CN114337497A - Arc tooth beam type photovoltaic tracker - Google Patents

Abstract

The invention provides a circular-arc-tooth beam type photovoltaic tracker which comprises a driven mechanism, a rotary driving mechanism, a first steel cable, a second steel cable, a third steel cable and a fourth steel cable, wherein one side of the rotary driving mechanism is connected with the driven mechanism through the first steel cable and the second steel cable; two sides of the rotary driving mechanism are connected with the two driven mechanisms through a first steel cable, a second steel cable, a third steel cable and a fourth steel cable; still include cable wire one, cable wire two, cable wire three, the stand of installation on cable wire four, install the circular arc roof beam on the stand, the circular arc roof beam is connected with the girder respectively, stand inboard installation strengthening rib, the pinch roller, the stand bottom is equipped with the base, the stand upper end is connected with the girder through the pivot, the circular arc roof beam is installed at the stand inboard, the pinch roller lower extreme, be equipped with a plurality of circular arc tooth on the circular arc roof beam, the circular arc roof beam is connected with the pinch roller, the mounting is passed through at circular arc roof beam both ends and girder connection, it can deal with strong convection weather automatically regulated, a plurality of parts closely cooperate and make the panel rotate more firm, a set of complete automation mechanized operation has been formed.

Description

Arc tooth beam type photovoltaic tracker

Technical Field

The invention relates to the field of photovoltaic tracking support equipment, in particular to a circular arc toothed beam type photovoltaic tracker.

Background

Currently, existing brackets are typically fixed structures such that the photovoltaic modules mounted thereon have a fixed, unchanging angle. Because the generating efficiency of photovoltaic power generation is influenced by the sun irradiation angle, the angle of the photovoltaic module needs to be adjusted, so that the photovoltaic module and sunlight keep a proper angle, and the generating efficiency is ensured. The wind resistance intensity of the existing photovoltaic support is extremely poor, a wind speed sensor needs to be added, and when the wind speed reaches 20 meters per second, the solar panel needs to be laid flat, so that the solar panel is prevented from being damaged. However, the structure of the existing photovoltaic tracking support is fixed and difficult to adjust, the solar panel is damaged and cannot be avoided, and the solar panel needs to be adjusted manually along with the start and stop of strong wind, so that the angle of the photovoltaic module is difficult to adapt to the change of the sun irradiation angle, and the improvement of the power generation efficiency is not facilitated. Patent number ZL201520667338.2, an adjustable photovoltaic support, the very effectual partial defect of having overcome of structure that has proposed a plurality of arc shape gears of transmission shaft synchro-driven, nevertheless because the transmission shaft also can appear this kind of distortion asynchronous phenomenon for too long time, two kinds of structures above receive very big restriction in photovoltaic support structure in length moreover.

Disclosure of Invention

In order to solve the problems, the invention provides the arc-tooth beam type photovoltaic tracker which is reasonable in structure and solves the problems.

The technical scheme of the invention is as follows: the arc-tooth beam type photovoltaic tracker comprises a driven mechanism, a rotary driving mechanism, a first steel cable, a second steel cable, a third steel cable and a fourth steel cable, wherein one side of the rotary driving mechanism is connected with the driven mechanism through the first steel cable and the second steel cable; two sides of the rotary driving mechanism are connected with the two driven mechanisms through a first steel cable, a second steel cable, a third steel cable and a fourth steel cable; the device comprises a main beam, a plurality of vertical columns, a plurality of reinforcing ribs, a plurality of pressing wheels, a base, a shaft pin, a circular beam, a plurality of circular teeth, a plurality of circular beams, a plurality of fixing pieces and a plurality of clamping wheels, wherein the vertical columns are arranged on a first steel cable, a second steel cable, a third steel cable and a fourth steel cable;

the first steel cable, the second steel cable, the third steel cable and the fourth steel cable are respectively provided with an adapter, the adapter comprises a first adjusting part fixing end, a second adjusting part fixing end, a first clamping component and a second clamping component, the first clamping component is connected with the second clamping component, and two sides of the first clamping component and the second clamping component are respectively connected with the first adjusting part fixing end and the second adjusting part fixing end through adjusting screws;

the bearing frame is installed at two ends of the stand column, the chain wheel and the small gear are installed on the bearing frame respectively, the small gear is meshed with the arc teeth on the arc beam, the chain wheel fixing beam is installed on one side of the stand column, chain pulleys are installed at two ends of the chain wheel fixing beam, the chain is connected with the chain pulleys, the chain wheel and the chain pulley in sequence, and two ends of the chain are connected with the first adjusting part fixing end and the second adjusting part fixing end on the first steel cable and the second steel cable and the third steel cable and the fourth steel cable respectively.

