CN204031053U - A kind of intelligent solar cell panel control device - Google Patents

Abstract

The utility model discloses a kind of intelligent solar cell panel control device, include solar panels, the transmission device that solar panels are connected with storage battery and solar panels can be made to rotate, the top of solar panels is provided with one perpendicular to the projection column of solar panels and several optical inductor, optical inductor waits radian around being arranged on projection column periphery centered by projection column, and be provided with gap between optical inductor and projection column, optical inductor is connected with the receiver for receiving each optical inductor photoreceptor signal, receiver is connected with control device, control device makes solar panels rotate by the signal controlling transmission device of contrast receiver transmission.The utility model have can follow the sun rotate, Real-Time Monitoring position of sun, then to the direction of solar panels correct can with day self-adjusting angle, the advantage not needing just can be followed the tracks of to high efficient and flexible by preset timer and latitude and longitude information sun direct projection angle.

Description

A kind of intelligent solar cell panel control device

Technical field

The utility model relates to the technical field of solar panel, particularly relates to a kind of intelligent solar cell panel control device.

Background technology

Environment goes from bad to worse and forces countries in the world to accelerate development fungible energy source scheme, and solar energy is inexhaustible, the nexhaustible natural energy source of nature, and environmental protection, pollution-free.There is the device much utilizing solar energy to be converted into electric energy at present, but every day sunlight irradiation time more than 12 hours, and always in the middle of constantly rotating, how the solar energy of this time period could be made full use of? utilize at present generating equipment that light radiation directly changes electric energy into can be see Chinese patent literature patent No. disclosed in the 2008.10.01 200720003914.9 " automatic tracking sun energy receiver ".This device provides a kind of and overcomes the shortcoming that solar panels can not follow solar direction rotation, the automatic tracking sun energy receiver that structure is simple, easy to use, easy to manufacture.Its triode be sequentially connected in series by a battery, perpetual calendar timer and worm and wormwheel variable speed electric motors, particularly form, and connecting rod connects solar panels and worm and wormwheel variable speed electric motors, particularly; This battery is also sequentially serially connected with another triode, perpetual calendar timer, worm and wormwheel variable speed electric motors, particularly, one bent axle connecting worm worm gear variable speed electric motors, particularly and a tethered sliding plate, one adjustable shelf is fixedly connected with connecting rod and tethered sliding plate, and described tethered sliding plate is connected with duplex bearing with the base plate being fixed on outer container bottom surface.Also to consult " solar energy real time receiving apparatus " that Chinese patent literature patent No. disclosed in the 2008.04.30 is 200720003903.0.This device provides a kind of and overcomes the shortcoming that solar panels can not follow solar direction rotation, the solar energy real time receiving apparatus that structure is simple, easy to use, easy to manufacture.It comprises solar panels, endless screw worm gear actuating mechanism and battery, and endless screw worm gear actuating mechanism drives solar panels to rotate, and is provided with perpetual calendar timer and triode between battery and endless screw worm gear actuating mechanism.During work, first solar panels are placed in the position to 30 ° ~ 45 °, east, triode starts an endless screw worm gear actuating mechanism in every 30 minutes by perpetual calendar timer, and under the effect of endless screw worm gear actuating mechanism, solar panels are followed sun moving direction and rotated 5 ° from east to west, within every 30 minutes, rotate 5 °, until the sun sets, dynamic 90 ° of corotation, completes the solar energy collecting work of one day, and in 4:00 AM, solar panels self-resetting is to start angle (in the east 30 ° ~ 45 °).

But in fact these disclosed solar receivers are not the angle of the Real-Time Monitoring sun, then correct position, they carry out having certain intervals to rotate regularly according to built-in perpetual calendar timer.The sun gradient in each area is different in each period, each season, and above-mentioned this solar receiver cannot tackle the concrete condition in each area at all.This causes the solar receiver of the above-mentioned type, and effect is undesirable in actual applications.

Utility model content

Technical problem to be solved in the utility model is for the above-mentioned state of the art, and provide one can follow the sun rotate, Real-Time Monitoring position of sun, then to the direction of solar panels correct can with day self-adjusting angle, the intelligent solar panel assembly not needing just can be followed the tracks of to high efficient and flexible by preset timer and latitude and longitude information sun direct projection angle.

