CN204392155U

CN204392155U - Automatic small device of solar generating

Info

Publication number: CN204392155U
Application number: CN201520068219.5U
Authority: CN
Inventors: 陈丽丹; 杨忠银; 龚巧文
Original assignee: Guangzhou College of South China University of Technology
Current assignee: Guangzhou College of South China University of Technology
Priority date: 2015-01-30
Filing date: 2015-01-30
Publication date: 2015-06-10
Anticipated expiration: 2025-01-30

Abstract

The utility model relates to field of photovoltaic power generation, particularly relates to a kind of automatic small device of solar generating.It also comprises optical signal acquisition device, optical signal acquisition device to be arranged on device of solar generating and to be connected with control device, optical signal acquisition device is for gathering the irradiating angle data of sunlight, by control device to data analysis, make device of solar generating automatically adjust angle between sunlight, keep vertical with sunlight all the time to make device of solar generating.It adopts and on device of solar generating, arranges transfer and arrange optical signal acquisition device, the irradiating angle data of sunlight are gathered by optical signal acquisition device, thus make transfer drive device of solar generating automatically to adjust angle between solar panel and sunlight, keep vertical with sunlight all the time to make solar panel.

Description

Automatic small device of solar generating

Technical field

The utility model relates to field of photovoltaic power generation, particularly relates to a kind of automatic small device of solar generating.

Background technology

Existing solar tracking device, although accurate expensive for observing the tracking means of solar activity follow the tracks of, the ubiquitous problem of tracking means of other types is that precision is poor, and some solar tracking device theory structures are complicated.The tracking means of clock type and program control also exists accumulated error and can not automatically eliminate, and photoelectric type tracking means is followed the tracks of more accurate, and principle is simple, easily realizes, but can not follow the tracks of solar motion continuously.

Utility model content

For above deficiency, the utility model provides a kind of automatic small device of solar generating, and its structure is simple, and following range is wide and precision is high, realizes the omnidirectional tracking of device of solar generating to sunlight.

To achieve these goals, a kind of automatic small device of solar generating, it comprises device of solar generating, control device, storage battery, inverter, DC load and AC load, device of solar generating is connected with control device, and device of solar generating is used for converting sunlight to electric energy; Storage battery is connected with control device, and the electric energy that storage battery is used for device of solar generating is changed can store; Inverter is connected with control device, converts alternating current to for the direct current energy sent out by device of solar generating; DC load is connected with controller, AC load is connected with inverter, by DC load and AC load, electric energy is exported, it is characterized in that, it also comprises optical signal acquisition device, optical signal acquisition device to be arranged on device of solar generating and to be connected with control device, optical signal acquisition device for gathering the irradiating angle data of sunlight, by control device to data analysis; Control device to analyze after data sending controling instruction to device of solar generating, makes device of solar generating automatically adjust angle between sunlight, keeps vertical with sunlight all the time to make device of solar generating.

In order to implementation structure optimization, its further measure is:

Device of solar generating comprises rack-mounted solar panel and transfer, solar panel is positioned at the top of frame, transfer is positioned at the lower position of solar panel, transfer is utilized to regulate solar panel rotation in the horizontal direction and the rotation of in the vertical direction, in good time adjustment arrangement for deflecting and the rotational angle of slewing equipment, to ensure that solar panel is in the lighting angle vertical with sunlight all the time.

Transfer comprises arrangement for deflecting and slewing equipment, the screw mandrel that arrangement for deflecting comprises the first drive motors, be coaxially connected with the first drive motors and the support bar that solar panel and screw mandrel are connected, rotated by the first drive motors rotating band movable wire bar, make the link of support bar and screw mandrel slide against on screw mandrel, rotate in the horizontal direction to drive solar panel.

Slewing equipment comprises the second drive motors, the driving gear be coaxially connected with the second drive motors, the driven gear engaged with driving gear and the rotating shaft for rotational deflection device and solar panel, driven gear and rotating shaft are coaxially arranged, rotating shaft and gantry rotation are installed, drive driving gear and driven gear to rotate by the second drive motors, drive arrangement for deflecting and solar panel in the vertical direction to rotate to make rotating shaft.

Control device is provided with control circuit, control circuit is electrically connected with optical signal acquisition device, the first drive motors and the second drive motors, gathered the irradiating angle data of sunlight by optical signal acquisition device after, by control circuit to after data analysis, pulse signal is sent to the first drive motors and the second drive motors, pulse signal is converted into displacement of the lines or angular displacement by the first drive motors and the second drive motors, the first drive motors and the rotation step by step of the second drive motors is realized, to reach the rotational orientation accurately controlling solar panel by pulse signal.

