CN214620145U

CN214620145U - Solar photovoltaic tracking support stable in installation

Info

Publication number: CN214620145U
Application number: CN202120044187.0U
Authority: CN
Inventors: 张海平
Original assignee: Wuxi Haosolar Technology Co ltd
Current assignee: Wuxi Haosolar Technology Co ltd
Priority date: 2021-01-08
Filing date: 2021-01-08
Publication date: 2021-11-05
Anticipated expiration: 2031-01-08

Abstract

The utility model discloses a stably-installed solar photovoltaic tracking support, which comprises a power support, an auxiliary support, a main supporting beam, a mounting frame fixing component and a photovoltaic panel fixing component, wherein the main supporting beam is movably installed at the top ends of the power support and the auxiliary support, the mounting frame fixing component is fixedly arranged in the middle of the lower surface of the mounting frame, the mounting frame is installed on the upper surface of the main supporting beam through the mounting frame fixing component, the photovoltaic panel fixing component is all movably installed on the upper surface of the mounting frame, a rotary speed reducer is fixedly installed at the top end of the power support, and a rolling round shaft is all fixedly installed at the top end of the auxiliary support; the utility model discloses a can reach and avoid in the use in later stage, unexpected slippage appears in the installation support body, still can avoid photovoltaic module to appear sliding by a wide margin simultaneously to and provide the purpose of firm installation more.

Description

Solar photovoltaic tracking support stable in installation

Technical Field

The utility model particularly relates to a firm solar photovoltaic tracking support of installation.

Background

In order to obtain the maximum power output of the whole photovoltaic power generation system, a supporting structure which fixes the solar components in a certain orientation, arrangement mode and interval is usually a steel structure and an aluminum alloy structure or a mixture of the steel structure and the aluminum alloy structure by combining the geography, climate and solar resource conditions of a construction site;

however, the existing photovoltaic tracking support has the following defects:

after the existing photovoltaic tracking support is used for a long time, the friction force between the support bodies is gradually reduced due to abrasion among the support bodies, so that the support bodies can slide relatively to each other, and the photovoltaic assembly can fall off accidentally; in addition, because the photovoltaic module is continuously rotating, the friction force of the structure inside the photovoltaic module fixing structure is also reduced, so that the photovoltaic module slips accidentally.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's weak point, a firm solar photovoltaic of installation trails support is provided to reach and avoid in the use in later stage, unexpected slippage appears in the installation support body, still can avoid photovoltaic module to appear sliding by a wide margin simultaneously, and provide the purpose of more firm installation.

In order to achieve the above object, the utility model provides a following technical scheme: a stably-installed solar photovoltaic tracking support comprises a power support, an auxiliary support, a main supporting beam, an installation frame fixing assembly and a photovoltaic panel fixing assembly;

the main supporting beam is movably mounted at the top ends of the power support and the auxiliary support, the mounting frame fixing assembly is fixedly arranged in the middle of the lower surface of the mounting frame, the mounting frame is mounted on the upper surface of the main supporting beam through the mounting frame fixing assembly, and the photovoltaic panel fixing assemblies are movably mounted on the upper surface of the mounting frame;

the mounting bracket fixing component is used for fixing the mounting bracket on the surface of the main supporting beam, and the photovoltaic panel fixing component is used for fixedly mounting the photovoltaic solar panel.

Furthermore, a rotary speed reducer is fixedly mounted at the top end of the power support, a rolling round shaft is fixedly mounted at the top end of the auxiliary support, and the main supporting beam penetrates through and is fixedly mounted in the rotary speed reducer and the rolling round shaft respectively.

Further, the inside upper fixed plate and the bottom plate that still include of fixed subassembly of mounting bracket, the fixed welding of upper fixed plate is in the lower surface center of mounting bracket, the equal activity joint in upper fixed plate both ends has the bent round pin of double thread, the bottom plate activity sets up the lower surface center of main stay beam, two the both ends of the bent round pin of double thread all run through the bottom plate, the bent round pin both ends of double thread are located the equal threaded mounting of bottom plate lower surface has fastening nut.

