CN217824848U

CN217824848U - Herringbone stand column tracking support

Info

Publication number: CN217824848U
Application number: CN202220037876.3U
Authority: CN
Inventors: 姜灏海; 姜乔; 姜美娇; 李泽
Original assignee: Aqili New Energy Technology Hebei Co ltd
Current assignee: Jirui Guangyuan New Energy Technology Hebei Co ltd
Priority date: 2022-01-08
Filing date: 2022-01-08
Publication date: 2022-11-15
Anticipated expiration: 2032-01-08

Abstract

The utility model provides a herringbone stand column tracking support, which comprises a driven mechanism, a rotary transmission mechanism, a support, a first steel cable, a second steel cable, an arc-shaped beam and a main beam, wherein the support is connected with the support through the first reinforcing rod and the second reinforcing rod; the two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable, a second steel cable, a third steel cable and a fourth steel cable, the rotary transmission mechanism is reasonable in structure, the driven mechanism, the arc beam and the main beam are driven to rotate through the rotary transmission mechanism, so that the angle of the battery plate assembly is adjusted, a driving motor can be used for driving a rotator or manually adjusting, the steel wire ropes and chains on the arc beam can be selected according to the operation environment, and the rotary transmission mechanism is high in pressure resistance and suitable for various complex operation environments.

Description

Herringbone stand column tracking support

Technical Field

The utility model relates to a trail support technical field, especially relate to a support is trailed to chevron stand.

Background

Most of the existing tracking photovoltaic supports are formed by connecting a plurality of single upright posts and a bearing positioned at the upper ends of the upright posts with a longer main shaft, a cell panel is connected with the main shaft through a cross beam, and then the main shaft is driven by a gyrator to track the sun. Because its structure is a main shaft major axis of gyrator drive control and is from turning round rotation work, in addition the single-column of current tracking support is too coarse, simple and crude, does not set up any device that keeps control on the stand, and this kind of project organization can lead to the support system and shake and rock along with the wind because of the too big load of panel area in the strong wind environment, leads to tracking the support to collapse very easily. The existing tracking support adopts a structure that a traditional upright post upper end plastic bearing block is matched with a long-wheelbase main shaft, and the existing structure is difficult to realize safety and stability.

Disclosure of Invention

In order to solve the problems, the utility model provides a herringbone stand tracking support, it is rational in infrastructure, has solved above-mentioned difficult problem.

The technical scheme of the utility model is that: the herringbone upright post tracking support comprises a driven mechanism, a rotary transmission mechanism, a support, a first steel cable, a second steel cable, an arc-shaped beam and a main beam, wherein the support is connected with the support through the first reinforcing rod and the second reinforcing rod;

two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable, a second steel cable, a third steel cable and a fourth steel cable;

the support comprises support legs, flange gaskets, L-shaped pieces, screw rods, adjusting nuts, steel piles and screwing nuts, the support legs are connected with the main beams through the adapter frames after being connected with the support legs, support frames are installed in the middle of the support legs and the middle of the support legs, the flange gaskets are installed at the lower ends of the support legs and are fixedly connected through the L-shaped pieces, the screw rods are welded at the lower ends of the flange gaskets, the screwing nuts are sleeved on the screw rods, the adjusting nuts are installed on the steel piles, the screw rods are connected with the adjusting nuts, and spiral assemblies are installed at the lower ends of the steel piles; the single pressing wheels are arranged on the supporting legs; the number of the single pressing wheels is two;

the support frame is provided with two protruding ends, the protruding ends are respectively provided with a pulley fixing piece and a steel cable guide ring, and the pulley fixing piece is respectively provided with a pulley I and a pulley II;

the inner side of the arc-shaped beam slides along the single pressing wheel, two ends of the arc-shaped beam are respectively connected with the main beam and fixed through a fixing piece, two ends of the arc-shaped beam are respectively provided with a first steel wire rope and a second steel wire rope, and the other ends of the first steel wire rope and the second steel wire rope are respectively connected with the switching pieces on the first steel wire rope and the second steel wire rope or in cross connection along the first pulley and the second pulley;

and a first chain and a second chain are respectively arranged at two ends of the arc-shaped beam, and the other ends of the first chain and the second chain are respectively connected or crossed with the adaptor on the first steel cable and the second steel cable along the first pulley and the second pulley.

