CN201467027U - Fixed automatic tracking control system for photovoltaic generation - Google Patents

Fixed automatic tracking control system for photovoltaic generation Download PDF

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Publication number
CN201467027U
CN201467027U CN 200920115837 CN200920115837U CN201467027U CN 201467027 U CN201467027 U CN 201467027U CN 200920115837 CN200920115837 CN 200920115837 CN 200920115837 U CN200920115837 U CN 200920115837U CN 201467027 U CN201467027 U CN 201467027U
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China
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light
sensitive
circuit
tracking
settled date
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CN 200920115837
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Chinese (zh)
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孙建儒
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ZHEJIANG HAICHEN SPACE NEW ENERGY CO Ltd
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ZHEJIANG HAICHEN SPACE NEW ENERGY CO Ltd
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Abstract

The utility model discloses a fixed automatic tracking control system for photovoltaic generation, belonging to the field of solar energy utilization. The existing fixed automatic tracking control system for photovoltaic generation has complex structure, high cost and poor reliability. The fixed automatic tracking control system for photovoltaic generation is characterized by comprising a height angle drive circuit or/and a location drive circuit at least controlled by a fixed tracking probe through a control circuit. The utility model has the functions of tracking continuously on the initial position after starting up, tracking intermittently in the operational process, automatically returning to the east in a horizontal direction when the sun can not be seen, returning the height angle automatically when a typhoon comes, and the like; the system can be started on any position all day long, can automatically search the solar rays for continuous tracking and can be driven by a direct-current or alternative-current reducing motor. The utility model has low power consumption, high tracking precision, high cost performance, simple system and good reliability.

Description

Photovoltaic power generation settled date automatic tracking control system
Technical field
The utility model relates to field of solar energy utilization, particularly the settled date automatic tracking control system of field of photovoltaic power generation.
Background technology
Solar energy is inexhaustible green regenerative energy sources, is the main energy sources that can rely on human future.Photovoltaic square formation industry is 21st century an one of new industry with fastest developing speed, what photovoltaic square formation generating was at present adopted in a large number is fixed flat planar formula structure, generally be towards southern (direction that this paper addresses is the example explanation with the Northern Hemisphere, and the Southern Hemisphere then is exposed to the north) inclination certain angle fixed placement with battery array.Yet the direction of sunray not only will be rotated 180 degree from the east orientation west within one day, the also ascending descending again conversion of elevation angle is throughout the year also in conversion.The electric weight that solar cell produces is directly proportional with the sunlight intensity that incides battery, the light intensity maximum that receives when battery surface is vertical with sunray.Fixed flat planar formula structure can't receive solar radiation light to greatest extent, because the cosine effect that the deflection of light causes (cosine effect be meant receive the solar radiation energy of accepting on the plane follow the sunray included angle cosine to be directly proportional), greatly reduce the efficient of electricity generation system with plane normal.Make expensive battery resource can not give full play to its usefulness, cost of electricity-generating is high, is difficult to contend with traditional energy.Developing dull and stereotyped tracing type photovoltaic generation technology and solar energy concentration generating technology is the effective way that reduces photovoltaic generating system and cost of electricity-generating.
Install tracking system for flat electricity generation system, can multiple electric 25-30%, make cost of electricity-generating reduce more than 30%.In order further to reduce the cost of photovoltaic generating system, adopt optical system, with projecting solar cell behind the solar light focusing again, intensity of illumination is multiplied, the output electric energy also is multiplied concentrating photovoltaic power generation technology that Here it is.Solar energy concentration generating system also must be mixed the cost that the settled date tracking system could further reduce photovoltaic generating system.The optically focused technology adds the settled date tracking technique, can bring into play the usefulness of photovoltaic cell to greatest extent and absorb solar energy to greatest extent, and the electricity generation system cost is reduced more than 50%, and cost of electricity-generating reduces 60-70%.Therefore to photovoltaic generating system the settled date tracking system being installed is to reduce the effective way of photovoltaic generating system cost and cost of electricity-generating.
Present solar energy power generating settled date tracking control system mainly has problems and is: (1) sonde configuration complexity; (2) control system complexity, have in addition adopted the single-chip microcomputer digital control technology, adopt stepping motor or department's clothes motor-driven, (3) system reliability is poor; (4) system cost height is difficult to realize reducing significantly the purpose of photovoltaic generating system cost.