Optical signal acquisition device comprises supporter and is arranged on supporter upper sensor, supporter comprises photographic plate and shadow shield, photographic plate and solar panel be arranged in parallel, shadow shield is vertically set on photographic plate with by photographic plate subregion, transducer is separately positioned in the zones of different of photographic plate, light intensity signal process is carried out through device of solar generating by transducer receiving light power signal, shadow is produced when covering transducer when solar light irradiation shadow shield, device of solar generating is made to adjust the rotational angle of solar panel, to ensure solar panel and to be in the lighting angle vertical with sunlight all the time.

Shadow shield is set at least a slice, and perpendicular to one another between shadow shield is " T " font, and photographic plate is divided into quadrant and is divided into quadrant one, quadrant two and quadrant three by shadow shield.

Transducer is separately positioned in quadrant one, quadrant two and quadrant three, and transducer is positioned at the center of supporter and the position of close shadow shield.

The bottom surface of photographic plate is quadrant four, and transducer is positioned at the bottom center position of photographic plate.

The bottom surface of solar panel is quadrant four, and transducer is positioned at the bottom center position of solar panel.

The utility model adopts and on device of solar generating, arranges transfer and arrange optical signal acquisition device, the irradiating angle data of sunlight are gathered by optical signal acquisition device, thus make transfer drive device of solar generating automatically to adjust angle between solar panel and sunlight, with the technical scheme making solar panel keep vertical with sunlight all the time, overcome the follow-up mechanism complex structure of existing device of solar generating, the defect that the narrow precision of following range is low.

The beneficial effects of the utility model:

1) on existing device of solar generating, arrange transfer, this transfer realizes the omnibearing angel adjustment in level orientation and vertical orientation, and optical signal acquisition device gathers the data of sun altitude, makes adjustment more accurate.

2) arrangement for deflecting is set to the mode of screw rod transmission, slewing equipment is set to gear-driven mode, and then control the angle adjustment of solar panel in four orientation, all directions, the tracking in each orientation is made to use the diverse kind of drive, therefore the first drive motors of adopting of arrangement for deflecting and slewing equipment and the second drive motors, the power that the stepping motor transmission that power can be utilized smaller is enough, reduces manufacturing cost and energy cost.

3) base for supporting is set to control cabinet, control circuit is installed concentratedly in control cabinet, better protect control circuit, make Stability Analysis of Structures of the present utility model compact.

4) optical signal acquisition device is set to the combination of supporter and transducer, the photographic plate of supporter vertically arranges shadow shield, simultaneously perpendicular to one another between two panels shadow shield, thus photographic plate is divided into several quadrant, a transducer is set in each quadrant, when transducer is all irradiated to by sunlight, solar panel is vertical with sunlight, device of solar generating adjusts tracking angle in real time according to the model of transducer, thus ensure that solar panel is in the state vertical with sunlight all the time.

5) transducer is separately positioned on the center of photographic plate and the position of close shadow shield, according to the relation of the shadow of sunlight and shadow shield, transducer from shadow shield distance more close to the tracking accuracy of then solar panel higher, thus ensure the tracking accuracy of solar panel to greatest extent.

6) transducer is set in the bottom surface of photographic plate or the bottom surface of solar panel, the bottom surface of photographic plate or the bottom surface of solar panel is made to be formed as quadrant four, when the bottom surface of photographic plate or the bottom surface of solar panel face toward the sun time, the rotational angle of solar panel equally also can be adjusted by transducer acknowledge(ment) signal, when ensure that solar light irradiation, the adjustment of solar panel does not have dead angle.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of the utility model device of solar generating;

Fig. 3 is the front view of the utility model optical signal acquisition device;

Fig. 4 is the vertical view of the utility model optical signal acquisition device;

Fig. 5 is the end view of the utility model optical signal acquisition device;

Fig. 6 is the upward view of the utility model optical signal acquisition device;

In figure, 1, device of solar generating, 11, frame, 111, support platform, 112, support, 113, base for supporting, 12, solar panel, 13, arrangement for deflecting, 131, first drive motors, 132, installing rack, 133, screw mandrel, 134, support bar, 135, slide block, 14, slewing equipment, 141, second drive motors, 142, driving gear, 143, driven gear, 144, rotating shaft, 2, optical signal acquisition device, 21, supporter, 211, photographic plate, 212, shadow shield, 213, quadrant one, 214, quadrant two, 215, quadrant three, 216, quadrant four, 22, transducer, 3, control device, 4, storage battery, 5, inverter, 6, DC load, 7, AC load.