Furthermore, the rotary driving mechanism comprises a driving motor, a first chain wheel, a first gyrator fixing frame, a gyrator, a manual adjusting rod, a second chain, a first chain, a second chain adapter plate, a first chain adapter plate, a second rigging and a first rigging, wherein the gyrator is installed on the gyrator fixing frame, the first chain wheel is installed at the upper end and the lower end of a middle shaft on the gyrator respectively, the driving motor and the manual adjusting rod are installed on one side of the gyrator respectively, the first chain and the second chain are installed on the first chain wheels respectively, the two ends of the first chain and the second chain are connected with the first chain adapter plate and the second chain adapter plate respectively, the first chain adapter plate and the second chain adapter plate are connected with the first rigging and the second rigging respectively, and the first rigging and the second rigging are connected with the first steel cable and the second steel cable respectively.

Furthermore, the rotary driving mechanism further comprises a chain five, a chain six, a chain adapter plate five, a chain adapter plate six, a rigging five, a rigging six, a steel cable three and a steel cable four, wherein the chain five and the chain six are installed on the chain wheel one, two sides of the chain five and the chain six are respectively connected with the chain adapter plate five and the chain adapter plate six, one ends of the chain adapter plate five and the chain adapter plate six are respectively connected with the rigging five and the rigging six, and the rigging five and the rigging six are respectively connected with the steel cable three and the steel cable four.

Furthermore, the driven mechanism comprises a fixing frame and a middle shaft, the middle shaft is arranged on the fixing frame, bearings are arranged at two ends of the middle shaft and the fixing frame, a second chain wheel is arranged on the middle shaft, a driven chain is arranged on the second chain wheel, two ends of the driven chain are respectively connected with a third rigging and a fourth rigging, and the third rigging and the fourth rigging are respectively connected with a first steel cable and a second steel cable.

Furthermore, the upright posts are respectively provided with a steel cable guide ring fixing end or a steel cable guide ring, and the steel cable guide wheel is arranged on the steel cable guide ring fixing end.

Furthermore, the manual adjusting rod is rotated manually to drive the chain wheel I, the chain II, the chain I, the chain V and the chain six for transmission, and simultaneously the chain adapter plate II, the chain adapter plate I, the rigging II, the rigging I, the steel cable II, the rigging III, the rigging IV, the driven chain, the middle shaft, the chain wheel II, the chain adapter plate V, the chain adapter plate VI, the rigging V, the rigging VI, the steel cable III and the steel cable IV for transmission are sequentially driven, the chain is dragged along the chain pulley, the chain wheel and the chain pulley for transmission through the adapter, and the chain wheel drives the arc teeth on the arc beam through the pinion for transmission, so as to further drive the arc beam and the main beam on the upright post to rotate.

Furthermore, the driving motor drives the gyrator to rotate so as to drive a chain wheel I, a chain II, a chain I, a chain V and a chain six to drive, a chain adapter plate II, a chain adapter plate I, a rigging II, a rigging I, a steel cable II, a rigging III, a rigging IV, a driven chain, a middle shaft, a chain wheel II, a chain adapter plate V, a chain adapter plate VI, a rigging V, a rigging VI, a steel cable III and a steel cable four to drive, the chain wheel pulls the chain to drive along a chain pulley, a chain wheel and a chain pulley to drive through the adapter, the chain wheel drives the arc teeth on the arc beam to drive through the pinion, and further drives the arc beam and the main beam on the upright post to rotate.

Further, the circular arc teeth are more than two natural numbers.

Furthermore, the top end of the circular arc tooth is circular arc.

Compared with the prior art, the invention has the beneficial effects that: rational in infrastructure, connect closely between cable wire, chain, circular arc roof beam and each connecting piece, make its compressive capacity strong, can deal with strong convection current weather automatically regulated, a plurality of parts closely cooperate and make the panel rotate more firm, replace manual operation, have saved the human cost, have improved efficiency greatly, have formed one set of complete automation mechanized operation.