The utility model content
The technical assignment of the technical problems to be solved in the utility model and proposition is to overcome the system complex that existing photovoltaic power generation settled date automatic tracking control system exists, cost is too high, defectives such as poor reliability provide a kind of new photovoltaic power generation settled date automatic tracking control system.For this reason, the utility model is by the following technical solutions:
Photovoltaic power generation settled date automatic tracking control system is characterized in that: comprise the elevation angle drive circuit or/and the orientation drive circuit, these two drive circuits are controlled by control circuit by the settled date tracking probe at least.
The utlity model has that start back initial position Continuous Tracking, running discontinuous formula are followed the tracks of, the sun falls that the back level orientation is returned the positive east automatically, elevation angle was returned the equality function automatically when typhoon arrived; Can start round-the-clock optional position, can search sunray automatically and continue and follow the tracks of. can adopt direct current or exchange reducing motor to drive, power consumption is little, the tracking accuracy height, the cost performance height, and system is simple, good reliability.
The settled date tracking probe utilizes the Projection Design of light beam to form, and light beam has certain height, and it highly determines to follow the tracks of accuracy of detection.The utility model is simple in structure, function is complete, cost performance is high.
The air door of blast switch all the time can be over against the wind comes under the acting in conjunction of guiding empennage and counterweight, the pretightning force of air door can be adjusted according to the typhoon grade of prevention, surpass the pressure of setting when wind-force after, air door is inwardly opened and is touched sensitive switch, the normally open contact closure of sensitive switch starts the prevention and control circuit.It is simple in structure, blast is easy to adjust, action accurately and reliably, advantage such as cost is low.
Description of drawings
Fig. 1 is the preferable working envelope figure of of the utility model photovoltaic power generation settled date automatic tracking control system.
Fig. 2 is embodiment 1: twin shaft photovoltaic power generation settled date automatic tracking control system circuit diagram.
Fig. 3 is embodiment 2: elevation angle single shaft photovoltaic power generation settled date automatic tracking control system circuit diagram.
Fig. 4 is embodiment 3: thing orientation single shaft photovoltaic power generation settled date automatic tracking control system circuit diagram.
Fig. 5 is a kind of structural representation of the utility model settled date tracking probe.
Fig. 6 is the vertical view of Fig. 5.
Fig. 7 is that the tracking accuracy of the utility model settled date tracking probe is calculated schematic diagram.
The wiring schematic diagram of the light-sensitive element of Fig. 8 the utility model settled date tracking probe.
A kind of external structure schematic diagram of Fig. 9 the utility model blast switch.
Figure 10 is a kind of cut-away view of the utility model blast switch.
Figure 11 is the A portion enlarged drawing among Figure 10.
Among the figure:
The 101-bearing, 102-pedestal, 103-light beam, 104-projection end face, RG1-cloudy day is detected light-sensitive element, and RG2-detects light-sensitive element night, RG3, RG4-level orientation detect light-sensitive element, and RG5, RG6-meet light and detect light-sensitive element, and RG7, RG8-elevation angle detect light-sensitive element;
201-counterweight, 202-support, 203-air door, 204-bellows, 205-door-hinge, the 206-empennage that leads, the 208-vertical shaft, the 209-trunnion axis, the 210-sensitive switch, the 211-preloading spring, the 212-movable carriage, the 213-fixing slide carriage, 214-regulates bolt, 215-output line.
Embodiment
The basic design of the utility model photovoltaic power generation settled date automatic tracking control system is: comprise the elevation angle drive circuit or/and the orientation drive circuit, these two drive circuits at least by the settled date tracking probe by control circuit KZ control.
As to further the improving and replenishing of technique scheme, the utility model also comprises the technical characterictic that following each section is additional, so that when implementing above-mentioned basic design of the present utility model, select for use according to demand:
The light beam 103 that the settled date tracking probe comprises pedestal 102 and is installed in pedestal 102 upper ends, at pedestal 102 or/and on the light beam 103 light-sensitive element is installed, light-sensitive element by control circuit KZ control elevation angle drive circuit or/and the orientation drive circuit.It utilizes the Projection Design of light beam to form, and light beam has certain height, and it highly determines to follow the tracks of accuracy of detection, and it is simple in structure, function is complete, cost performance is high.
Light-sensitive element comprises that two level orientation detect light-sensitive element RG3, RG4, they lay respectively at east orientation, west to.Be used to detect sun level orientation.