The utility model solves the problems of the technologies described above adopted technical scheme:

A kind of intelligent solar cell panel control device, include solar panels, solar panels are connected with storage battery and transmission device, wherein: solar panels control device and also include projection plate, to be fixed on projection plate and with the vertically disposed projection column of projection plate and several optical inductor be arranged on projection plate, optical inductor waits radian around being arranged on projection column periphery centered by projection column, and be provided with gap between optical inductor and projection column, optical inductor is connected with the receiver for receiving each optical inductor photoreceptor signal, receiver is connected with control device, control device connection for transmission device, storage battery is connected with pneumatic cylinder, receiver and control device respectively, and storage battery be pneumatic cylinder, receiver and control device provide electric energy.

Preferred version is:

Above-mentioned transmission device includes at least three pneumatic cylinders, and the piston rod a of each pneumatic cylinder is all connected with the bottom of solar panels, projection plate and solar panels.

Above-mentioned transmission device includes three pneumatic cylinders, and three pneumatic cylinder layings triangular in shape.

Above-mentioned transmission device includes four pneumatic cylinders, and four pneumatic cylinders are that quadrangle is laid.

Above-mentioned solar panels are provided with a few centered by projection column, for placing the induction groove of optical inductor, each induction groove and distance of projection column different.

The quantity of above-mentioned optical inductor is eight, and close fit between adjacent optical inductor, these eight optical inductors constitute an annular light sensor groups centered by projection column jointly.

Above-mentioned control device is single-chip microcomputer.

A using method for intelligent solar cell panel control device, comprises the following steps:

One, projection column is arranged on the light-collecting surface of solar panels, presets and start threshold values angle, respond to groove accordingly according to startup threshold values angle Selection, and optical inductor is laid in this induction groove;

Two, when the angle between projection column and sunlight reaches and starts threshold values angle, the projection of projection column, on the optical inductor of correspondence, makes the sunlight that this optical inductor senses be less than other each optical inductors;

Three, the light-sensing signal sensed is sent to receiver by each optical inductor, light-sensing signal is sent to control device by receiver, and control device draws the direction of sunlight direct projection by the change and the light-sensing signal intensity contrasted between each optical inductor calculating light-sensing signal intensity before and after certain optical inductor;

Four, control device controls the incline direction of three pneumatic cylinders to solar panels and regulates, projection column is made to turn to the direction of sunlight direct projection, projection is shortened thereupon, corresponding optical inductor is exited in projection along with projection column, the light-sensing signal intensity of light-sensing signal intensity and other optical inductors that control device receives corresponding optical inductor is tending towards identical, at this moment, control device continues regulating and controlling solar panels and rotates to the direction of sunlight direct projection the startup threshold values angle preset, and makes projection column parallel with sunlight direct projection direction;

Five, projection column parallel with sunlight after, control device stops controlling pneumatic cylinder, and the angle waiting for next time between projection column and sunlight reaches and starts threshold values angle.

Above-mentioned induction groove has three circles, and corresponding startup threshold values angle is respectively 5 ° to 8 °, 8 ° to 10 ° and 10 ° to 12 °.