Drawings

The invention is further illustrated below with reference to the figures:

FIG. 1 is a view showing a structure of a state of use of the present invention;

FIG. 2 is a view showing a structure of a state of use of the present invention;

FIG. 3 is a block diagram of the column of the present invention;

FIG. 4 is a block diagram of the column of the present invention;

FIG. 5 is a block diagram of the column of the present invention;

FIG. 6 is a block diagram of an adapter of the present invention;

FIG. 7 is a block diagram of the rotary drive mechanism of the present invention;

FIG. 8 is a structural view of the swing drive mechanism of the present invention;

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 85, a first steel cable, 86, a second steel cable, 851, a third steel cable 861, a fourth steel cable, 90, a pillar, 24, a circular arc beam, 10, a main beam, 901, a reinforcing rib, 902, a base, 241, a circular arc tooth, 801, a fixing member, 12, an adapter member, 121, a first adjusting member fixing end, 122, a second adjusting member fixing end, 123, a first clamping member, 124, a second clamping member, 51, a sprocket, 52, a sprocket fixing beam, 53, a chain pulley, 54, a bearing frame, 55, a pinion, 201, a driving motor, 202, a sprocket one, 204, a gyrator fixing frame, 205, a gyrator, 206, a manual adjusting rod, 207, a second chain, 208, a first chain, 209, a second chain adapter plate, 210, a first chain adapter plate, 211, a second cable tool, a first chain, 215, a fifth chain, 214, a sixth chain, 217, a fifth chain adapter plate, 216. the cable comprises six chain adapter plates 219, five rigging 218, six rigging 101, a fixing frame 102, a middle shaft 103, a second chain wheel 104, a driven chain 105, three rigging 106, four rigging 60, a fixed end of a steel cable guide ring 341 and a steel cable guide ring.

Detailed Description

The present invention will be described in further detail with reference to the drawings, which are only for explaining the present invention and are schematic illustrations of the embodiments of the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "fixed" and "mounted" are to be construed broadly, e.g., as being fixedly attached, detachably attached, or integrally attached; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Starting a manual adjustment mode, manually rotating a manual adjustment rod 206 to drive a chain wheel I202, a chain II 207, a chain I208, a chain V215 and a chain VI 214 to transmit, and simultaneously sequentially driving a chain adapter plate II 209, a chain adapter plate I210, a rigging II 211, a rigging I212, a steel cable I85, a steel cable II 86, a rigging III 105, a rigging IV 106, a driven chain 104, a middle shaft 102, a chain wheel II 103, a chain adapter plate V217, a chain adapter plate VI 216, a rigging V219, a rigging VI 218, a steel cable III 851 and a steel cable IV 861 to transmit, and simultaneously pulling a chain 33 to transmit along a chain pulley 53, a chain wheel 51, a chain pulley 53 through 12, the chain wheel 51 drives an arc tooth 241 on the arc beam 24 to transmit through a pinion 55, and further drives the arc beam 24 on the upright post 90 and the main beam 10 to rotate.

On the basis of embodiment 1, the electric adjustment mode is started, the driving motor 201 drives the first chain wheel 202, the second chain 207, the first chain 208, the fifth chain 215, and the sixth chain 214 to transmit, and simultaneously drives the second chain adapter plate 209, the first chain adapter plate 210, the second rigging 211, the first rigging 212, the first steel cable 85, the second steel cable 86, the third rigging 105, the fourth rigging 106, the driven chain 104, the middle shaft 102, the second chain wheel 103, the fifth chain adapter plate 217, the sixth chain adapter plate 216, the fifth rigging 219, the sixth rigging 218, the third steel cable 851, and the fourth steel cable 861 to transmit, and simultaneously, the chain 33 is pulled by 12 to transmit along the chain pulley 53, the chain wheel 51, and the chain pulley 53, the chain wheel 51 drives the arc teeth 241 on the arc beam 24 to transmit through the pinion 55, and further drives the arc beam 24 on the upright post 90 and the main beam 10 to rotate.

Example 2

The rotary driving mechanism drives a driven mechanism to transmit.

Starting a manual mode, manually rotating a manual adjusting rod 206, driving a gyrator 205 to rotate so as to drive a chain wheel I202, a chain II 207, a chain I208, a chain V215 and a chain VI 214 to transmit, driving a chain adapter plate II 209, a chain adapter plate I210, a rigging II 211, a rigging I212, a steel cable I85, a steel cable II 86, a rigging III 105, a rigging IV 106, a driven chain 104, a middle shaft 102 and a chain wheel II 103 to transmit, simultaneously, driving a chain 33 to transmit along a chain pulley 53, a chain wheel 51, a chain pulley 53 through 12, driving the chain wheel 51 to drive an arc tooth 241 on an arc beam 24 to transmit through a pinion 55, and further driving the arc beam 24 and a main beam 10 on a stand column to rotate;