Light-sensitive element comprises that two elevation angles detect light-sensitive element RG7, RG8, and they lay respectively at south orientation, north orientation.Be used to detect sun altitude.
Pedestal 102 has the projection end face 104 that exposes, and light-sensitive element is positioned on the projection end face 104 of pedestal 102, so that accept the shadow of sunlight or light beam.The projection end face is the inclined-plane, then can reduce to install the shared width of light-sensitive element thereon.
Light-sensitive element comprises that the cloudy day detection light-sensitive element RG1 that is installed on pedestal 102 sides is or/and detect light-sensitive element RG2 night.Cloudy day is detected light-sensitive element RG1 and is used for detecting the cloudy day, detects light-sensitive element RG2 night and is used to detect night.
Light-sensitive element comprises that the light of meeting that is installed in light beam 103 tops and light beam 103 top backlight side respectively detects light-sensitive element RG5, RG6.Be used to detect the photovoltaic arrays front and whether meet light.
Light-sensitive element is at least two, and their end all connects together, and as the common port of detection signal, their other end picks out respectively.
Light-sensitive element is photo resistance or phototriode.
Pedestal 102 is installed on the two-dimensional adjustable bearing 101.So that regulate.
The elevation angle drive circuit is or/and the orientation drive circuit also passes through described control circuit control by a blast switch, described blast switch has the bellows that can rotate around the direction of two intersections, therefore bellows have two rotational freedoms, the oral area of bellows is equipped with rotating air door, the sensitive switch that is touched by air door is installed in the inside of bellows, the afterbody of bellows is installed the guiding empennage, and counterweight is installed in the bottom of bellows, and the output line 215 of sensitive switch is connected to control circuit KZ.
Rotate installation by vertical shaft between counterweight and the bellows, counterweight 201 usefulness trunnion axis 209 are rotatably installed on the support 202.
Output line 215 is connected to earlier on two conducting rings 216 that are installed in vertical shaft 208 lower ends, is passed on a pair of static brush 217 by conducting ring 216 again, and output line 215 is drawn from brush 217 again.
Effect has preloading spring on the air door.
Control circuit KZ is that typhoon detects a kind of or two kinds combination or several the combination in prevention circuits, cloudy testing circuit, night testing circuit, time control circuit, level orientation follow-up control circuit, elevation angle follow-up control circuit, the side to light testing circuit.
Below component part of the present utility model and integral body are done more specific description.
As Fig. 5, settled date tracking probe shown in 6, be by two-dimensional adjustable erection support 101, be installed in the pedestal 102 on the bearing 101, be installed in the light beam 103 on the pedestal 102 and be installed in pedestal and light beam on 8 light-sensitive element RG1~RG8, wherein level orientation detects the west side that light-sensitive element RG3 is installed in the inclined plane shape projection end face 104 of pedestal 102, level orientation detects the east side that light-sensitive element RG4 is installed in the inclined plane shape projection end face 104 of pedestal 102, elevation angle detects the north side that light-sensitive element RG7 is installed in the inclined plane shape projection end face 104 of pedestal 102, elevation angle detects the southern side that light-sensitive element RG8 is installed in the inclined plane shape projection end face 104 of pedestal 102, cloudy day is detected the plane, west side that light-sensitive element RG1 is installed in pedestal 102, detect the plane, east side that light-sensitive element RG2 is installed in pedestal 102 night, meet light and detect the top that light-sensitive element RG5 is installed in light beam 103, meet light and detect the plane, north side that light-sensitive element RG6 is installed in light beam 103 tops.
Level orientation detects and the altitude of the sun detection is to utilize the light beam projection: when the light beam axis does not overlap with sunray, light beam just can produce projection on the light-sensitive element of direction backlight, the conductive characteristic of the light-sensitive element of the light-sensitive element of shady face and side to light is changed, after circuit relatively amplifies, drive the level orientation tracking motor/and or the elevation angle tracking motor, make photovoltaic arrays towards meeting the direction of light rotation, till two relative faces are all met light; Is that example is (hereinafter also as example with photo resistance as light-sensitive element, the light-sensitive element of other kind can be with reference to this example according to separately characteristic), the light-sensitive element resistance of shady face will increase, and greater than the resistance of the light-sensitive element of side to light, after circuit relatively amplifies, drive the level orientation tracking motor/and or the elevation angle tracking motor, make photovoltaic arrays towards meeting direction of light rotation, till two relative faces are all met light.