Compared with prior art, a kind of intelligent solar cell panel control device of the present utility model, include solar panels, the transmission device that solar panels are connected with storage battery and solar panels can be made to rotate, wherein, the top of solar panels is provided with one perpendicular to the projection column of solar panels and several optical inductor, optical inductor waits radian around being arranged on projection column periphery centered by projection column, and be provided with gap between optical inductor and projection column, optical inductor is connected with the receiver for receiving each optical inductor photoreceptor signal, receiver is connected with control device, control device makes solar panels rotate by the signal controlling transmission device of contrast receiver transmission.Projection column is fixed in the center on solar panels top of the present utility model, one circle optical inductor is set around projection column, once the shadow of projection column projects on optical inductor, control device just can detect, control transmission device running simultaneously, solar panels are rotated, turns to the direction facing the sun.When solar panels rotate, the shadow of projection column can shorten gradually, when shadow exits the position of optical inductor, transmission device can't stop, but under the control of control device, be rotated further, just can stop after turning default angle again, and this angle preset sets apart from the distance between projection column according to optical inductor, optical inductor distance projection column is far away, the angle of rotating is larger, optical inductor distance projection column is nearer, the angle of rotating is less, by rotating the angle that this is preset, projection column can be made parallel with sunlight, farthest receive solar energy.After projection column is parallel with sunlight, the waiting period that whole device entering, until the shadow of projection column projects on optical inductor next time.Therefore, the intelligent solar panel assembly of this device is not operating always, and the most of the time is in resting state, only has the size that the angle of sunlight and solar panels reaches certain, and this device just can start.Generally speaking, initiation culture is higher, the angle adjustment of sunlight and solar panels more frequent, it is more that solar energy receives, but the energy consumed also can be more, otherwise, what solar energy received lacks, but the energy consumed is also few, a balance will be reached between this, and each area is each different, therefore, the utility model devises this structure of induction groove, induction groove is arranged on solar panels top, a circle centered by projection column is enclosed the land and is outwards laid, generally speaking, lay the different demands that three circle induction grooves just can meet most area, because the induction groove of each circle must apart from difference from projection column, the time that the shadow of projection column extends to the induction groove of each circle is different, as long as required, optical inductor is laid in corresponding induction groove, just the initiation culture of this device can be controlled.Control device of the present utility model not only contrasts the change of the light-sensing signal intensity in former and later two times of some optical inductors, also laterally can contrast the difference of light-sensing signal intensity in several optical inductor same time, thus calculate exactly the need of rotating solar panels and rotating great angle.Such as, when there is a sudden change in the weather from fine to cloudy, although control device records altering a great deal of light-sensing signal intensity in former and later two times of optical inductor, but across comparison finds, all optical inductor light-sensing signal intensity all alter a great deal and also intensity after changing all approximate, control device would not control transmission device running, when weather is normal, sunny, when the shadow of projection column extends on some optical inductors, control device records diminishing of light-sensing signal intensity in former and later two times of this optical inductor, across comparison finds, little and other optical inductor light-sensing signal intensity of other optical inductor light-sensing signal Strength Changes are all greater than this optical inductor, control device will send instruction, control transmission device operates, rotate solar panels.By this set, solar pane arrangement degree of intelligence of the present utility model is promoted greatly, can differentiate and whether should rotate solar panels, avoid and unnecessarily waste energy.

The utility model have can follow the sun rotate, Real-Time Monitoring position of sun, then to the direction of solar panels correct can with day self-adjusting angle, the advantage not needing just can be followed the tracks of to high efficient and flexible by preset timer and latitude and longitude information sun direct projection angle.

Accompanying drawing explanation

Fig. 1 is the structural representations of the utility model solar panels when seeing from top to bottom;

Fig. 2 is the A portion schematic enlarged-scale view of Fig. 1;

Fig. 3 is the structural representation of the first embodiment;

Fig. 4 is the B portion schematic enlarged-scale view of Fig. 3;

Fig. 5 is the structural representation of the 3rd embodiment.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

Fig. 1 is to Figure 5 shows that structural representation of the present utility model.

Reference numeral is wherein: solar panels 1, transmission device 2, pneumatic cylinder 21, piston rod 21a, projection column 3, optical inductor 4, receiver 5, control device 6, induction groove 7, storage battery 8, projection plate 9.

First embodiment: as shown in Figures 1 to 4,

A kind of intelligent solar cell panel control device of the present utility model, include solar panels 1, solar panels 1 are connected with storage battery 8 and transmission device 2, wherein: solar panels control device and also include projection plate 9, to be fixed on projection plate 9 and with the vertically disposed projection column of projection plate 93 and several optical inductor 4 be arranged on projection plate 9, optical inductor 4 waits radian around being arranged on projection column 3 periphery centered by projection column 3, and be provided with gap between optical inductor 4 and projection column 3, optical inductor 4 is connected with the receiver 5 for receiving each optical inductor 4 photoreceptor signal, receiver 5 is connected with control device 6, the signal controlling transmission device 2 that control device 6 is transmitted by contrast receiver 5 makes solar panels 1 and projection plate 9 rotate.

In embodiment, transmission device 2 includes at least three pneumatic cylinders 21, and the piston rod 21a of each pneumatic cylinder 21 is all connected with the bottom of solar panels 1, and projection plate 9 i.e. solar panels 1.

In embodiment, transmission device 2 includes three pneumatic cylinders 21, and three pneumatic cylinder 21 layings triangular in shape.

