CN204290837U - Solar components support - Google Patents

Abstract

The utility model discloses a kind of solar components support, comprise base, pillar and solar panel, the bottom of described base is provided with fixed head, stiffener is provided with in base, stiffener center is provided with swivel base, is rotated and is fixed with rotating disk, rotating disk is installed with pillar above swivel base by set bolt; Column upper section is provided with sliding support, and pillar top is processed with vertical core; The bottom of sliding support is cylindric, and the diameter of sliding support is less than the diameter of described vertical core, and the bottom of sliding support is positioned at this vertical core, and sliding support and pillar are slidably matched in vertical direction; The utility model not only reduces the moment of torsion of solar module when east-west direction rotates moving axis rotation, reduce solar module to the carrying of support with to the requirement driven, structure is simple, and construction cost is low, and its stabilized structure, improve the stability of a system simultaneously.

Description

Solar components support

Technical field

The utility model relates to field of solar energy, specifically a kind of solar components support.

Background technology

Solar photovoltaic power plant cost is primarily of civil engineering, electrical system two parts composition, along with the reduction of the prices such as solar components product and electrical system critical component inverter, mounting system and installation cost thereof proportion in photovoltaic power station system just seems more and more outstanding; Under the prerequisite not affecting mechanism's mechanical property, adopt the material of high-strength and low-cost and optimize mechanism member, imperative.In current large solar photovoltaic power plant mounting system, mainly contain fixed bracket system and solar tracking cribbing system two kinds.No matter adopt which kind of mode, all ensure that the annual receptible sunlight irradiation degree of solar panels is as far as possible many, to ensure as far as possible to increase energy output more as far as possible.Wherein, fixed bracket system due to structure relatively simple, cost of investment is also lower, but also lower with scale power station energy output, and resource utilization is low.And the more fixed height of cost of investment in solar tracking formula power station, but also higher with scale power station energy output, resource utilization is high, and early stage, construction cost had high input, particularly as higher in adopted biaxial sun-tracking construction to drop into, and the stability of a system is low.Therefore, if North and South direction inclination angle is made into adjustable structure to increase energy output by simple modifications in existing tilt stand system, increasing under construction cost prerequisite hardly, annual can increase energy output, improve resource utilization, improve the stability of a system simultaneously, will there is very high market value.

Utility model content

The purpose of this utility model is that providing a kind of reduces the carrying of support and drive the solar components support required, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of solar components support, comprise base, pillar and solar panel, the bottom of described base is provided with fixed head, stiffener is provided with in base, stiffener center is provided with swivel base, is rotated and is fixed with rotating disk, rotating disk is installed with pillar above swivel base by set bolt; Column upper section is provided with sliding support, and pillar top is processed with vertical core; The bottom of sliding support is cylindric, and the diameter of sliding support is less than the diameter of described vertical core, and the bottom of sliding support is positioned at this vertical core, and sliding support and pillar are slidably matched in vertical direction; The sidewall of described pillar being processed with the screw communicated with described vertical core, being provided with for holding out against screw by being fixed on bottom sliding support in pillar vertical core in this screw; Described sliding support has bracing frame by hinge, and the two ends of bearing pin are all stretched out outside bracing frame and sliding support, and the two ends of bearing pin are equipped with machining screw, and the end of thread of bearing pin is provided with nut; Support frame as described above is provided with deep-slotted chip breaker, the position in the center of circle of deep-slotted chip breaker and the position consistency at bearing pin center, position relative to deep-slotted chip breaker on sliding support is provided with screw, fastening bolt is provided with in screw, one end of fastening bolt reaches outside deep-slotted chip breaker, and one end that fastening bolt reaches deep-slotted chip breaker is provided with knob; The top of support frame as described above is provided with the framework for fixed solar cell panel, solar panel upper end is provided with the first fixed block, solar panel lower end is provided with the second fixed block, the framework left and right sides is respectively equipped with the first column and the second column, first column connects the first fixed block by the first axes of rotation skew, and the second column connects the second fixed block by the second axes of rotation skew.

Further, described base is similar to " recessed " shape.

Further, described swivel base is installed on stiffener by set bolt.

Compared with prior art, the utility model can adjust the anglec of rotation by adjustment rotating disk, adjustment sliding support adjusts height, then rotary support frame adjusts angle, the angle that solar panel tilts is followed and is calculated according to latitude and radiation, adjusting angle can be followed and be regulated according to time-division in spring and autumn irradiance, solar panel is pressed certain angle and is rotated around column center line, make solar panel towards the sun, solar panel remains vertical reception sunray, make solar panel can increase the energy output of % every year, improve resource utilization, and the utility model, not only reduce the moment of torsion of solar module when east-west direction rotates moving axis rotation, thus reduce solar module to the carrying of support with to the requirement driven, the utility model structure is simple, increase construction cost hardly, and its stabilized structure, improve the stability of a system simultaneously.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of solar components support.

In figure: 1-base, 2-swivel base, 3-rotating disk, 4-set bolt, 5-pillar, 6-hold out against screw, 7-sliding support, 8-fastening bolt, 9-deep-slotted chip breaker, 10-bracing frame, 11-bearing pin, 12-framework, 13-first column, 14-first rotating shaft, 15-first fixed block, 16-second column, 17-second rotating shaft, 18-second fixed block, 19-solar panel, 10-stiffener, 21-fixed head.

Embodiment

Be described in more detail below in conjunction with the technical scheme of embodiment to this patent.