on the basis of embodiment 2, the electric adjustment mode is started, the driving motor 201 drives the rotator 205 to rotate, so as to drive the first chain wheel 202, the second chain 207, the first chain 208, the fifth chain 215 and the sixth chain 214 to drive, the second chain adapter plate 209, the first chain adapter plate 210, the second rigging 211, the first rigging 212, the first steel cable 85, the second steel cable 86, the third rigging 105, the fourth rigging 106, the driven chain 104, the middle shaft 102 and the second chain wheel 103 to drive, at the same time, the chain 33 is pulled by 12 to drive along the chain pulley 53, the chain wheel 51, the chain pulley 53 to drive, the chain wheel 51 drives the arc teeth 241 on the arc beam 24 to drive through the pinion 55, and further drives the arc beam 24 on the upright post and the main beam 10 to rotate.

The solar cell panel has a reasonable structure, the steel cable, the chain, the arc beam, the chain wheel 51, the chain pulley 53, the pinion 55 and the connecting pieces are connected tightly, so that the solar cell panel has strong pressure resistance and can be automatically adjusted in response to strong convection weather, the battery panel rotates more stably due to the close matching of a plurality of parts, manual operation is replaced, the labor cost is saved, the efficiency is greatly improved, and a set of complete automatic operation is formed.

The above description is illustrative of the present invention and is not to be construed as limiting thereof, as numerous modifications and variations therein will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. Circular arc tooth beam formula photovoltaic tracker, its characterized in that: the device comprises a driven mechanism, a rotary driving mechanism, a first steel cable (85), a second steel cable (86), a third steel cable (851) and a fourth steel cable (861), wherein one side of the rotary driving mechanism is connected with the driven mechanism through the first steel cable (85) and the second steel cable (86); two sides of the rotary driving mechanism are connected with the two driven mechanisms through a first steel cable (85), a second steel cable (86), a third steel cable (851) and a fourth steel cable (861); the steel cable pressing machine is characterized by further comprising an upright post (90) installed on the first steel cable (85), the second steel cable (86), the third steel cable (851) and the fourth steel cable (861), wherein an arc beam (24) is installed on the upright post (90), the upright post (90) and the arc beam (24) are respectively connected with the main beam (10), reinforcing ribs (901) and pressing wheels (40) are installed on the inner side of the upright post (90), a base (902) is arranged at the bottom of the upright post (90), the upper end of the upright post (90) is connected with the main beam (10) through a shaft pin (802), the arc beam (24) is installed on the inner side of the upright post (90), the lower end of each pressing wheel (40) is provided with a plurality of arc teeth (241), the arc beam (24) is connected with the pressing wheels (40), and two ends of the arc beam (24) are connected with the main beam (10) through fixing pieces (801);

the adaptor (12) is arranged on the first steel cable (85), the second steel cable (86), the third steel cable (851) and the fourth steel cable (861), the adaptor (12) comprises a first adjusting part fixing end (121), a second adjusting part fixing end (122), a first clamping component (123) and a second clamping component (124), the first clamping component (123) is connected with the second clamping component (124), and two sides of the first clamping component (123) and the second clamping component (124) are respectively connected with the first adjusting part fixing end (121) and the second adjusting part fixing end (122) through adjusting screws;

bearing brackets (54) are installed at two ends of an upright column (90), chain wheels (51) and pinions (55) are installed on the bearing brackets (54), the pinions (55) are meshed with arc teeth (241) on an arc beam (24), a chain wheel fixing beam (52) is installed on one side of the upright column (90), chain pulleys (53) are installed at two ends of the chain wheel fixing beam (52), a chain (33) is sequentially connected with the chain pulleys (53), the chain wheels (51) and the chain pulleys (53), two ends of the chain (33) are respectively connected with a first steel cable (85) and a second steel cable (86), a first adjusting part fixing end (121) and a second adjusting part fixing end (122) on a third steel cable (851) and a fourth steel cable (861).

