photo resistance is all connected with PLC;

(5), temperature control unit, comprise temperature controller, this temperature controller is arranged in photovoltaic frame, for control photovoltaic module temperature regulate;

(6), cleaning unit, comprise cleaning device, this cleaning device arranges and comprises cleaning motor, cleaning brush, cleaning sprayer unit, fixed mount is provided with the slide rail placing cleaning brush, cleaning Electric Machine Control cleaning brush slides along slide rail and makes cleaning brush clean the downside of photovoltaic frame, and this cleaning sprayer unit is used for cleaning brush ejection cleaning spraying;

Control unit is connected with photovoltaic cells, rotating unit, optical detecting unit, temperature control unit, cleaning unit respectively, and controls each unit and cooperatively interact.

Due to said system, can unify to control whole solar panels, fixed mount above solar panels towards PLC can be had to control, enable solar panels all the time towards sunniness direction, and then raising solar conversion efficiency, in addition, optical detecting unit can sense the intensity of illumination and the direction of irradiation accurately, thus coordinate other units to realize the accurate control of solar panels, the rot of all directions comprises lateral rotation device and longitudinal rot, regulate respectively, thus realize the circumference adjustment of solar panels, and then improve conversion ratio.Different battery wafers on photovoltaic frame, by the control of PLC, can not only realize the Efficient Conversion of solar panels, can also select suitable solar wafer according to different intensities of illumination, thus realize the suitable use of solar wafer, improve conversion ratio.

Further, the light detection method of described control system:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected.

Due to said method, photographic hole is comparatively dark, can avoid interference in optical fiber access aperture, thus affect its accuracy, be arranged on photographic hole hole wall, according to the position of incident light and the position of photosensitive part sensing light, and then the position adjustment that PLC controls fixed mount can be convenient to.

Further, the rotation control method of described control system:

(1), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal rotary electric machine is with the rotational speed of 220-280r/min;

(2) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal rotary electric machine with the rotational speed of 80-100r/min, and lateral rotation motor is with the rotational speed of 90-110r/min;

(3), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal rotary electric machine or lateral rotation motor rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(4), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane.

Due to said method, lateral rotation motor and longitudinal rotary electric machine separate regulation are also regulated stage by stage, reduces misoperation, and then alleviate the controlled pressure of PLC, accurate control can be realized, can sunlight rotation and automatically regulate, and then realize accurately controlling, improve the stability of solar panels.

Further, the photovoltaic module control method of described control system:

(1), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(2), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(3), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner and rotate, make the crystalline silicon skew back of turner to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(4), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(5), when the same day, illuminance was 300-1000Lx, turner controls film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(6), when the same day, illuminance was less than 300Lx, turner controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame surface is 20 DEG C.

Due to said method, can according to different Intensity of the sunlights and the power consumption needed according to different loads, select the solar wafer of not ipsilateral, realize reasonably combined, while ensureing that solar wafer can realize Efficient Conversion, prevent the electricity that too much produces on the impact of load or miscellaneous part, and then improve the useful life of solar battery sheet and load.

Further, the photovoltaic module cleaning method of described control system:

(1), when the side of photovoltaic frame needs cleaning, this side-overturning to downward position, is sent signal to control unit after completing by turner;

(2), after control unit receives signal, send control command to cleaning unit, cleaning motor action also controls the speed of cleaning brush with 5cm/s on slide rail and moves back and forth; Continue 5-8min;

(3), cleaning brush is when moving to assigned address, and control unit controls cleaning sprayer unit and sprays vaporific cleaning fluid to cleaning brush;

(4), that the another side of photovoltaic frame changed by turner is downward, and repeats step (1)-(3) to all sides of photovoltaic frame and all cleaned;

Described cleaning fluid is by 30-40 part cocinic acid APEO, 80-85 part kaolin, 22-28 part dodecyl sodium sulfate, 60-67 part sodium pyrophosphate, 60-78 part hydrogen-oxygen acid potassium, 60-80 part AEO, 100-130 part adjudicate two cases together ethene, the ammoniacal liquor of 30-50 part concentration 30%, 30-60 part ethanol, 10-30 part Tetramethylammonium hydroxide, 60-77 part three innings of sodium phosphates and 30-44 part propanedione.