Level orientation detects light-sensitive element RG3, RG4 and is used to detect sun level orientation.West as sun deflection light beam 103, then level orientation detects light-sensitive element RG3 and meets light, it is backlight that level orientation detects light-sensitive element RG4, the resistance of level orientation detection light-sensitive element RG4 will detect the resistance of light-sensitive element RG3 greater than level orientation, these two signals are after circuit relatively amplifies, drive level orientation driven by motor photovoltaic arrays and westwards follow the tracks of, all meet the photoresistance value until level orientation detection light-sensitive element RG3 with RG4 and equate.Instead then instead then still.
Elevation angle detects light-sensitive element RG7, RG8 and is used to detect sun altitude.If altitude of the sun is higher, then elevation angle detects light-sensitive element RG7 and meets light, it is backlight that elevation angle detects light-sensitive element RG8, elevation angle detects the resistance of the resistance of light-sensitive element RG8 greater than elevation angle detection light-sensitive element RG7, these two signals are after circuit relatively amplifies, drive elevation angle driven by motor photovoltaic arrays and upwards follow the tracks of, all meet the photoresistance value until elevation angle detection light-sensitive element RG7 with elevation angle detection light-sensitive element RG8 and equate.Instead then still.
Cloudy day is detected light-sensitive element RG1 and is used for detecting the cloudy day, and the cloudy no solar time on the same day, the RG1 resistance increases, and this signal amplifies through circuit closed tracking circuit afterwards.
Detect light-sensitive element RG2 night and be used to detect night, after darkness, detect light-sensitive element RG2 resistance night and increase, after circuit amplifies, connect the level orientation drive motors and make the photovoltaic arrays front return the due east direction, so that entered operating state in second day fast.
Meeting light detection light-sensitive element RG5, RG6 is used to detect the photovoltaic arrays front and meets light or backlight.When the light time is met in the photovoltaic arrays front, meet light and detect the resistance of light-sensitive element RG5 less than the resistance of meeting light detection light-sensitive element RG6, these two signals are controlled the elevation angle tracking circuit after circuit relatively amplifies, make elevation angle and level orientation follow the tracks of to follow the tracks of simultaneously and adjust; If the photovoltaic arrays front is backlight, this signal will suspend elevation angle to be followed the tracks of, etc. level orientation follow the tracks of adjust to the right place after, restart elevation angle and follow the tracks of.
Tracking accuracy is mainly determined by the height H of light beam.Follow the tracks of angle of minimum resolution φ=arctg (D/H), D is the minimum distinguishable illumination width of light-sensitive element, sees Fig. 7, and the diameter of light-sensitive element is about 5mm, level orientation detects light-sensitive element RG3 and RG4, elevation angle detect light-sensitive element RG7 and the shared width of RG8 in order to reduce, and adopts the inclined-plane to install.
8 light-sensitive element one ends all are connected together, and as public 0 line, the other end independently picks out respectively, have 9 output connection (see figure 8)s, and (see figure 5) is drawn in the hole in the middle of base bottom.
The settled date tracking probe of said structure is to be fixed together with photovoltaic arrays and can be the example explanation with the photovoltaic arrays changing location.
Said structure is that a kind of twin shaft photovoltaic power generation settled date is followed the tracks of detection probe, and the settled date that is mainly used in the electricity generation system of an optically focused is followed detection.
This control system both can have been made as this twin shaft settled date tracking structure of saying above (level orientation and elevation angle, the twin shaft photovoltaic power generation settled date automatic tracking control system of corresponding diagram 2), also can make the single shaft settled date and follow the tracks of detection probe:
The firstth, sun level orientation uniaxiality tracking detection probe (thing orientation single shaft photovoltaic power generation settled date automatic tracking control system corresponding shown in Figure 4), only need this moment installation level orientation detection light-sensitive element RG3, RG4, cloudy day to detect light-sensitive element RG1 and detect light-sensitive element RG2 night, remaining light-sensitive element has not just needed.This probe can be used for the tracking and monitoring of dull and stereotyped tracing type photovoltaic electricity generation system, flute profile and paraboloidal line light gathering photovoltaic power generating system.