Embodiment

Be further elaborated the utility model below in conjunction with accompanying drawing, wherein, direction of the present utility model take Fig. 1 as standard.

With reference to Fig. 1, automatic small device of solar generating of the present utility model, it comprises device of solar generating 1, optical signal acquisition device 2, control device 3, storage battery 4, inverter 5, DC load 6 and AC load 7, device of solar generating 1 is connected with control device 3, and device of solar generating 1 is for converting sunlight to electric energy; Optical signal acquisition device 2 to be arranged on device of solar generating 1 and to be connected with control device 3, optical signal acquisition device 2 for gathering the irradiating angle data of sunlight, by control device to data analysis; After data analyzed by control device 3, sending controling instruction is to device of solar generating 1, makes the angle of device of solar generating 1 automatically between adjustment and sunlight, keeps vertical with sunlight all the time to make device of solar generating 1; Storage battery 4 is connected with control device 3, and storage battery 4 can store for the electric energy changed by device of solar generating 1; Inverter 5 is connected with control device 3, for converting the direct current energy of device of solar generating 1 to alternating current; DC load 6 is connected with controller, and AC load 7 is connected with inverter 5, is exported by electric energy by DC load 6 and AC load 7.

Device of solar generating 1 comprises frame 11, and the solar panel 12 be arranged in frame 11 and transfer, solar panel 12 is positioned at the top of frame 11 to collect solar energy, transfer is installed on the lower position of solar panel 12, utilizes transfer to regulate rotation on solar panel 12 rotation in the horizontal direction and vertical direction;

Frame 11 is tower structure, for installing other device of the present utility model, frame 11 adopts stainless steel to make, it comprises support platform 111, support 112 and base for supporting 113, support platform 111 is for being horizontally disposed with, support 112 is vertically arranged in support platform 111, and the bottom of support 112 is fixedly connected with support platform 111, solar panel 12 is arranged on the top of support 112, and it is hinged between solar panel 12 and support 112, the strong point makes solar panel 12 with the top of support 112 for can rotate in the horizontal direction, base for supporting 113 arranges the bottom of support platform 111, for supporting whole frame 111, base for supporting 113 can be set to control cabinet,

Solar panel 12 is arranged on the top of support 112, hinged between solar panel 12 and support 112, makes solar panel 12 with the top of support 112 for the strong point can rotate in the horizontal direction.

Transfer comprises arrangement for deflecting 13 and slewing equipment 14, arrangement for deflecting 13 is arranged in support platform 111, it comprises the first drive motors 131, installing rack 132, screw mandrel 133, support bar 134 and slide block 135, first drive motors 131 is set to stepping motor, the length direction of installing rack 132 and the output shaft of the first drive motors 131 to stretch out direction consistent, the center of installing rack 132 is provided with a mounting groove along its length, the inwall of mounting groove is provided with chute, chute extends along the length direction of installing rack 132, one end of screw mandrel 133 is coaxially connected with the output shaft of the first drive motors 131, the other end of screw mandrel 133 is erected on installing rack 132, thus make screw mandrel 133 entirety be arranged in installing rack 132 mounting groove and for being horizontally disposed with, the center of slide block 135 is provided with screw, the while that slide block 135 being threaded with screw mandrel 133 by screw, slide block 135 is for being slidedly arranged in chute, the top of support bar 134 is fixedly connected with solar panel 12, the bottom of support bar 134 is fixedly connected with slide block 135, the entire length of support bar 134 is longer than the vertical range between support bracket and support platform 111, so that adjustment solar panel 12 rotational angle in the horizontal direction, namely the rotational angle on east-west direction, when the first drive motors 131 drives screw mandrel 133 to rotate on installing rack 132, length direction along screw mandrel 133 slides by slide block 135, support bar 134 pulls solar panel 12 to rotate in the horizontal direction simultaneously, thus the angle in adjustment solar panel 12 and solar light irradiation direction.

Slewing equipment 14 is arranged on the bottom position place of support platform 111, slewing equipment 14 comprises the second drive motors 141, driving gear 142, driven gear 143 and rotating shaft 144, second drive motors 141 is set to stepping motor, driving gear 142 and driven gear 143 are horizontal direction setting and driving gear 142 and driven gear 143 engage, the output shaft end that driving gear 142 is arranged on the second drive motors 141 is coaxially arranged, driven gear 143 is fixedly mounted in rotating shaft 144, rotating shaft 144 is installed vertically between support platform 111 and base for supporting 113, the top of rotating shaft 144 is fixedly connected with support platform 111, bottom and the base for supporting 113 of rotating shaft 144 are rotationally connected, when the output shaft rotation of the second drive motors 141, drive driven gear 143 rotates by driving gear 142, drive rotating shaft 144 simultaneously and support platform 111 in the vertical direction be fixedly connected with rotating shaft 144 rotate, namely the rotation on east-west direction, thus solar panel 12 in the vertical direction be installed on solar panel 12 is rotated.