Refer to Fig. 1, a kind of solar components support, comprise base 1, pillar 5 and solar panel 19, described base 1 is similar to " recessed " shape, the bottom of base 1 is provided with fixed head 21, is provided with stiffener 20 in base 1, and stiffener 20 center is provided with swivel base 2, rotated by set bolt 4 above swivel base 2 and be fixed with rotating disk 3, rotating disk 3 is installed with pillar 5; Pillar 5 top is provided with sliding support 7, and pillar 5 top is processed with vertical core; The bottom of sliding support 7 is cylindric, and the diameter of sliding support 7 is less than the diameter of described vertical core, and the bottom of sliding support 7 is positioned at this vertical core, and sliding support 7 and pillar 5 are slidably matched in vertical direction; The sidewall of described pillar 5 being processed with the screw communicated with described vertical core, being provided with for holding out against screw 6 by being fixed on bottom sliding support 7 in pillar 5 vertical core in this screw; Described sliding support 7 is hinged with bracing frame 10 by bearing pin 11, and the two ends of bearing pin 11 are all stretched out outside bracing frame 10 and sliding support 7, and the two ends of bearing pin 11 are equipped with machining screw, and the end of thread of bearing pin 11 is provided with nut; Support frame as described above 10 is provided with deep-slotted chip breaker 9, the position in the center of circle of deep-slotted chip breaker 9 and the position consistency at bearing pin 11 center, sliding support 7 is provided with screw relative to the position of deep-slotted chip breaker 9, fastening bolt 8 is provided with in screw, one end of fastening bolt 8 reaches outside deep-slotted chip breaker 9, and one end that fastening bolt 8 reaches deep-slotted chip breaker 9 is provided with knob; The top of support frame as described above 10 is provided with the framework 12 for fixed solar cell panel 19, solar panel 19 upper end is provided with the first fixed block 15, solar panel 19 lower end is provided with the second fixed block 18, framework 12 left and right sides is respectively equipped with the first column 13 and the second column 16, first column 13 to be tilted connection second fixed block 18 by the second rotating shaft 17 by the first rotating shaft 14 connection first fixed block 15, second column 16 that tilts; During work, first solar panel 19 is fixed on framework 12, adjustment swivel base 2 adjusts the anglec of rotation, adjustment sliding support 7 adjusts height, then rotary support frame 10 adjusts angle, solar panel 19 is transferred to the position of sunray direct projection, finally tightens the nut on bearing pin 11 and fastening bolt 8.

The utility model can adjust the anglec of rotation by adjustment rotating disk 3, adjustment sliding support 7 adjusts height, then rotary support frame 10 adjusts angle, the angle that solar panel 19 tilts is followed and is calculated according to latitude and radiation, adjusting angle can be followed and be regulated according to time-division in spring and autumn irradiance, solar panel 19 is pressed certain angle and is rotated around column 5 center line, make solar panel 19 towards the sun, solar panel 19 remains vertical reception sunray, make solar panel 19 can increase by the energy output of 6% every year, improve resource utilization, and the utility model, not only reduce the moment of torsion of solar module when east-west direction rotates moving axis rotation, thus reduce solar module to the carrying of support with to the requirement driven, the utility model structure is simple, increase construction cost hardly, and its stabilized structure, improve the stability of a system simultaneously.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned execution mode, in the ken that one skilled in the relevant art possesses, various change can also be made under the prerequisite not departing from this patent aim.

Claims (3)

1. a solar components support, comprise base (1), pillar (5) and solar panel (19), it is characterized in that, the bottom of described base (1) is provided with fixed head (21), stiffener (20) is provided with in base (1), stiffener (20) center is provided with swivel base (2), swivel base (2) top is rotated by set bolt (4) and is fixed with rotating disk (3), rotating disk (3) is installed with pillar (5), pillar (5) top is provided with sliding support (7), and pillar (5) top is processed with vertical core, the bottom of sliding support (7) is cylindric, the diameter of sliding support (7) is less than the diameter of described vertical core, the bottom of sliding support (7) is positioned at this vertical core, and sliding support (7) and pillar (5) are slidably matched in vertical direction, the sidewall of described pillar (5) is processed with the screw communicated with described vertical core, is provided with in this screw and holds out against screw (6) for being fixed on sliding support (7) bottom in pillar (5) vertical core, described sliding support (7) is hinged with bracing frame (10) by bearing pin (11), bracing frame (10) and sliding support (7) are all stretched out outward in the two ends of bearing pin (11), the two ends of bearing pin (11) are equipped with machining screw, and the end of thread of bearing pin (11) is provided with nut, support frame as described above (10) is provided with deep-slotted chip breaker (9), the position in the center of circle of deep-slotted chip breaker (9) and the position consistency at bearing pin (11) center, sliding support (7) is provided with screw relative to the position of deep-slotted chip breaker (9), fastening bolt (8) is provided with in screw, one end of fastening bolt (8) reaches deep-slotted chip breaker (9) outward, and one end that fastening bolt (8) reaches deep-slotted chip breaker (9) is provided with knob, the top of support frame as described above (10) is provided with the framework (12) for fixed solar cell panel (19), solar panel (19) upper end is provided with the first fixed block (15), solar panel (19) lower end is provided with the second fixed block (18), framework (12) left and right sides is respectively equipped with the first column (13) and the second column (16), first column (13) is by the first rotating shaft (14) inclination connection first fixed block (15), second column (16) is by the second rotating shaft (17) inclination connection second fixed block (18).

2. a kind of solar components support according to claim 1, is characterized in that, described base (1) is similar to " recessed " shape.

3. a kind of solar components support according to claim 1, is characterized in that, described swivel base (2) is installed on stiffener (20) by set bolt (4).