The secondth, sun altitude uniaxiality tracking detection probe (elevation angle single shaft photovoltaic power generation settled date automatic tracking control system corresponding shown in Figure 3) only needs the dress elevation angle to detect light-sensitive element RG7, RG8 this moment and the cloudy day is detected the tracking and monitoring that light-sensitive element RG1. can be used for all kinds of paraboloidals and flute profile line concentrating generating system.
When probe is installed, the light beam axis should from the direction of light incident, be fixed on the two-dimensional adjustable bearing according to the up north and down south left west and right east top of photovoltaic arrays perpendicular to the solar cell plane, and the adjustment bearing, make the axis of light beam vertical fully with cell plane.The output line of probe is connected to tracking control unit.
As Fig. 9,10, blast switch shown in 11, be by counterweight 201, mounting bracket 202, air door 203, bellows 204, door-hinge 205, guiding empennage 206, vertical shaft 208, trunnion axis 209, sensitive switch 210, preloading spring 211, movable carriage 212, fixing slide carriage 213, regulate bolt 214, output line 215 is formed: air door 203 usefulness door-hinges 205 are installed in the front end of bellows 204, sensitive switch 210 is installed on the fixed head in the bellows 204, the driving lever of sensitive switch 210 is near the air door inboard, and an end of preloading spring is connected air door 203 position higher than door-hinge 205.Behind the blast of blast that acts on the air door 203 above setting, air door 203 is inwardly opened around door-hinge 205, air door 203 is depressed the driving lever of sensitive switch simultaneously, make the normally open contact closure of sensitive switch 210, provide signal to control system, start the elevation angle drive motors, make photovoltaic arrays Hui Ping, wind area is reduced to minimum; After blast reduced, air door 203 outwards rotated under the effect of preloading spring 211, unclamps the driving lever of sensitive switch 210, and the normally open contact of sensitive switch 210 is opened.Counterweight 201 can be rotated around trunnion axis 209, no matter which kind of position is the elevation angle on photovoltaic arrays plane be in, can both remains and makes vertical shaft 208 be in vertical; Bellows 204 can be around vertical shaft 208 rotations, under the effect of guiding empennage 205, no matter wind from what direction, can both make air door over against the wind comes from; The blast governor motion is made up of adjusting bolt 214, fixing slide carriage 213, movable carriage 212, preloading spring 211, and the other end of preloading spring is fixed on the upper end of air door 203, and is higher than door-hinge 205.Outwards twist and regulate bolt 214, movable carriage 212 is outwards slided along the guide rail of fixing slide carriage 213, with preloading spring 211 draw tighter, the wind pressure value of opening air door 203 is just bigger, vice versa.Install before the blast switch, configure wind pressure value by experiment, and bolt is regulated in locking.For preventing the electric wire of sensitive switch 210 to be twisted into two parts because of the rotation of bellows 204, switching line is by pair of conductive ring, brush output.
Typhoon detects prevention circuits: flat put in place travel switch XK1, blast switch FK, relay J 1 and J8 form (referring to Fig. 2, Fig. 3) by the height angular convolution, reach the grade of setting when wind-force after, blast switch FK closure, relay J 1 adhesive, cut off the timing circuit power supply rapidly, make relay J 8 adhesives simultaneously, drive elevation angle drive motors M2 and make the photovoltaic arrays plane upwards get back to horizontal level, the flat travel switch XK1 action that puts in place of the back height angular convolution that puts in place stops elevation angle drive motors M2.Also can before the precognition typhoon arrives, manually press emergency button AN1, make photovoltaic arrays plane Hui Ping in advance.
The cloudy day testing circuit: after typhoon arrives, all be accompanied by weather and turn out cloudy even heavy rain is arranged, at this moment cloudy testing circuit enters operating state.Because the typhoon blast is a pulsating quantity, like this blast switch a little while closure disconnect a little while, can cause the system repeatedly misoperation.In order to prevent so to cause the tracking system misoperation, increased cloudy testing circuit, the typhoon arrival system that the do not clear up day after tomorrow can not enter operating state, is not having under the typhoon situation exactly, and during the cloudy day, this circuit also can move, and cuts off follow-up control circuit, no longer follows the tracks of.Automatically enter tracking mode after it is fine.This circuit is made up of resistance R 1~R8 and photo resistance RG1, operational amplifier IC1, triode T1 and relay J 2 etc., wherein R1, R2, R4, RG1 form the bridge-type comparison circuit, behind it the moon, the RG1 resistance increases, behind the R2 greater than former setting, operational amplifier output positive signal is after T1 amplifies, drive the J2 action, cut off the timing loop power supply.After it was fine, the RG1 resistance was reduced to less than behind the R2, and J2 disconnects, and recovered timing loop, entered tracking mode.