Optical signal acquisition device 2 is arranged on the marginal position place of solar panel 12, and it is parallel with solar panel 12, it comprises supporter 21 and transducer 22, transducer 22 is arranged on supporter 21, light intensity signal process is carried out through device of solar generating 1 after transducer 22 receiving light power signal, thus drive device of solar generating 1 to adjust the rotational angle of solar panel 12, to ensure solar panel 12 and to be in the lighting angle vertical with sunlight all the time;

Supporter 21 adopts opaque plastic plate to make, the shadow shield 212 that supporter 21 comprises horizontally disposed photographic plate 211 and arranges perpendicular to photographic plate 211, the round plastic plate of photographic plate 211 to be diameters be 150mm, photographic plate 211 and solar panel 12 be arranged in parallel, shadow shield 212 is respectively 1/2nd circle plastic plates that diameter is 150mm and diameter is the quadrant plastic plate of 150mm, " T " font is vertically formed as each other between two shadow shields 212, by two panels shadow shield 212, photographic plate 211 is divided into quadrant 1, quadrant 2 214 and quadrant 3 215,

Transducer 22 is arranged on photographic plate 211, and lay respectively at quadrant 1, quadrant 2 214 and quadrant 3 215, transducer 22 is photodiode, in order to ensure the tracking accuracy of solar panel 12 to greatest extent, transducer 22 is arranged on the center of supporter 211 and arranges near shadow shield 212, when causing the back side of solar panel perpendicular to sunlight due to extraneous factor, at this moment quadrant 1 is positioned at, quadrant 2 214 is identical with the intensity of illumination of the transducer of quadrant 3 215, so can not adjust cell panel attitude, therefore, for addressing this problem, the bottom surface of the bottom surface of photographic plate 211 or solar panel 12 is set to quadrant 4 216, at the bottom surface sensor installation 22 of the bottom surface of photographic plate 211 or solar panel 12, preferably at the bottom surface sensor installation 22 of photographic plate 211, when the bottom surface of photographic plate 211 or solar panel 22 plane perpendicular are in sunlight, light direct projection quadrant 4 216, and at quadrant 1, quadrant 2 214 and quadrant 3 215 can not be sunlighted and therefore form shadow district, at this moment transfer still can receive the pulse signal that control circuit sends, thus adjustment solar panel rotates, transfer is made to continue tracking position of sun, no matter more comprehensively ensure that sunlight is radiated at the optional position of solar panel, transfer all can realize automatically regulating, do not stay and regulate dead angle.

Control device 3 is installed in control cabinet, control device 3 is provided with control circuit, control circuit and optical signal acquisition device 2, first drive motors 131 and the second drive motors 141 are electrically connected, gathered the irradiating angle data of sunlight by optical signal acquisition device 2 after, by control circuit to after data analysis, pulse signal is sent to the first drive motors 131 and the second drive motors 141, pulse signal is converted into displacement of the lines or angular displacement by the first drive motors 131 and the second drive motors 141, the first drive motors 131 and the second drive motors 141 rotation is step by step realized by pulse signal, to reach the rotational orientation accurately controlling solar panel 12.

The foregoing is only better embodiment of the present invention, the present invention is not limited to above-mentioned execution mode, the structural modification that local is small may be there is in implementation process, if do not depart from the spirit and scope of the present invention to various change of the present invention or modification, and belonging within claim of the present invention and equivalent technologies scope, then the present invention is also intended to comprise these change and modification.

Claims

1. an automatic small device of solar generating, it comprises device of solar generating (1), control device (3), storage battery (4), inverter (5), DC load (6) and AC load (7), device of solar generating (1) is connected with control device (3), and device of solar generating (1) is for converting sunlight to electric energy; Storage battery (4) is connected with control device (3), and storage battery (4) can store for the electric energy changed by device of solar generating (1); Inverter (5) is connected with control device (3), converts alternating current to for the direct current energy sent out by device of solar generating (1); DC load (6) is connected with controller, AC load (7) is connected with inverter (5), by DC load (6) and AC load (7), electric energy is exported, it is characterized in that, it also comprises optical signal acquisition device (2), optical signal acquisition device (2) is arranged on device of solar generating (1) and goes up and be connected with control device (3), optical signal acquisition device (2) for gathering the irradiating angle data of sunlight, by control device to data analysis; After data analyzed by control device (3), sending controling instruction is to device of solar generating (1), make the angle of device of solar generating (1) automatically between adjustment and sunlight, keep vertical with sunlight all the time to make device of solar generating (1).