Optionally, the rotary transmission mechanism is connected with the transmission mechanism through a first steel cable and a second steel cable, the first steel cable and the second steel cable penetrate through a plurality of brackets, arc-shaped beams and main beams are mounted on the brackets, and the arc-shaped beams are connected with the main beams; the first chain and the second chain on the arc-shaped beam are connected or crossed with the adaptor on the first steel cable and the second steel cable along the first pulley and the second pulley;

two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable, a second steel cable, a third steel cable and a fourth steel cable, an arc beam and a main beam are arranged on the support, and the arc beam is connected with the main beam; the first chain and the second chain on the arc-shaped beam are connected or cross-connected with the adaptor on the first steel cable, the second steel cable, the third steel cable and the fourth steel cable along the first pulley and the second pulley.

Optionally, two cable guide rings are mounted on the support frame.

Optionally, the outer circle of the arc beam is of a groove-shaped structure, and the first steel wire rope and the second steel wire rope are located in the groove.

Optionally, a plurality of brackets are mounted on the first steel cable, the second steel cable, the third steel cable and the fourth steel cable.

Optionally, the first steel cable, the second steel cable, the third steel cable and the fourth steel cable all pass through the steel cable guide ring on the protruding end.

Optionally, the slewing transmission mechanism comprises a gyrator fixing frame, a gyrator, a driving motor, a manual adjusting rod, a first chain wheel, a first rigging, a second rigging, a first chain adapter plate, a second chain adapter plate, a seventh chain and an eighth chain, 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 center shaft of the gyrator respectively, the driving motor and the manual adjusting rod are installed at two sides of the gyrator respectively, the seventh chain wheel and the eighth chain are installed on the first chain wheels respectively, two ends of the seventh chain wheel and the eighth 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;

the driven mechanism comprises a fixing frame and a middle shaft, the middle shaft is arranged on the fixing frame, a second chain wheel is arranged on the middle shaft, a third chain is arranged on the second chain wheel, two ends of the third 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;

the rotary transmission mechanism further comprises a chain fifth, a chain sixth, a chain adapter plate fifth, a chain adapter plate sixth, a rigging fifth, a rigging sixth, a steel cable third and a steel cable fourth, wherein the chain fifth and the chain sixth are installed on the chain wheel I, two sides of the chain fifth and the chain sixth are respectively connected with the chain adapter plate fifth and the chain adapter plate sixth, one ends of the chain adapter plate fifth and the chain adapter plate sixth are respectively connected with the rigging fifth and the rigging sixth, and the rigging fifth and the rigging sixth are respectively connected with the steel cable third and the steel cable fourth.

Optionally, the brackets mounted on the first steel cable, the second steel cable, the third steel cable and the fourth steel cable are in a singular combination or an even combination.

Compared with the prior art, the beneficial effects of the utility model are that: one end or two ends of the rotary transmission mechanism are respectively connected with the driven mechanism through a steel cable, the rotary transmission mechanism drives the driven mechanism, the arc beam and the main beam to rotate, so that the angle of the battery plate assembly is adjusted, a driving motor can be used for driving the gyrator to be manually adjusted, the steel cable and the chain on the arc beam can be selected according to the operation environment, and the rotary transmission mechanism is high in pressure resistance and suitable for various complex operation environments.