Due to said method, can ensure that the cleaning of solar wafer and the work of solar wafer conversion solar energy are carried out simultaneously, do not influence each other, avoid both works on the impact of solar wafer simultaneously, in addition, can prevent when cleaning, between solar wafer, the excessive and damage that causes of local temperature difference, ensures its voltage supply quality and useful life.

Further, the control method of described control system:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected.

(5), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal rotary electric machine is with the rotational speed of 220-280r/min;

(6) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal rotary electric machine with the rotational speed of 80-100r/min, and lateral rotation motor is with the rotational speed of 90-110r/min;

(7), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal rotary electric machine or lateral rotation motor rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(8), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane.

(9), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(10), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(11), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner and rotate, make the crystalline silicon skew back of turner to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(12), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(13), when the same day, illuminance was 300-1000Lx, turner controls film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(14), when the same day, illuminance was less than 300Lx, turner controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame surface is 20 DEG C.

Due to said structure, due to said method, photographic hole is darker, can avoid interference in optical fiber access aperture, thus affect its accuracy, be arranged on photographic hole hole wall, according to the position of incident light and the position of photosensitive part sensing light, and then the position adjustment that PLC controls fixed mount can be convenient to.Lateral rotation motor and longitudinal rotary electric machine separate regulation are also regulated stage by stage, reduces misoperation, and then alleviate the controlled pressure of PLC, accurate control can be realized, can sunlight rotation and automatically regulate, and then realize accurately controlling, improve the stability of solar panels.Can according to different Intensity of the sunlights and the power consumption needed according to different loads, select the solar wafer of not ipsilateral, realize reasonably combined, while ensureing that solar wafer can realize Efficient Conversion, prevent the electricity that too much produces on the impact of load or miscellaneous part, and then improve the useful life of solar battery sheet and load.

In sum, owing to have employed technique scheme, the invention has the beneficial effects as follows:

1, this apparatus structure is simple, easy to use, is easy to promote, and effectively can improve useful life and the solar energy conversion ratio of solar panels.

2, this device has that PLC is unified to be controlled, so that realize proportion optimizing, thus effectively ensures the fail safe that sets and durability degree.

3, the temperature controller of this structure can carry out temperature control and adjustment to solar panels, thus realize the temperature inversion of solar battery sheet in most suitable scope, further raising conversion ratio, this device can also clean solar wafer, avoid transparency not high and situation that the conversion ratio that causes declines, and cleaning also can not affect the transformation of solar energy, both are separate, in addition, solar wafer can be turned to fixed mount inside at night, make ceramic wafer outwardly, effectively can protect solar wafer, improve the useful life of solar wafer.

Accompanying drawing explanation

Fig. 1 is high-efficiency solar plate system front view in the present invention;

Mark in figure: 1-fixed mount, 2-turner, 3-photovoltaic frame, the longitudinal steer motor of 4-, 5-incident light detector, 6-lateral rotation motor.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in detail.

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

specific embodiment 1:

As shown in Figure 1, high-efficiency solar plate system of the present invention comprises:

(1), control unit, comprise PLC and power supply circuits, PLC powers for controlling power supply circuits;

(2), photovoltaic cells, comprise photovoltaic module, photovoltaic module comprises the photovoltaic frame 3 of some quadrangular structures be set up in parallel, and the side of photovoltaic frame 3 is respectively crystalline silicon side, film side and Graphene side, ceramic side; Crystalline silicon side surface is provided with the crystalline silicon solar cell piece of some series connection, and film side is provided with the thin film solar cell sheet of some series connection, and Graphene side surface is provided with the Graphene solar battery sheet of some series connection; This Graphene solar battery sheet is using Graphene as euphotic electrode;