2. a kind of automatic small device of solar generating according to claim 1, it is characterized in that, device of solar generating (1) comprises and is arranged on solar panel (12) in frame (11) and transfer, solar panel (12) is positioned at the top of frame (11), transfer is positioned at the lower position of solar panel (12), transfer is utilized to regulate solar panel (12) rotation in the horizontal direction and the rotation of in the vertical direction, in good time adjustment arrangement for deflecting (13) and the rotational angle of slewing equipment (14), to ensure that solar panel (12) is in the lighting angle vertical with sunlight all the time.

3. a kind of automatic small device of solar generating according to claim 2, it is characterized in that, transfer comprises arrangement for deflecting (13) and slewing equipment (14), arrangement for deflecting (13) comprises the first drive motors (131), with the coaxial screw mandrel (133) be connected of the first drive motors (131) and the support bar (134) that solar panel (12) and screw mandrel (133) are connected, rotated by the first drive motors (131) rotating band movable wire bar (133), support bar (134) is made to slide against on screw mandrel (133) with the link of screw mandrel (133), rotate in the horizontal direction to drive solar panel (112).

4. a kind of automatic small device of solar generating according to claim 2, it is characterized in that, slewing equipment (14) comprises the second drive motors (141), the driving gear (142) that be connected coaxial with the second drive motors (141), the driven gear (143) engaged with driving gear (142) and the rotating shaft (144) for rotational deflection device (13) and solar panel (12), driven gear (143) and rotating shaft (144) are coaxially arranged, rotating shaft (144) and frame (11) are rotated and are installed, driving gear (142) and driven gear (143) is driven to rotate by the second drive motors (141), arrangement for deflecting (13) and solar panel (12) in the vertical direction is driven to rotate to make rotating shaft (144).

5. a kind of automatic small device of solar generating according to claim 3 or 4, it is characterized in that, control device is provided with control circuit, control circuit and optical signal acquisition device (2), first drive motors (131) and the second drive motors (141) electrical connection, gathered the irradiating angle data of sunlight by optical signal acquisition device (12) after, by control circuit to after data analysis, pulse signal is sent to the first drive motors (131) and the second drive motors (141), pulse signal is converted into displacement of the lines or angular displacement by the first drive motors (131) and the second drive motors (141), the first drive motors (131) and the second drive motors (141) rotation is step by step realized by pulse signal, to reach the rotational orientation accurately controlling solar panel (12).

6. a kind of automatic small device of solar generating according to claim 1, it is characterized in that, optical signal acquisition device (2) comprises supporter (21) and is arranged on supporter (21) upper sensor (22), supporter (21) comprises photographic plate (211) and shadow shield (212), photographic plate (211) and solar panel be arranged in parallel, shadow shield (12) is vertically set on photographic plate (211) with by photographic plate (211) subregion, transducer (22) is separately positioned in the zones of different of photographic plate (211), light intensity signal process is carried out through device of solar generating by transducer (22) receiving light power signal, shadow is produced when covering transducer (22) when solar light irradiation shadow shield (212), device of solar generating is made to adjust the rotational angle of solar panel, to ensure solar panel and to be in the lighting angle vertical with sunlight all the time.

7. a kind of automatic small device of solar generating according to claim 6, it is characterized in that, shadow shield (212) is set at least a slice, perpendicular to one another between shadow shield (212) is " T " font, and photographic plate (211) is divided into quadrant and is divided into quadrant one (213), quadrant two (214) and quadrant three (215) by shadow shield (212).

8. a kind of automatic small device of solar generating according to claim 7, it is characterized in that, transducer (22) is separately positioned in quadrant one (213), quadrant two (214) and quadrant three (215), and transducer (22) is positioned at the center of supporter (21) and the position of close shadow shield (212).

9. a kind of automatic small device of solar generating according to claim 6, it is characterized in that, the bottom surface of photographic plate (211) is quadrant four (216), and transducer (22) is positioned at the bottom center position of photographic plate (211).

10. a kind of automatic small device of solar generating according to claim 6, is characterized in that, the bottom surface of solar panel is quadrant four (216), and transducer (22) is positioned at the bottom center position of solar panel.