In embodiment, solar panels 1 are provided with a few centered by projection column 3, for placing the induction groove 7 of optical inductor 4, each induction groove 7 is different with distance of projection column 3.

In embodiment, the quantity of optical inductor 4 is eight, and close fit between adjacent optical inductor 4, these eight optical inductors 4 constitute an annular light sensor groups centered by projection column 3 jointly.

In embodiment, storage battery 8 is connected with pneumatic cylinder 21, receiver 5 and control device 6 respectively, and storage battery 8 be pneumatic cylinder 21, receiver 5 and control device 6 provide electric energy.

In embodiment, control device 6 is single-chip microcomputer.

A using method for intelligent solar cell panel control device, comprises the following steps:

One, projection column 3 is arranged on the light-collecting surface of solar panels 1, presets and start threshold values angle, respond to groove 7 accordingly according to startup threshold values angle Selection, and optical inductor 4 is laid in this induction groove 7;

Two, when the angle between projection column 3 and sunlight reaches and starts threshold values angle, the projection of projection column 3, on the optical inductor 4 of correspondence, makes the sunlight that this optical inductor 4 senses be less than other each optical inductors 4;

Three, the light-sensing signal sensed is sent to receiver 5 by each optical inductor 4, light-sensing signal is sent to control device 6 by receiver 5, and control device 6 draws the direction of sunlight direct projection by the change and the light-sensing signal intensity contrasted between each optical inductor 4 calculating light-sensing signal intensity before and after certain optical inductor 4;

Four, the incline direction that control device 6 controls three pneumatic cylinders, 21 pairs of solar panels 1 regulates, projection column 3 is made to turn to the direction of sunlight direct projection, projection is shortened thereupon, corresponding optical inductor 4 is exited in projection along with projection column 3, the light-sensing signal intensity of light-sensing signal intensity and other optical inductors 4 that control device 6 receives corresponding optical inductor 4 is tending towards identical, at this moment, control device 6 continues regulating and controlling solar panels 1 and rotates to the direction of sunlight direct projection the startup threshold values angle preset, and makes projection column 3 parallel with sunlight direct projection direction;

Five, projection column 3 parallel with sunlight after, control device 6 stops controlling pneumatic cylinder 21, and the angle waiting for next time between projection column 3 and sunlight reaches and starts threshold values angle.

In embodiment, induction groove 7 has three circles, and corresponding startup threshold values angle is respectively 5 ° to 8 °, 8 ° to 10 ° and 10 ° to 12 °.

In the present embodiment, three pneumatic cylinders 21, in triangular arranged, are stretched by piston rod 21a and reach the function of control solar panels 1 all-direction rotation.Solar panels 1 can be circular solar panels also can be square solar panels, what be worth one to say is, receiver 5 of the present utility model, control device 6 can connect multiple solar panels 1, in the solar panels group forming scale, a receiver 5, control device 6 can be only set, the light-sensing signal that the optical inductor 4 that receiver 5 receives one of them solar panels transmits, then control device 6 is unified to regulate to all solar panels.The quantity of optical inductor 4 is eight, and close fit between adjacent optical inductor 4, these eight optical inductors 4 constitute an annular light sensor groups centered by projection column 3 jointly.The quantity of optical inductor 4 can with increase in demand or minimizing, and more optical inductor 4 can make control device 6 pairs of anglecs of rotation have better control.

Control device 6 of the present utility model not only contrasts the change of the light-sensing signal intensity in some former and later two times of optical inductor 4, also laterally can contrast the difference of light-sensing signal intensity in several optical inductor 4 same time, thus calculate the need of rotation solar panels 1 exactly and rotate great angle.Such as, when there is a sudden change in the weather from fine to cloudy, although control device 6 records altering a great deal of light-sensing signal intensity in former and later two times of optical inductor 4, but across comparison finds, all optical inductor 4 light-sensing signal intensity all alter a great deal and also intensity after changing all approximate, control device 6 would not control transmission device running, when weather is normal, sunny, when the shadow of projection column 3 extends on some optical inductors 4, control device 6 records diminishing of light-sensing signal intensity in former and later two times of this optical inductor 4, across comparison finds, little and other optical inductor 4 light-sensing signal intensity of other optical inductor 4 light-sensing signal Strength Changes are all greater than this optical inductor 4, control device 6 will send instruction, control transmission device operates, rotate solar panels 1.By this set, solar panels 1 device degree of intelligence of the present utility model is promoted greatly, can differentiate and whether should rotate solar panels 1, avoid and unnecessarily waste energy.