(3), rotating unit, comprise the rotating mechanism be fixed on fixed mount 1; Rotating mechanism comprises lateral rotation device, longitudinal rot and turner 2; Lateral rotation device comprises lateral rotation motor 6 and lateral velocity variation gear, and lateral rotation motor 6 controls fixed mount 1 by this lateral velocity variation gear that gear ratio is 80-120 and rotates in the scope of horizontal 0-45 degree; Longitudinal rot comprises longitudinal steer motor 4, longitudinal change-speed gearing, and longitudinal steer motor 4 controls fixed mount 1 by longitudinal change-speed gearing that gear ratio is 120-150 and rotates within the scope of longitudinal 0-40 degree; Turner 2 comprises locking mechanism, gear mechanism and upset motor, and upset motor controls photovoltaic module by gear mechanism and rotates, thus changes photovoltaic module side upward, locking mechanism for locking photovoltaic module so that photovoltaic module location or directed;

(4), optical detecting unit, comprise the incident light detector 5 be fixed on fixed mount 1, incident light detector 5 comprises vertical photographic hole, and the degree of depth of deep hole and the ratio in aperture are not less than 5; The bottom of photographic hole is provided with a photo resistance, the sidewall in the middle part of photographic hole is evenly distributed with four photo resistance, and the sidewall on photographic hole top is evenly distributed with four photo resistance; Photo resistance is all connected with PLC;

(5), temperature control unit, comprise temperature controller, this temperature controller is arranged in photovoltaic frame 3, for control photovoltaic module temperature regulate;

(6), cleaning unit, comprise cleaning device, this cleaning device arranges and comprises cleaning motor, cleaning brush, cleaning sprayer unit, fixed mount 1 is provided with the slide rail placing cleaning brush, cleaning Electric Machine Control cleaning brush slides along slide rail and makes cleaning brush clean the downside of photovoltaic frame 3, and this cleaning sprayer unit is used for cleaning brush ejection cleaning spraying;

Control unit is connected with photovoltaic cells, rotating unit, optical detecting unit, temperature control unit, cleaning unit respectively, and controls each unit and cooperatively interact.

Due to said system, can unify to control whole solar panels, fixed mount 1 above solar panels towards PLC can be had to control, enable solar panels all the time towards sunniness direction, and then raising solar conversion efficiency, in addition, optical detecting unit can sense the intensity of illumination and the direction of irradiation accurately, thus coordinate other units to realize the accurate control of solar panels, the rot of all directions comprises lateral rotation device and longitudinal rot, regulate respectively, thus realize the circumference adjustment of solar panels, and then raising conversion ratio.Different battery wafers on photovoltaic frame 3 are by the control of PLC, the Efficient Conversion of solar panels can not only be realized, suitable solar wafer can also be selected according to different intensities of illumination, thus realize the suitable use of solar wafer, improve conversion ratio.

specific embodiment 2:

According to the high-efficiency solar plate system of specific embodiment 1, its light detection method is:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount 1, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount 1 of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected.

Due to said method, photographic hole is comparatively dark, can avoid interference in optical fiber access aperture, thus affect its accuracy, be arranged on photographic hole hole wall, according to the position of incident light and the position of photosensitive part sensing light, and then the position adjustment that PLC controls fixed mount 1 can be convenient to.

specific embodiment 3:

According to the high-efficiency solar plate system of specific embodiment 1, it rotates control method:

(1), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal steer motor 4 is with the rotational speed of 220-280r/min;

(2) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal steer motor 4 with the rotational speed of 80-100r/min, and lateral rotation motor 6 is with the rotational speed of 90-110r/min;

(3), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal steer motor 4 or lateral rotation motor 6 rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(4), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane.

Due to said method, lateral rotation motor 6 and longitudinal steer motor 4 separate regulation are also regulated stage by stage, reduce misoperation, and then alleviate the controlled pressure of PLC, accurate control can be realized, can sunlight rotation and automatically regulate, and then realize accurately controlling, improve the stability of solar panels.

specific embodiment 4:

According to the high-efficiency solar plate system of specific embodiment 1, its photovoltaic module control method:

(1), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner 2 and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(2), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner 2 and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(3), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner 2 and rotate, make the crystalline silicon skew back of turner 2 to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(4), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner 2 control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(5), when the same day, illuminance was 300-1000Lx, turner 2 controlled film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(6), when the same day, illuminance was less than 300Lx, turner 2 controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame 3 surface is 20 DEG C.