Night testing circuit: photovoltaic arrays need make it turn back to the positive east by the orientation drive system to night, so that entered tracking mode in second day fast. this circuit is by resistance R 9, R10, R27, photo resistance RG2, triode T2, relay J 3, J5 and travel switch XK2 form. after the sun falls, it is subduing, the RG2 resistance constantly increases, the T2 base voltage rises, after surpassing the operation voltage of J3, the J3 adhesive, disconnect the timing circuit power supply, pass through XK2 simultaneously, R27 gives relay J 5 power supplies, driving the orientation drive motors after the J5 adhesive returns battery array eastwards, the back travel switch XK2 that puts in place moves, and disconnects J5. after daybreak in second day, and the RG2 resistance is very little, relay J 2 disconnects, turn-on time control circuit.
Time control circuit: this settled date tracking control system has adopted light-operated batch (-type) tracking mode, be to search for position of sun after the system start-up automatically continuously, and aligning sunray, after light-operated tracking probe GT detects the light beam axis and sunray is aimed at fully, just stop to follow the tracks of, system stops to continue to follow the tracks of behind a period of time t2 (the t2 time is adjustable) again, carries out batch (-type) so repeatedly and follows the tracks of.Electricity generation system according to different accuracy can be set different tracking cycles.The speed that the sun rotates is very slow, daytime one, the talent turned over 180 degree, for ordinary flat formula photovoltaic generating system, each tracking cycle can allow deflection angle big, just tracking cycle is longer, tracking in 20 minutes once can meet the demands fully, even only adopts East and West direction uniaxiality tracking and elevation angle manual adjustments, not only economizes on electricity but also system cost is reduced.Concentrating generating system for reflective line focus adopts the elevation angle uniaxiality tracking, just must adopt double-axis tracking for lens refraction type point focusing, and light concentrating times is high more, and tracking accuracy requires high more, and tracking cycle is short more.As for 15 times condenser system, can allow optically focused spot side-play amount 2mm, tracking cycle is 2 minutes, the tracking accuracy precision can reach 0.3 degree.The high power concentrator system can reach 0.1 degree.Time control circuit is made up of the normally closed interlock of resistance R 12~R16, capacitor C 1, C2, C3, timing chip IC5, triode T3, T4, relay J 4, inching button AN2, relay J 1, J2, J3, J5, J6, J8 and J9.Timing chip IC5 is a bistable state timing chip, is used for setting tracking time t1 and stand-by period t2.Tracking time is by resistance R 13 and capacitor C 2 decisions, and the RC value increases time lengthening, and the time that reduces shortens.Stand-by period t2 is by resistance R 12 and capacitor C 1 decision.Its course of work is: after timing circuit powers on, be introduced into t1 working hour, and timing chip IC5 output low level, T3, T4 conducting, the tracking control loop power supply is connected in the J4 adhesive.Follow-up control circuit is followed the tracks of according to the signal in each orientation of probe detection, after tracking puts in place, signal is returned regularly, make the C1 charging, enter t2 and wait for the period, and with the tracking control loop dump, after waiting for that period t2 arrives, timing chip IC5 transfers low level again to, the J4 adhesive, and system follows the tracks of adjustment once more, enter again after putting in place and wait for period t2, so constantly carry out repeatedly.
The level orientation follow-up control circuit: level orientation is followed the tracks of testing circuit by resistance R 20~R28, and photo resistance RG3, RG4, dc operational amplifier IC2, diode D1, triode T5, T6, relay J 5, J6 form (referring to Fig. 2, Fig. 4).If the light beam axis of tracking probe not with sunray in same, will on the photo resistance RG3 of thing side or RG4, produce projection, hypographous resistance increases, after bridge-type comparison circuit and differential amplifier amplification, promote triode T3 or T4 work, drive level orientation motor M 1 and make tracking system or rotation eastwards westwards, turn to the axis of tracking probe and sunray on same plane, the resistance of RG3 equates that with the resistance of RG4 driving stops.0~180 ° of following range.