2. The circular arc tooth beam photovoltaic tracker according to claim 1, wherein: the slewing drive mechanism comprises a drive motor (201), a first chain wheel (202), a gyrator fixing frame (204), a gyrator (205), a manual adjusting rod (206), a second chain (207), a first chain (208), a second chain adapter plate (209), a first chain adapter plate (210), a second rigging (211) and a first rigging (212), wherein the gyrator (205) is installed on the gyrator fixing frame (204), the first chain wheel (202) is installed at the upper end and the lower end of a middle shaft on the gyrator (205) respectively, the drive motor (201) and the manual adjusting rod (206) are installed at one side of the gyrator (205) respectively, the first chain (208) and the second chain (207) are installed on the first chain wheel (202) respectively, the first chain (208) and the second chain (207) are connected with the first chain adapter plate (210) and the second chain adapter plate (209) respectively, and the first chain adapter plate (210) and the second chain adapter plate (209) are connected with the first rigging (212) respectively, The rigging two (211) is connected, and the rigging one (212) and the rigging two (211) are respectively connected with the steel cable one (85) and the steel cable two (86).

3. The circular arc tooth beam photovoltaic tracker according to claim 2, wherein: the rotary driving mechanism further comprises a chain five (215), a chain six (214), a chain adapter plate five (217), a chain adapter plate six (216), a rigging five (219), a rigging six (218), a steel cable three (851) and a steel cable four (861), wherein the chain five (215) and the chain six (214) are installed on the chain wheel one (202), two sides of the chain five (215) and the chain six (214) are respectively connected with the chain adapter plate five (217) and the chain adapter plate six (216), one end of the chain adapter plate five (217) and one end of the chain adapter plate six (216) are respectively connected with the rigging five (219) and the rigging six (218), and the rigging five (219) and the rigging six (218) are respectively connected with the steel cable three (851) and the steel cable four (861).

4. The circular arc tooth beam photovoltaic tracker according to claim 1, wherein: the driven mechanism comprises a fixed frame (101) and a middle shaft (102), the middle shaft (102) is installed on the fixed frame (101), bearings are arranged at two ends of the middle shaft (102) and the fixed frame (101), a chain wheel II (103) is installed on the middle shaft (102), a driven chain (104) is installed on the chain wheel II (103), two ends of the driven chain (104) are respectively connected with a rigging III (105) and a rigging IV (106), and the rigging III (105) and the rigging IV (106) are respectively connected with a steel cable I (85) and a steel cable II (86).

5. The circular arc tooth beam photovoltaic tracker according to claim 1, wherein: the upright posts (90) are respectively provided with a steel cable guide ring fixing end (60) or a steel cable guide ring (341), and the steel cable guide ring fixing ends (60) are respectively provided with a steel cable guide wheel.

6. The circular arc tooth beam photovoltaic tracker according to claim 2, wherein: the manual rotating manual adjusting rod (206) drives the chain wheel I (202), the chain II (207), the chain I (208), the chain V (215) and the chain VI (214) to transmit, and simultaneously drives the chain adapter plate II (209), the chain adapter plate I (210), the rigging II (211), the rigging I (212), the steel cable I (85), the steel cable II (86), the rigging III (105), the rigging IV (106), the driven chain (104), the middle shaft (102), the chain wheel II (103), the chain adapter plate V (217), the chain adapter plate VI (216), the rigging V (219), the rigging VI (218), the steel cable III (851) and the steel cable IV (861) to transmit, the chain (33) is dragged to transmit along the chain pulley (53), the chain wheel (51) and the chain pulley (53) through the adapter (12), and the chain wheel (51) drives the arc teeth (241) on the arc beam (24) to transmit through the pinion (55), further driving the arc beam (24) and the main beam (10) on the upright post to rotate.

7. The circular arc tooth beam photovoltaic tracker according to claim 2, wherein: the driving motor (201) drives the gyrator (205) to rotate so as to drive the chain wheel I (202), the chain II (207), the chain I (208), the chain V (215) and the chain VI (214) to drive, the chain adapter plate II (209), the chain adapter plate I (210), the rigging II (211), the rigging I (212), the steel cable I (85), the steel cable II (86), the rigging III (105), the rigging IV (106), the driven chain (104), the middle shaft (102), the chain wheel II (103), the chain adapter plate V (217), the chain adapter plate VI (216), the rigging V (219), the rigging VI (218), the steel cable III (851) and the steel cable IV (861) to drive, the chain (33) is dragged along the chain pulley (53), the chain wheel (51) and the chain pulley (53) to drive through the adapter (12), and the chain wheel (51) drives the arc teeth (241) on the arc beam (24) to drive through the pinion (55), further driving the arc beam (24) and the main beam (10) on the upright post to rotate.

8. The circular arc tooth beam photovoltaic tracker according to claim 1, wherein: the arc teeth (241) are more than two natural numbers.

9. The circular arc tooth beam photovoltaic tracker according to claim 1, wherein: the top end of the circular arc tooth (241) is arc-shaped.

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