Further, the fixed surface of bottom plate has seted up outer screw sleeve, the anti-skidding double-screw bolt is installed to outer screw thread inside the outer screw sleeve, the rubber pad is installed in anti-skidding double-screw bolt one end rotation, the rubber pad laminating the surface of main supporting beam, the fixed welding of anti-skidding double-screw bolt other end has the knob.

Further, the fixed subassembly of photovoltaic board is inside still include the punch holder and the lower plate, the lower plate cup joints to be installed the surface of mounting bracket, surface thread installs set screw under the punch holder, the punch holder activity sets up the top of lower plate, the fixed swivel nut of having seted up in lower plate upper surface center, fastening screw is installed to punch holder surface inside screw thread, fastening screw one end screw thread is installed the inside of interior swivel nut.

Further, the equal fixed welding in lower plate inner wall both sides has the wheel carrier, four the laminating wheel is installed all to the inside rotation of wheel carrier, the inside equal activity of lower plate inner wall is pegged graft there is the laminating carriage release lever, four laminating carriage release lever lateral wall is laminated four respectively the lateral wall of laminating wheel, laminating carriage release lever one end fixed mounting has the non slipping spur, the fixed welding of laminating carriage release lever other end has the limiting plate.

Furthermore, the two sides of the lower surface of the upper clamping plate and the two sides of the upper surface of the lower clamping plate are fixedly provided with non-slip mats, and the surface of the mounting frame is fixedly provided with a photovoltaic module through the photovoltaic plate fixing component.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) through being provided with the fixed subassembly of mounting bracket, rotatory knob, the antiskid double-screw bolt is rotatory thereupon to make the rubber pad laminating main beam lower surface on top, consequently increased the frictional force between mounting bracket and the main beam, the installation that makes the mounting bracket can stabilize more avoids in the use in later stage, the phenomenon of the unexpected slippage of mounting bracket appears.

(2) Through being provided with the fixed subassembly of photovoltaic board, if the unexpected slippage appears in photovoltaic module, the wheel of laminating can then rotate this moment, drive the carriage release lever rectilinear movement next to, when the carriage release lever removes to the photovoltaic module lateral wall, the non slipping spur can support the photovoltaic module lateral wall, if the wheel of laminating has the trend of continuation pivoted, the carriage release lever then can give the bigger pressure of photovoltaic module lateral wall, consequently, increased the frictional force of carriage release lever and photovoltaic module lateral wall, can avoid photovoltaic module to appear sliding by a wide margin, provide more firm installation effect.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a front perspective view of the mount securing assembly shown in the embodiment of FIG. 1;

FIG. 3 is a bottom perspective view of the mount securing assembly shown in the embodiment of FIG. 1;

FIG. 4 is a schematic cross-sectional view of the photovoltaic panel mounting assembly shown in the embodiment of FIG. 1;

fig. 5 is a schematic top view of the lower clamping plate shown in the embodiment of fig. 1.

Reference numerals: 1. a power bracket; 2. an auxiliary support; 3. a main support beam; 4. a slewing reducer; 5. rolling the circular shaft; 6. a mounting frame; 7. a mounting bracket fixing assembly; 701. an upper fixing plate; 702. a lower fixing plate; 703. a double-thread crankpin; 704. fastening a nut; 705. an external thread sleeve; 706. an anti-skid stud; 707. a knob; 8. a photovoltaic panel fixing assembly; 801. an upper splint; 802. a lower splint; 803. a set screw; 804. fastening screws; 805. an inner threaded sleeve; 806. a non-slip mat; 807. a wheel carrier; 808. a laminating wheel; 809. fitting the movable rod; 810. anti-skid blocks; 811. a limiting plate; 9. provided is a photovoltaic module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-5 together, wherein, a firm solar photovoltaic tracking support of installation, include, power support 1, auxiliary stand 2, main roof beam 3, mounting bracket 6, the fixed subassembly 7 of mounting bracket and the fixed subassembly 8 of photovoltaic board, main roof beam 3 movable mounting of propping is in power support 1 and the top of auxiliary stand 2, the fixed subassembly 7 of mounting bracket is fixed to be set up in the middle of the 6 lower surfaces of mounting bracket, mounting bracket 6 passes through the fixed subassembly 7 of mounting bracket is installed the upper surface of main roof beam 3, the equal movable mounting of the fixed subassembly 8 of photovoltaic board is in the upper surface of mounting bracket 6, the fixed subassembly 7 of mounting bracket is used for with mounting bracket 6 is fixed the surface of main roof beam 3 that props, the fixed subassembly 8 of photovoltaic board is used for fixed mounting photovoltaic solar panel.