The altitude of the sun angle-tracing circuit: this circuit is formed (referring to Fig. 2, Fig. 3) by resistance R 40~R48, photo resistance RG7, RG8, dc operational amplifier IC4, triode T8, T9, diode D2, relay J 8, J9.Its operation principle is identical with the level orientation tracking.Following range is 0~90 °.
Side to light slowdown monitoring circuit: because the sun altitude following range is 0~90 °, for tracking system can be started the optional position, round-the-clock automatic operation, increased this part circuit, it is by resistance R 30~R36, photo resistance RG5, RG6, dc operational amplifier IC3, triode T7, relay J 7 is formed (referring to Fig. 2). and photo resistance RG5 is installed in the top of probe, RG6 is installed in the top, north side of probe light beam, meet the light time when front, photovoltaic arrays plane like this, the resistance of RG6 is greater than the resistance of RG5, relay J 7 adhesives, when the time control circuit is followed the tracks of the period at t1, level orientation is followed the tracks of with the height tracing circuit and is followed the tracks of adjustment simultaneously, after adjusting to the right place, relay J 5, J6, J8, the capacitor C 1 of normally closed interlock control circuit turn-on time of J9, make the time circuit output switching activity, wait for the period if enter t2. after the start, photovoltaic arrays positive backlight (as morning, it was cloudy or rain, system is in resting state, do not follow the tracks of, afternoon the sky fine after, shined upon the back side of photovoltaic arrays, perhaps afternoon is because the system failure, the square formation front is in towards southwestward, and second day morning, the sun rose from the east, and irradiate light is to the back side of photovoltaic arrays), the resistance of RG5 is greater than the resistance of RG6 at this moment, relay J 7 can not adhesive, and after the start, time control circuit is introduced into t1 and follows the tracks of the period, relay J 4 adhesives, have only the level orientation follow-up control circuit that electricity is arranged, follow the tracks of adjustment, after level orientation is adjusted to the right place, light is met in the photovoltaic arrays front, the resistance of RG5 reduces, and the resistance of RG6 increases, relay J 7 adhesives, the height tracing circuit is just followed the tracks of adjustment, after putting in place, the time control circuit redirect enters and waits for period t2.
Embodiment one: as shown in Figure 2, it is twin shaft (level orientation and elevation angle) photovoltaic power generation settled date automatic tracking control system, it comprises elevation angle drive circuit and orientation drive circuit, these two drive circuits are controlled by control circuit KZ by settled date tracking probe and blast switch simultaneously, control circuit KZ comprises: typhoon detects prevention circuits, the cloudy day testing circuit, night testing circuit, time control circuit, the level orientation follow-up control circuit, the elevation angle follow-up control circuit, the side to light testing circuit, these circuit make level orientation motor M 1 according to the detection signal control elevation angle drive circuit and the orientation drive circuit of settled date tracking probe and blast switch, elevation angle drive motors M2 does corresponding action.
Embodiment two: as shown in Figure 3, it is an elevation angle single shaft photovoltaic power generation settled date automatic tracking control system, it is controlled the elevation angle drive circuit by control circuit KZ by settled date tracking probe and blast switch, and wherein the settled date tracking probe only needs setting height(from bottom) angle detection light-sensitive element RG7, RG8 and cloudy day detection light-sensitive element RG1 to get final product; Control circuit KZ comprises: typhoon detects prevention circuits, cloudy testing circuit, time control circuit, elevation angle follow-up control circuit, and these circuit make elevation angle drive motors M2 do corresponding action according to the detection signal control elevation angle drive circuit of settled date tracking probe and blast switch.
Embodiment three: as shown in Figure 4, it is a thing orientation single shaft photovoltaic power generation settled date automatic tracking control system, it is controlled by control circuit KZ the other side bit driver circuit by the settled date tracking probe, wherein the settled date tracking probe only need be installed level orientation and detect light-sensitive element RG3, RG4, cloudy day is detected light-sensitive element RG1 and detects light-sensitive element RG2 night, control circuit KZ comprises: cloudy testing circuit, night testing circuit, time control circuit, the level orientation follow-up control circuit, these circuit make level orientation motor M 1 do corresponding action according to the detection signal control azimuth drive circuit of settled date tracking probe.