Due to said method, can according to different Intensity of the sunlights and the power consumption needed according to different loads, select the solar wafer of not ipsilateral, realize reasonably combined, while ensureing that solar wafer can realize Efficient Conversion, prevent the electricity that too much produces on the impact of load or miscellaneous part, and then improve the useful life of solar battery sheet and load.

specific embodiment 5:

According to the high-efficiency solar plate system of specific embodiment 1, its photovoltaic module cleaning method:

(1), when the side of photovoltaic frame 3 needs cleaning, this side-overturning to downward position, is sent signal to control unit after completing by turner 2;

(2), after control unit receives signal, send control command to cleaning unit, cleaning motor action also controls the speed of cleaning brush with 5cm/s on slide rail and moves back and forth; Continue 5-8min;

(3), cleaning brush is when moving to assigned address, and control unit controls cleaning sprayer unit and sprays vaporific cleaning fluid to cleaning brush;

(4), that the another side of photovoltaic frame 3 changed by turner 2 is downward, and repeats step (1)-(3) to all sides of photovoltaic frame 3 and all cleaned;

Described cleaning fluid is by 30-40 part cocinic acid APEO, 80-85 part kaolin, 22-28 part dodecyl sodium sulfate, 60-67 part sodium pyrophosphate, 60-78 part hydrogen-oxygen acid potassium, 60-80 part AEO, 100-130 part adjudicate two cases together ethene, the ammoniacal liquor of 30-50 part concentration 30%, 30-60 part ethanol, 10-30 part Tetramethylammonium hydroxide, 60-77 part three innings of sodium phosphates and 30-44 part propanedione.

Due to said method, can ensure that the cleaning of solar wafer and the work of solar wafer conversion solar energy are carried out simultaneously, do not influence each other, avoid both works on the impact of solar wafer simultaneously, in addition, can prevent when cleaning, between solar wafer, the excessive and damage that causes of local temperature difference, ensures its voltage supply quality and useful life.

specific embodiment 6:

According to the high-efficiency solar plate system of specific embodiment 1, its control method is:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount 1, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount 1 of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected.

(5), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal steer motor 4 is with the rotational speed of 220-280r/min;

(6) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal steer motor 4 with the rotational speed of 80-100r/min, and lateral rotation motor 6 is with the rotational speed of 90-110r/min;

(7), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal steer motor 4 or lateral rotation motor 6 rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(8), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane.

(9), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner 2 and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(10), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner 2 and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(11), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner 2 and rotate, make the crystalline silicon skew back of turner 2 to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(12), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner 2 control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(13), when the same day, illuminance was 300-1000Lx, turner 2 controlled film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(14), when the same day, illuminance was less than 300Lx, turner 2 controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame 3 surface is 20 DEG C.

Due to said structure, due to said method, photographic hole is darker, can avoid interference in optical fiber access aperture, thus affect its accuracy, be arranged on photographic hole hole wall, according to the position of incident light and the position of photosensitive part sensing light, and then the position adjustment that PLC controls fixed mount 1 can be convenient to.Lateral rotation motor 6 and longitudinal steer motor 4 separate regulation are also regulated stage by stage, reduces misoperation, and then alleviate the controlled pressure of PLC, accurate control can be realized, can sunlight rotation and automatically regulate, and then realize accurately controlling, improve the stability of solar panels.Can according to different Intensity of the sunlights and the power consumption needed according to different loads, select the solar wafer of not ipsilateral, realize reasonably combined, while ensureing that solar wafer can realize Efficient Conversion, prevent the electricity that too much produces on the impact of load or miscellaneous part, and then improve the useful life of solar battery sheet and load.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. a high-efficiency solar plate system, is characterized in that, comprising:

(1), control unit, comprise PLC and power supply circuits, PLC powers for controlling power supply circuits;

(2), photovoltaic cells, comprise photovoltaic module, photovoltaic module comprises the photovoltaic frame of some quadrangular structures be set up in parallel, and the side of photovoltaic frame is respectively crystalline silicon side, film side and Graphene side, ceramic side; Crystalline silicon side surface is provided with the crystalline silicon solar cell piece of some series connection, and film side is provided with the thin film solar cell sheet of some series connection, and Graphene side surface is provided with the Graphene solar battery sheet of some series connection; This Graphene solar battery sheet is using Graphene as euphotic electrode;

(3), rotating unit, comprise the rotating mechanism be fixed on fixed mount; Rotating mechanism comprises lateral rotation device, longitudinal rot and turner; Lateral rotation device comprises lateral rotation motor and lateral velocity variation gear, and lateral rotation motor controls fixed mount by this lateral velocity variation gear that gear ratio is 80-120 and rotates in the scope of horizontal 0-45 degree; Longitudinal rot comprises longitudinal rotary electric machine, longitudinal change-speed gearing, and longitudinal rotary electric machine controls fixed mount by longitudinal change-speed gearing that gear ratio is 120-150 and rotates within the scope of longitudinal 0-40 degree; Turner comprises locking mechanism, gear mechanism and upset motor, and upset motor controls photovoltaic module by gear mechanism and rotates, thus changes photovoltaic module side upward, locking mechanism for locking photovoltaic module so that photovoltaic module location or directed;

(4), optical detecting unit, comprise the incident light detector be fixed on fixed mount, incident light detector comprises vertical photographic hole, and the degree of depth of deep hole and the ratio in aperture are not less than 5; The bottom of photographic hole is provided with a photo resistance, the sidewall in the middle part of photographic hole is evenly distributed with four photo resistance, and the sidewall on photographic hole top is evenly distributed with four photo resistance; Photo resistance is all connected with PLC;

(5), temperature control unit, comprise temperature controller, this temperature controller is arranged in photovoltaic frame, for control photovoltaic module temperature regulate;

(6), cleaning unit, comprise cleaning device, this cleaning device arranges and comprises cleaning motor, cleaning brush, cleaning sprayer unit, fixed mount is provided with the slide rail placing cleaning brush, cleaning Electric Machine Control cleaning brush slides along slide rail and makes cleaning brush clean the downside of photovoltaic frame, and this cleaning sprayer unit is used for cleaning brush ejection cleaning spraying;

Control unit is connected with photovoltaic cells, rotating unit, optical detecting unit, temperature control unit, cleaning unit respectively, and controls each unit and cooperatively interact.

2. high-efficiency solar plate system according to claim 1, is characterized in that, the light detection method of described control system:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected.

3. high-efficiency solar plate system according to claim 1, is characterized in that, the rotation control method of described control system:

(1), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal rotary electric machine is with the rotational speed of 220-280r/min;

(2) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal rotary electric machine with the rotational speed of 80-100r/min, and lateral rotation motor is with the rotational speed of 90-110r/min;

(3), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal rotary electric machine or lateral rotation motor rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(4), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane.

4. high-efficiency solar plate system according to claim 1, is characterized in that, the photovoltaic module control method of described control system:

(1), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(2), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(3), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner and rotate, make the crystalline silicon skew back of turner to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(4), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(5), when the same day, illuminance was 300-1000Lx, turner controls film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(6), when the same day, illuminance was less than 300Lx, turner controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame surface is 20 DEG C.