1 top fixed mounting of power support has rotary reducer 4, the equal fixed mounting in 2 tops of auxiliary stand has roll circle axle 5, main supporting beam 3 runs through respectively and fixed mounting is in rotary reducer 4 and the inside of roll circle axle 5, after rotary reducer 4 started, can drive main supporting beam 3 rotatory, and roll circle axle 5 then is used for supporting main supporting beam 3 and supplementary main supporting beam 3's rotation.

The inside upper fixed plate 701 and the bottom plate 702 that still include of fixed subassembly 7 of mounting bracket, the fixed welding of upper fixed plate 701 is in the lower surface center of mounting bracket 6, the equal activity joint in upper fixed plate 701 both ends has the bent round pin 703 of double thread, the activity of bottom plate 702 sets up the lower surface center of main supporting beam 3, two the both ends of the bent round pin 703 of double thread all run through bottom plate 702, the bent round pin 703 both ends of double thread are located the equal threaded mounting of bottom plate 702 lower surface has fastening nut 704.

Outer jacket 705 has been seted up to bottom plate 702 lower fixed surface, anti-skidding double-screw bolt 706 is installed to outer jacket 705 internal thread, anti-skidding double-screw bolt 706 one end is rotated and is installed the rubber pad, the rubber pad laminating the surface of main supporting beam 3, the fixed welding of anti-skidding double-screw bolt 706 other end has knob 707, arranges bottom plate 702 in the lower surface of main supporting beam 3, connects upper plate 701 and bottom plate 702 through two double thread bent round pins 703, and last fastening nut 704 of screwing accomplishes the fixed of mounting bracket 6, rotatory knob 707 afterwards, anti-skidding double-screw bolt 706 is rotatory thereupon to the rubber pad laminating main supporting beam 3 lower surface on messenger's top, consequently increased the frictional force between mounting bracket 6 and the main supporting beam 3, the installation that makes mounting bracket 6 can stabilize more, avoid in the use in later stage, the phenomenon of the unexpected slippage of mounting bracket 6 appears.

The photovoltaic panel fixing component 8 further comprises an upper clamping plate 801 and a lower clamping plate 802, the lower clamping plate 802 is installed on the outer surface of the installation frame 6 in a sleeved mode, fixing screws 803 are installed on the lower surface of the upper clamping plate 801 in a threaded mode, the upper clamping plate 801 is movably arranged above the lower clamping plate 802, inner thread sleeves 805 are fixedly arranged at the center of the upper surface of the lower clamping plate 802, fastening screws 804 are installed on the inner threads of the surface of the upper clamping plate 801, one end of each fastening screw 804 is installed inside the inner thread sleeve 805, the lower clamping plates 802 are installed on the upper surface of the installation frame 6 through the fixing screws 803 in an equal distance mode, the upper clamping plate 801 is embedded into the upper clamping plate 802 above each lower clamping plate 802, the bottom ends of the fastening screws 804 are screwed into the inner thread sleeves 805, and the distance between the upper clamping plate 801 and the lower clamping plate 802 can be adjusted by rotating the fastening screws 804.