Induction groove 7 has three circles, and corresponding startup threshold values angle is respectively 5 ° to 8 °, 8 ° to 10 ° and 10 ° to 12 °.The number of turns of induction groove 7 can be arranged as required, the distance of itself and solar panels 1 directly determines the frequency of solar panels 1 angle adjustment, the angles of the every mobile 5 ° of just mobile solar panels 1 of the sun, or the sun often mobile 10 ° of angles just moving solar panels 1 can regulate according to the actual conditions of locality.

Storage battery 8 is connected with pneumatic cylinder 21, receiver 5 and control device 6 respectively, and storage battery 8 be pneumatic cylinder 21, receiver 5 and control device 6 provide electric energy.Pneumatic cylinder 21, receiver 5 and control device 6 energy source, in solar panels 1, can not take other power supply.

Second embodiment:

In embodiment, transmission device 2 includes four pneumatic cylinders 21, and four pneumatic cylinders 21 are laid in quadrangle.

Do not state part with the first embodiment.

3rd embodiment:

Projection plate 9 and solar panels 1 are provided separately, as shown in Figure 5, in figure, the two is all connected with respective transmission device 2, in actual applications, the two can share a transmission device 2, by gear or power transmission shaft can realize projection plate 9 easily and solar panels 1 link, at this no longer specific explanations.

Do not state part with the first embodiment.

What finally illustrate is, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described the utility model by referring to preferred embodiment of the present utility model, but those of ordinary skill in the art is to be understood that, various change can be made to it in the form and details, and not depart from the spirit and scope of the present utility model that appended claims limits.

Claims (8)

1. an intelligent solar cell panel control device, include solar panels (1), described solar panels (1) are connected with storage battery (8) and transmission device (2), it is characterized in that: described solar panels control device and also include projection plate (9), be fixed on projection plate (9) upper and with projection plate (9) vertically disposed projection column (3) and several optical inductor (4) be arranged on projection plate (9), described optical inductor (4) waits radian around being arranged on projection column (3) periphery centered by projection column (3), and be provided with gap between described optical inductor (4) and projection column (3), described optical inductor (4) is connected with the receiver (5) for receiving each optical inductor (4) photoreceptor signal, described receiver (5) is connected with control device (6), described control device (6) connection for transmission device (2), described storage battery (8) is connected with pneumatic cylinder (21), receiver (5) and control device (6) respectively, and storage battery (8) be pneumatic cylinder (21), receiver (5) and control device (6) provide electric energy.

2. a kind of intelligent solar cell panel control device according to claim 1, it is characterized in that: described transmission device (2) includes at least three pneumatic cylinders (21), the piston rod (21a) of each described pneumatic cylinder (21) is all connected with the bottom of solar panels (1), described projection plate (9) i.e. solar panels (1).

3. a kind of intelligent solar cell panel control device according to claim 2, it is characterized in that: described transmission device (2) includes three pneumatic cylinders (21), and pneumatic cylinder (21) laying triangular in shape described in three.

4. a kind of intelligent solar cell panel control device according to claim 2, it is characterized in that: described transmission device (2) includes four pneumatic cylinders (21), and the pneumatic cylinder (21) described in four is laid in quadrangle.

5. a kind of intelligent solar cell panel control device according to claim 3, it is characterized in that: described solar panels (1) are provided with a few centered by projection column (3), for placing the induction groove (7) of optical inductor (4), the distance of the induction groove (7) described in each and projection column (3) is different.

6. a kind of intelligent solar cell panel control device according to claim 1, it is characterized in that: the quantity of described optical inductor (4) is eight, and close fit between adjacent optical inductor (4), this optical inductor (4) described in eight constitutes an annular light sensor groups centered by projection column (3) jointly.

7. a kind of intelligent solar cell panel control device according to claim 1, is characterized in that: described control device (6) is single-chip microcomputer.

8. a kind of intelligent solar cell panel control device according to claim 5, is characterized in that: described induction groove (7) has three circles, and corresponding startup threshold values angle is respectively 5 ° to 8 °, 8 ° to 10 ° and 10 ° to 12 °.