Drawings

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

FIG. 1 is a diagram of the state of the single driven mechanism driven by the rotary transmission mechanism of the present invention;

FIG. 2 is a diagram of the state of the rotary transmission mechanism driving two driven mechanisms;

FIG. 3 is a structural diagram of the leg of the present invention;

FIG. 4 is a structural diagram of the leg of the present invention;

FIG. 5 is a structural view of the bracket of the present invention;

FIG. 6 is a structural diagram of the supporting frame of the present invention;

FIG. 7 is a structural diagram of the rotary transmission mechanism of the present invention;

FIG. 8 is a structural diagram of the rotary transmission mechanism of the present invention;

FIG. 9 is an exploded view of the support legs, the arc beams and the main beam of the present invention;

FIG. 10 is an exploded view of the support legs, the arc beams and the main beams of the present invention;

FIG. 11 is a structural view of the gyrator of the present invention;

FIG. 12 is a block diagram of the drive motor for the gyrator according to the present invention;

as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, 3, a first steel cable, 4, a second steel cable, 3-1, a third steel cable, 4-1, a fourth steel cable, 6, a main beam, 7, an arc beam, 9, a single pressing wheel, 10, a fixing piece, 11, a second pulley, 15, a first pulley, 20, a manual adjusting rod, 21, a first sprocket, 22, a gyrator fixing frame, 23, a gyrator, 35, a fifth chain, 36, a sixth chain, 37, a fifth chain adapter plate, 38, a sixth chain adapter plate, 39, a fifth rigging, 40, a sixth rigging, 41, an adapter, 101, a fixing frame, 102, a middle shaft, 103, a sprocket II, 104, a chain III, 106, a rigging III, 107, a rigging IV, 108, a rigging I, 109, a rigging II, 110, a chain adapter plate I, 111, a chain adapter plate II, 112, a chain VII, 113, a chain VIII, 114, a driving motor, 90, a support leg, 901, a flange gasket, 902, an L-shaped piece, 903, a screw rod, 904, an adjusting nut, 905, a steel pile, 906, a tightening nut, 212, a support frame, 221, a protruding end, 251, a steel rope guide ring, 70, a reinforcing rod I, 701, a reinforcing rod II, 81, a steel rope I, 121, a steel rope II, 261 and an adapter frame.

Detailed Description

The present invention will be described in further detail with reference to the drawings, which are only used 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "fixed" and "mounted" are to be understood broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1, the rotary transmission mechanism is connected with the transmission mechanism through a first steel cable 3 and a second steel cable 4, the first steel cable 3 and the second steel cable 4 penetrate through a plurality of brackets, an arc beam 7 and a main beam 6 are arranged on the brackets, and the arc beam 7 is connected with the main beam 6;

a gyrator 23 is mounted on a gyrator fixing frame 22, chain wheels I21 are respectively mounted at the upper end and the lower end of a center shaft of the gyrator 23, a driving motor 114 and a manual adjusting rod 20 are respectively mounted at the two sides of the gyrator 23, a chain seven 112 and a chain eight 113 are respectively mounted on the two chain wheels I21, the two ends of the chain seven 112 and the chain eight 113 are respectively connected with a chain adapter plate I110 and a chain adapter plate II 111, the chain adapter plate I110 and the chain adapter plate II 111 are respectively connected with a rigging I108 and a rigging II 109, and the rigging I108 and the rigging II 109 are respectively connected with a steel cable I3 and a steel cable II 4; the other ends of the first steel cable 3 and the second steel cable 4 are respectively connected with a third rigging 106 and a fourth rigging 107, the third rigging 106 and the fourth rigging 107 are respectively connected with two ends of a third chain 104, the chain 104 is installed on a chain wheel 103, and the chain wheel 103 is installed on a middle shaft 102; the first steel wire rope 81 and the second steel wire rope 121 or the first chain 8 and the second chain 12 at the two ends of the arc-shaped beam 7 are respectively connected or cross-connected with the adaptor 41 on the first steel wire rope 3 and the second steel wire rope 4 along the first pulley 15 and the second pulley 11;