5. high-efficiency solar plate system according to claim 1, is characterized in that, the photovoltaic module cleaning method of described control system:

(1), when the side of photovoltaic frame needs cleaning, this side-overturning to downward position, is sent signal to control unit after completing by turner;

(2), after control unit receives signal, send control command to cleaning unit, cleaning motor action also controls the speed of cleaning brush with 5cm/s on slide rail and moves back and forth; Continue 5-8min;

(3), cleaning brush is when moving to assigned address, and control unit controls cleaning sprayer unit and sprays vaporific cleaning fluid to cleaning brush;

(4), that the another side of photovoltaic frame changed by turner is downward, and repeats step (1)-(3) to all sides of photovoltaic frame and all cleaned;

Described cleaning fluid is by 30-40 part cocinic acid APEO, 80-85 part kaolin, 22-28 part dodecyl sodium sulfate, 60-67 part sodium pyrophosphate, 60-78 part hydrogen-oxygen acid potassium, 60-80 part AEO, 100-130 part adjudicate two cases together ethene, the ammoniacal liquor of 30-50 part concentration 30%, 30-60 part ethanol, 10-30 part Tetramethylammonium hydroxide, 60-77 part three innings of sodium phosphates and 30-44 part propanedione.

6. high-efficiency solar plate system according to claim 1, is characterized in that, the control method of described control system:

(1), light enters in photographic hole, and the photo resistance being located at photographic hole top detects, then control unit receives the signal of this photo resistance, and the angle calculating light and photographic hole axis is greater than set point;

(2), control unit according to the Position Control rotating unit action of the photo resistance of light in photographic hole being detected and regulating the position of fixed mount, and then it is darker to make light enter the position of photographic hole;

(3), after the photo resistance be located in the middle part of photographic hole detects light, control unit calculates the scope of the angle of light and photographic hole axis again;

(4), control unit according to the position position adjustments fixed mount of the photo resistance of light in photographic hole being detected, make the photo resistance be located at bottom photographic hole light be detected;

(5), control unit detects and the angle calculating the normal in light and face, photovoltaic module place is not less than 20 degree or be not less than 25 degree in the horizontal in the vertical, control unit controls end to rotary electric machine with the rotational speed of 200-250r/min, and longitudinal rotary electric machine is with the rotational speed of 220-280r/min;

(6) be, 8-20 degree when the angle angle in the vertical of the normal in light and face, photovoltaic module place is 8-20 degree or angle in the vertical, control unit controls longitudinal rotary electric machine with the rotational speed of 80-100r/min, and lateral rotation motor is with the rotational speed of 90-110r/min;

(7), when the angle angle in the vertical of the normal in light and face, photovoltaic module place is be less than 8 degree or angle is in the vertical less than 8 degree, control unit controls longitudinal rotary electric machine or lateral rotation motor rotates with the velocity of rotation of 30-35r/min, and then the angle of the normal in light regulating and face, photovoltaic module place, make this angle be less than 8 degree;

(8), when light being detected night, or when luminous intensity is less than set point, control unit controls face, photovoltaic module place and is parallel to horizontal plane;

(9), optical detecting unit is when detecting that a day illuminance is greater than 2600Lx, and control unit controls turner and rotates, and makes the Graphene side of photovoltaic module upward; The mean temperature that temperature controller controls Graphene side is 30 DEG C;

(10), when the ratio of the power output of photovoltaic cells and the rated power of load is greater than 1.3 and day, illuminance was not less than 2000Lx, controls turner and turn to crystalline silicon side upward; The mean temperature that temperature controller controls crystalline silicon side is 26 DEG C;

(11), the same day illuminance be 1800-2600Lx and the ratio of the rated power of the power output of photovoltaic cells and load is less than 0.8 time, control turner and rotate, make the crystalline silicon skew back of turner to 40 degree upwards while Graphene skew back to 50 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 27 DEG C;

(12), the same day illuminance be 1000-1800Lx and the ratio of the rated power of the power output of photovoltaic cells and load is not less than 1 time; Turner control film side oblique 30 degree upwards, monocrystalline silicon skew back to 60 degree upwards; The mean temperature that temperature controller controls Graphene side and crystalline silicon side is 23 DEG C;

(13), when the same day, illuminance was 300-1000Lx, turner controls film side upwards; The mean temperature that temperature controller controls film side is 21 DEG C;

(14), when the same day, illuminance was less than 300Lx, turner controlled in ceramic side direction; The temperature-averaging that temperature controller controls photovoltaic frame surface is 20 DEG C.