In addition, also can be when implementing with blast switch and the circuit omission that relates to blast switch, only control the elevation angle drive circuit by control circuit or/and the orientation drive circuit makes elevation angle drive motors M2 or/and level orientation motor M 1 is done corresponding action and realizes tracking with the settled date tracking probe.Such embodiment is suitable for using in the place of the less generation of typhoon.

Claims (10)

1. photovoltaic power generation settled date automatic tracking control system is characterized in that: comprise the elevation angle drive circuit or/and the orientation drive circuit, these two drive circuits at least by settled date tracking probe (GT) by control circuit (KZ) control.
2. photovoltaic power generation settled date automatic tracking control system according to claim 1, it is characterized in that the light beam (103) that described settled date tracking probe (GT) comprises pedestal (102) and is installed in pedestal (102) upper end, at described pedestal (102) or/and on the light beam (103) light-sensitive element is installed, described light-sensitive element by the described elevation angle drive circuit of described control circuit (KZ) control or/and the orientation drive circuit.
3. photovoltaic power generation settled date automatic tracking control system according to claim 2, it is characterized in that described light-sensitive element comprise two lay respectively at east orientation, west to level orientation detect light-sensitive element (RG3, RG4) and two elevation angles that lay respectively at south orientation, north orientation detect light-sensitive elements (RG7, RG8).
4. photovoltaic power generation settled date automatic tracking control system according to claim 3 is characterized in that described pedestal (102) has the projection end face (104) that exposes, and described light-sensitive element is positioned on the projection end face of described pedestal (102).
5. photovoltaic power generation settled date automatic tracking control system according to claim 2 is characterized in that described light-sensitive element comprises: the cloudy day that is installed on described pedestal (102) side is detected light-sensitive element (RG1) or/and detect light-sensitive element (RG2) night; And the light of meeting that is installed in described light beam (103) top and described light beam (103) top backlight side respectively detects light-sensitive element (RG5, RG6).
6. photovoltaic power generation settled date automatic tracking control system according to claim 1, it is characterized in that described elevation angle drive circuit or/and the orientation drive circuit is also controlled by described control circuit (KZ) by a blast switch (FK), described blast switch (FK) has the bellows (204) that can rotate around the direction of two intersections, the oral area of described bellows (204) is equipped with rotating air door (203), the sensitive switch (210) that is touched by described air door (203) is installed in the inside of described bellows (204), the afterbody of described bellows (204) is installed guiding empennage (206), counterweight (201) is installed in the bottom of described bellows (204), and the output line of described sensitive switch (215) is connected to described control circuit (KZ).
7. photovoltaic power generation settled date automatic tracking control system according to claim 6, it is characterized in that rotating installation by vertical shaft (208) between described counterweight (201) and the bellows (204), described counterweight (201) is rotatably installed on the support (202) with a trunnion axis (209).
8. photovoltaic power generation settled date automatic tracking control system according to claim 7, it is characterized in that described output line (215) is connected to earlier on two conducting rings (216) that are installed in described vertical shaft (208) lower end, passed on a pair of static brush (217) by described conducting ring (216), described output line (215) is drawn from described brush (217) more again.
9. photovoltaic power generation settled date automatic tracking control system according to claim 6 is characterized in that described air door (204) effect of going up has preloading spring (211).
10. according to claim 1,2 or 6 described photovoltaic power generation settled date automatic tracking control systems, it is characterized in that described control circuit (KZ) detects a kind of or two kinds combination or several combination in prevention circuits, cloudy testing circuit, night testing circuit, time control circuit, level orientation follow-up control circuit, elevation angle follow-up control circuit, the side to light testing circuit for typhoon.
CN 200920115837 2009-03-19 2009-03-19 Fixed automatic tracking control system for photovoltaic generation Expired - Lifetime CN201467027U (en)

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Application Number Priority Date Filing Date Title
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102809972A (en) * 2012-08-10 2012-12-05 江苏物联网研究发展中心 Return tracking method for photovoltaic tracking system
EP2597397A4 (en) * 2010-07-20 2015-03-18 Wei Sheng Invest & Dev Co Ltd Angle automatic compensation method and device for solar energy sun-tracking panel

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2597397A4 (en) * 2010-07-20 2015-03-18 Wei Sheng Invest & Dev Co Ltd Angle automatic compensation method and device for solar energy sun-tracking panel
CN102809972A (en) * 2012-08-10 2012-12-05 江苏物联网研究发展中心 Return tracking method for photovoltaic tracking system

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