the driving motor 114 is used for driving the center shaft of the rotator 23 to rotate, the rotator 23 sequentially drives the first chain wheel 21, the seventh chain 112 and the eighth chain 113 on the first chain wheel 21 to transmit, and drives the first chain adapter plate 110, the second chain adapter plate 111, the first rigging 108, the second rigging 109, the first steel cable 3, the second steel cable 4, the third rigging 106, the fourth rigging 107, the third chain 104, the chain wheel 103 and the center shaft 102 to transmit, on the basis, the first steel cable 3 and the second steel cable 4 drag the first steel cable 81, the second steel cable 121 or the first chain 8 and the second chain 12 through the adapter 41 to rotate the arc beam 7, and synchronously drives the main beam 6 and the battery panel above the main beam 6 to rotate.

Example 2

As shown in fig. 2, two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable 3, a second steel cable 4, a third steel cable 3-1 and a fourth steel cable 4-1;

a gyrator 23 is installed on a gyrator fixing frame 22, chain wheels 21 are installed at the upper end and the lower end of a center shaft of the gyrator 23 respectively, driving motors 114 and manual adjusting rods 20 are installed at the two sides of the gyrator 23 respectively, a chain seven 112, a chain eight 113, a chain five 35 and a chain six 36 are installed on the two chain wheels 21 respectively, the chain seven 112 and the chain eight 113 are opposite to the chain five 35 and the chain six 36, the two ends of the chain seven 112 and the chain eight 113 are connected with a chain adapter plate one 110 and a chain adapter plate two 111 respectively, the chain adapter plate one 110 and the chain adapter plate two 111 are connected with a rigging one 108 and a rigging two 109 respectively, and the rigging one 108 and the second rigging 109 are connected with a steel cable one 3 and a steel cable two 4 respectively; the other ends of the first steel cable 3 and the second steel cable 4 are respectively connected with a third rigging 106 and a fourth rigging 107, the third rigging 106 and the fourth rigging 107 are respectively connected with two ends of a third chain 104, the chain 104 is installed on a chain wheel 103, and the chain wheel 103 is installed on a middle shaft 102; the two sides of the chain five 35 and the chain six 36 are respectively connected with the chain adapter plate five 37 and the chain adapter plate six 38, one ends of the chain adapter plate five 37 and the chain adapter plate six 38 are respectively connected with the rigging five 39 and the rigging six 40, the rigging five 39 and the rigging six 40 are respectively connected with the steel cable three 3-1 and the steel cable four 4-1, the other ends of the steel cable three 3-1 and the steel cable four 4-1 are respectively connected with the rigging three 106 and the rigging four 107, the rigging three 106 and the rigging four 107 are respectively connected with two ends of the chain three 104, the chain 104 is installed on the chain wheel 103, and the chain wheel 103 is installed on the middle shaft 102; the first steel wire rope 81 and the second steel wire rope 121 or the first chain 8 and the second chain 12 at the two ends of the arc-shaped beam 7 are respectively connected or cross-connected with the adaptor 41 on the first steel wire rope 3 and the second steel wire rope 4 along the first pulley 15 and the second pulley 11;

the driving motor 114 is used for driving the center shaft of the rotator 23 to rotate, the rotator 23 sequentially drives the first chain wheel 21, the seventh chain 112 and the eighth chain 113 on the first chain wheel 21 to transmit, and drives the first chain adapter plate 110, the second chain adapter plate 111, the first rigging 108, the second rigging 109, the first steel cable 3, the second steel cable 4, the third rigging 106, the fourth rigging 107, the third chain 104, the chain wheel 103 and the center shaft 102 to transmit, on the basis, the first steel cable 3 and the second steel cable 4 drag the first steel cable 81, the second steel cable 121 or the first chain 8 and the second chain 12 through the adapter 41 to rotate the circular arc beam 7, and synchronously drive the main beam 6 and the battery panel above the main beam 6 to rotate.

The first chain wheel 21 is a double chain wheel, and the second chain wheel 103 is a single chain wheel.