Lower plate 802 inner wall both sides all fixed welding have wheel carrier 807, four the wheel carrier 807 is inside all to be rotated and to install laminating wheel 808, the inside all activity of lower plate 802 inner wall is pegged graft there is laminating carriage bar 809, four laminating carriage bar 809 lateral wall is laminated four respectively the lateral wall of laminating wheel 808, laminating carriage bar 809 one end fixed mounting has non slipping spur 810, the fixed welding of laminating carriage bar 809 other end has limiting plate 811.

The two sides of the lower surface of the upper clamping plate 801 and the two sides of the upper surface of the lower clamping plate 802 are fixedly provided with anti-slip pads 806, the surface of the mounting frame 6 is fixedly provided with a photovoltaic assembly 9 through the photovoltaic plate fixing assembly 8, one side of the photovoltaic assembly 9 is embedded between the upper clamping plate 801 and the lower clamping plate 802, the fastening screw 804 is rotated to enable the anti-slip pads 806 to be fully attached to the photovoltaic assembly 9 and enable the side wall of the photovoltaic assembly 9 to be attached to the side wall of the attaching wheel 808, in the continuous rotating process of the photovoltaic assembly 9, if the photovoltaic assembly 9 is accidentally slipped off, the attaching wheel 808 rotates, because the side wall of the attaching moving rod 809 is attached to the side wall of the attaching wheel 808, the attaching moving rod 809 is driven to linearly move when the attaching moving rod 809 moves towards the side wall of the photovoltaic assembly 9, the anti-slip blocks 810 can abut against the side wall of the photovoltaic assembly 9, and the attaching wheel 808 has the tendency of continuing to rotate, the laminating movable rod 809 can give the photovoltaic module 9 larger pressure to the side wall, so that the friction force between the laminating movable rod 809 and the side wall of the photovoltaic module 9 is increased, the photovoltaic module 9 can be prevented from greatly sliding, and a more stable installation effect is provided.

To sum up, the utility model provides an, at the during operation, the firm solar photovoltaic of an installation trails support, at first: the lower fixing plate 702 is arranged on the lower surface of the main supporting beam 3, the upper fixing plate 701 and the lower fixing plate 702 are connected through two double-thread bent pins 703, finally, the fastening nut 704 is screwed to complete the fixing of the mounting frame 6, then, the knob 707 is rotated, the anti-skid stud 706 rotates along with the knob, and the rubber pad at the top end is attached to the lower surface of the main supporting beam 3, so that the friction force between the mounting frame 6 and the main supporting beam 3 is increased, the mounting frame 6 can be more stably mounted, and the phenomenon that the mounting frame 6 accidentally slips in later use is avoided;

and finally: each lower clamping plate 802 is equidistantly arranged on the upper surface of the mounting frame 6 through a fixing screw 803, then an upper clamping plate 801 is embedded above each lower clamping plate 802, the bottom end of a fastening screw 804 is screwed into an inner threaded sleeve 805, the distance between the upper clamping plate 801 and the lower clamping plate 802 can be adjusted by rotating the fastening screw 804, one side of the photovoltaic module 9 is embedded between the upper clamping plate 801 and the lower clamping plate 802, the fastening screw 804 is rotated to enable the anti-skid pad 806 to be fully attached to the photovoltaic module 9 and enable the side wall of the photovoltaic module 9 to be attached to the side wall of the attaching wheel 808, in the continuous rotating process of the photovoltaic module 9, if the photovoltaic module 9 is accidentally slipped off, the attaching wheel 808 rotates, the side wall of the attaching moving rod 809 is attached to the side wall of the attaching wheel 808, therefore, the attaching moving rod 809 is driven to linearly move when the attaching moving rod 809 moves towards the side wall of the photovoltaic module 9, the non-slip blocks 810 can support the side wall of the photovoltaic module 9, if the attaching wheels 808 have the tendency of continuing to rotate, the attaching moving rods 809 can give larger pressure to the side wall of the photovoltaic module 9, so that the friction force between the attaching moving rods 809 and the side wall of the photovoltaic module 9 is increased, the photovoltaic module 9 can be prevented from greatly sliding, and a more stable installation effect is provided.