In addition to embodiment 1, the driving motor 114 is removed, and the turning of the gyrator 23 is adjusted using the manual adjustment lever 20.

On the basis of embodiment 2, the driving motor 114 is removed, and the turning of the gyrator 23 is adjusted using the manual adjustment lever 20.

The invention has reasonable structure, one end or two ends of the rotary transmission mechanism are respectively connected with the driven mechanism through the steel cable, the rotary transmission mechanism drives the driven mechanism, the arc beam and the main beam to rotate so as to adjust the angle of the battery plate assembly, the driving motor can be used for driving the gyrator to be manually adjusted, the steel wire rope and the chain on the arc beam can be selected according to the operation environment, and the invention has strong pressure resistance and can be suitable for various complex operation environments.

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

Claims

1. Support is trailed to chevron shape stand, its characterized in that: the steel cable turning device comprises a driven mechanism, a rotary transmission mechanism, supports, a first steel cable (3), a second steel cable (4), an arc-shaped beam (7) and a main beam (6), wherein the supports are connected with one another through a first reinforcing rod (70) and a second reinforcing rod (701), the rotary transmission mechanism is connected with the transmission mechanism through the first steel cable (3) and the second steel cable (4), the first steel cable (3) and the second steel cable (4) penetrate through a plurality of supports, the arc-shaped beam (7) and the main beam (6) are arranged on the supports, and the arc-shaped beam (7) is connected with the main beam (6);

two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable (3), a second steel cable (4), a third steel cable and a fourth steel cable;

the support comprises supporting legs (90), flange gaskets (901), L-shaped parts (902), screws (903), adjusting nuts (904), steel piles (905) and tightening nuts (906), the supporting legs (90) are connected with the main beams through a switching frame (261) after being connected with the supporting legs (90), supporting frames (212) are installed in the middle of the supporting legs (90), the flange gaskets (901) at the lower ends of the supporting legs (90) are fixedly connected through the L-shaped parts (902), the screws (903) are welded at the lower ends of the flange gaskets (901), the tightening nuts (906) are sleeved on the screws (903), the adjusting nuts (904) are installed on the steel piles (905), the screws (903) are connected with the adjusting nuts (904), and spiral assemblies are installed at the lower ends of the steel piles (905); the single pressing wheels (9) are arranged on the supporting legs (90); the number of the single pressing wheels (9) is two;

two protruding ends (221) are installed on the supporting frame (212), a pulley fixing piece and a steel cable guide ring (251) are installed on each protruding end (221), and a pulley I (15) and a pulley II (11) are installed on each pulley fixing piece.

2. The chevron-type mast tracking bracket of claim 1, wherein: the inner side of the arc-shaped beam (7) slides along the single pressing wheel (9), two ends of the arc-shaped beam (7) are respectively connected with the main beam (6) and fixed through the fixing piece (10), two ends of the arc-shaped beam (7) are respectively provided with a first steel wire rope (81) and a second steel wire rope (121), and the other ends of the first steel wire rope (81) and the second steel wire rope (121) are respectively connected or cross-connected with the first steel wire rope (3) and the second steel wire rope (4) through the first pulley (15) and the second pulley (11).

3. The chevron-type mast tracking bracket of claim 1, wherein: two ends of the arc-shaped beam (7) are respectively provided with a first chain (8) and a second chain (12), and the other ends of the first chain (8) and the second chain (12) are respectively connected or crossed with the adaptor (41) on the first steel cable (3) and the second steel cable (4) along the first pulley (15) and the second pulley (11).

4. The chevron-type mast tracking bracket of claim 1, wherein: the rotary transmission mechanism is connected with the transmission mechanism through a first steel cable (3) and a second steel cable (4), the first steel cable (3) and the second steel cable (4) penetrate through a plurality of brackets, arc-shaped beams (7) and main beams (6) are installed on the brackets, and the arc-shaped beams (7) are connected with the main beams (6); the first chain (8) and the second chain (12) on the arc-shaped beam (7) are connected or crossed with the adaptor (41) on the first steel cable (3) and the second steel cable (4) along the first pulley (15) and the second pulley (11);

two sides of the rotary transmission mechanism are respectively connected with the two transmission mechanisms through a first steel cable (3), a second steel cable (4), a third steel cable and a fourth steel cable, an arc-shaped beam (7) and a main beam (6) are arranged on the support, and the arc-shaped beam (7) is connected with the main beam (6); a first chain (8) and a second chain (12) on the arc-shaped beam (7) are connected or cross-connected with the adaptor (41) on the first steel cable (3), the second steel cable (4), the third steel cable and the fourth steel cable along the first pulley (15) and the second pulley (11).

5. The chevron-shaped mast tracking mast of claim 1, wherein: two steel cable guide rings (251) are arranged on the support frame (212).

6. The chevron-type mast tracking bracket of claim 1, wherein: the excircle of the arc beam (7) is of a groove-shaped structure, and the first steel wire rope (81) and the second steel wire rope (121) are located in the grooves.

7. The chevron-type mast tracking bracket of claim 1, wherein: and a plurality of brackets are arranged on the first steel cable (3), the second steel cable (4), the third steel cable (3-1) and the fourth steel cable (4-1).

8. The chevron-shaped mast tracking mast of claim 1, wherein: the first steel cable (3), the second steel cable (4), the third steel cable (3-1) and the fourth steel cable (4-1) all penetrate through the steel cable guide ring (251) on the protruding end (221).

9. The chevron-type mast tracking bracket of claim 1, wherein: the rotary transmission mechanism comprises a gyrator fixing frame (22), a gyrator (23), a driving motor (114), a manual adjusting rod (20), a first chain wheel (21), a first rigging (108), a second rigging (109), a first chain adapter plate (110), a second chain adapter plate (111), a seventh chain (112) and an eighth chain (113), wherein the gyrator (23) is installed on the gyrator fixing frame (22), the first chain wheel (21) is installed at the upper end and the lower end of a center shaft of the gyrator (23), the driving motor (114) and the manual adjusting rod (20) are installed at the two sides of the gyrator (23), the seventh chain (112) and the eighth chain (113) are installed on the first chain wheel (21), the seventh chain (112) and the eighth chain (113) are connected with the first chain adapter plate (110) and the second chain adapter plate (111) at the two ends respectively, the first chain adapter plate (110) and the second chain adapter plate (111) are connected with the first rigging (108) and the second rigging (109), and the first rigging (108) and the second rigging (109) are connected with the first steel cable (3) and the second steel cable (4) respectively;

the driven mechanism comprises a fixed frame (101) and a middle shaft (102), the middle shaft (102) is installed on the fixed frame (101), a chain wheel II (103) is installed on the middle shaft (102), a chain III (104) is installed on the chain wheel II (103), two ends of the chain III (104) are respectively connected with a rigging III (106) and a rigging IV (107), and the rigging III (106) and the rigging IV (107) are respectively connected with a steel cable I (3) and a steel cable II (4);

the rotary transmission mechanism further comprises a chain five (35), a chain six (36), a chain adapter plate five (37), a chain adapter plate six (38), a rigging five (39), a rigging six (40), a steel cable three (3-1) and a steel cable four (4-1), wherein the chain five (35) and the chain six (36) are installed on the chain wheel one (21), two sides of the chain five (35) and the chain six (36) are respectively connected with the chain adapter plate five (37) and the chain adapter plate six (38), one ends of the chain adapter plate five (37) and the chain adapter plate six (38) are respectively connected with the rigging five (39) and the rigging six (40), and the rigging five (39) and the rope six (40) are respectively connected with the steel cable three (3-1) and the steel cable four (4-1).

10. The chevron-type mast tracking bracket of claim 1, wherein: the brackets arranged on the first steel cable (3), the second steel cable (4) or the third steel cable (3-1) and the fourth steel cable (4-1) are in odd combination or even combination.