Claims

1. A stably-installed solar photovoltaic tracking support comprises a power support (1), an auxiliary support (2) and a main supporting beam (3), and is characterized by further comprising an installation frame (6), an installation frame fixing assembly (7) and a photovoltaic panel fixing assembly (8);

the main supporting beam (3) is movably mounted at the top ends of the power support (1) and the auxiliary support (2), the mounting frame fixing component (7) is fixedly arranged in the middle of the lower surface of the mounting frame (6), the mounting frame (6) is mounted on the upper surface of the main supporting beam (3) through the mounting frame fixing component (7), and the photovoltaic panel fixing components (8) are movably mounted on the upper surface of the mounting frame (6);

the mounting rack fixing component (7) is used for fixing the mounting rack (6) on the surface of the main supporting beam (3), and the photovoltaic panel fixing component (8) is used for fixedly mounting the photovoltaic solar panel.

2. The securely mounted solar photovoltaic tracking support of claim 1, wherein: power support (1) top fixed mounting has rotary reducer (4), the equal fixed mounting in auxiliary stand (2) top has roll circle axle (5), main supporting beam (3) run through respectively and fixed mounting in rotary reducer (4) and the inside of roll circle axle (5).

3. The stably-installed solar photovoltaic tracking support according to claim 2, wherein: the utility model discloses a supporting beam's fixed subassembly (7) is fixed, including the fixed subassembly of mounting bracket (7) inside fixed subassembly (701) and bottom plate (702), the fixed welding of top plate (701) is in the lower surface center of mounting bracket (6), the equal activity joint in top plate (701) both ends has two screw thread bent pin (703), bottom plate (702) activity sets up the lower surface center of main supporting beam (3), two the both ends of two screw thread bent pin (703) all run through bottom plate (702), two screw thread bent pin (703) both ends are located fastening nut (704) are installed to the equal screw thread of bottom plate (702) lower surface.

4. The securely mounted solar photovoltaic tracking support of claim 3, wherein: outer screw sleeve (705) have been seted up to bottom plate (702) lower fixed surface, anti-skidding double-screw bolt (706) are installed to outer screw sleeve (705) internal thread, the rubber pad is installed in anti-skidding double-screw bolt (706) one end rotation, the rubber pad laminating the surface of main supporting beam (3), the fixed welding of anti-skidding double-screw bolt (706) other end has knob (707).

5. The securely mounted solar photovoltaic tracking support of claim 4, wherein: the photovoltaic panel fixing component (8) is inside still to include punch holder (801) and lower plate (802), lower plate (802) cup joint to be installed the surface of mounting bracket (6), set screw (803) are installed to punch holder (801) lower surface screw thread, punch holder (801) activity sets up the top of lower plate (802), interior swivel nut (805) have been seted up to lower plate (802) upper surface center is fixed, set screw (804) are installed to punch holder (801) surface inside screw thread, set screw (804) one end screw thread is installed the inside of interior swivel nut (805).

6. The securely mounted solar photovoltaic tracking support of claim 5, wherein: lower plate (802) inner wall both sides all fixed welding have wheel carrier (807), four wheel carrier (807) inside all rotates installs laminating wheel (808), the inside all activity of lower plate (802) inner wall is pegged graft and is had laminating carriage release lever (809), four laminating carriage release lever (809) lateral wall is laminated four respectively the lateral wall of laminating wheel (808), laminating carriage release lever (809) one end fixed mounting has non slipping spur (810), laminating carriage release lever (809) other end fixed welding has limiting plate (811).

7. The securely mounted solar photovoltaic tracking support of claim 6, wherein: the mounting structure is characterized in that anti-slip pads (806) are fixedly mounted on two sides of the lower surface of the upper clamping plate (801) and two sides of the upper surface of the lower clamping plate (802), and photovoltaic modules (9) are fixedly mounted on the surface of the mounting frame (6) through the photovoltaic plate fixing components (8).