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Pulling-expanding type solar power station having functions of tilting, revolution and lifting

A pull-and-deploy solar panel technology, applied in the field of solar power generation, can solve the problems of inflexible rotation of solar power stations, affecting solar energy absorption efficiency, single structure of solar panels, etc., and achieves improved solar energy absorption efficiency, flexible rotation, The effect of high absorption of solar energy

Inactive Publication Date: 2016-01-06
HEILONGJIANG XINGAN NEW ENERGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The present invention is to solve the problem that the rotation of the existing solar power station is inflexible, the structure of the solar battery panel is single, and the efficiency of solar energy absorption is affected.

Method used

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  • Pulling-expanding type solar power station having functions of tilting, revolution and lifting
  • Pulling-expanding type solar power station having functions of tilting, revolution and lifting
  • Pulling-expanding type solar power station having functions of tilting, revolution and lifting

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specific Embodiment approach 1

[0044] Specific implementation mode 1, refer to Figure 1 to Figure 11 Describe this embodiment in detail. A pull-out solar power station with functions of tilting, turning, and lifting described in this embodiment includes a pull-out solar panel deployment mechanism 4, a tilting mechanism 3, and a turning mechanism. 2 and lifting mechanism 1;

[0045] The slewing mechanism 2 is arranged on the lifting mechanism 1, the tilting mechanism 3 is arranged on the slewing mechanism 2, and the upper surface of the tilting mechanism 3 is provided with a pull-out solar panel deployment mechanism 4;

[0046] The pull-type solar panel deployment mechanism 4 is used to draw and retract the solar panel; the tilting mechanism 3 is used to make the pull-type solar panel deployment mechanism 4 produce an inclination angle; the slewing mechanism 2 is used to drive the tilting mechanism 3 and the pull-type solar panel deployment mechanism 4 complete the 360-degree horizontal rotation; the lifti...

specific Embodiment approach 2

[0048] Specific implementation mode two, refer to figure 2 and image 3 Describe this embodiment. This embodiment is a further description of a pull-out solar power station with functions of tilting, turning and lifting described in Embodiment 1. In this embodiment, the lifting mechanism 1 includes the following Flange 1-1, upper flange 1-2, lower oil cylinder seat 1-3, upper oil cylinder seat 1-4, oil cylinder 1-5, fixed slider 1-6, movable slider 1-7, outer support body 1 -8 and inner support body 1-9,

[0049] The center of the lower surface of the upper flange 1-2 is connected to the plane of the upper cylinder seat 1-4, the spherical surface of the upper oil cylinder seat 1-4 is connected to one end of the oil cylinder 1-5, and the other end of the oil cylinder 1-5 is connected to the lower oil cylinder seat 1-3 The spherical surface of the lower cylinder seat 1-3 is fixedly connected with the lower flange 1-1,

[0050] Both the outer support body 1-8 and the inner su...

specific Embodiment approach 3

[0053] Specific implementation mode three, refer to Figure 4 and Figure 5 Describe this embodiment. This embodiment is a further description of a pull-out solar power station with functions of tilting, turning and lifting described in Embodiment 1. In this embodiment, the turning mechanism 2 includes a Lower base 2-1, multiple steel balls 2-2, No. 1 upper base 2-3, motor 2-4, driving gear 2-5, reduction gear 2-6 and compartment bottom 2-7,

[0054] The carriage bottom 2-7 is fixedly arranged on the upper flange 1-2 of the lifting mechanism 1, and the lower base 2-1 is fixedly arranged on the carriage bottom 2-7,

[0055] The No. 1 lower base 2-1 and the No. 1 upper base 2-3 are disc-shaped structures of the same size, and the upper bottom surface of the No. 1 lower base 2-1 and the lower bottom surface of the No. 1 upper base 2-3 are along the circumferential direction All are provided with annular grooves, and the side of No. 1 upper base 2-3 is provided with passive teet...

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Abstract

The invention discloses a pulling-expanding type solar power station having functions of tilting, revolution and lifting, belonging to the solar energy generating field. The pulling-expanding type solar power station having functions of tilting, revolution and lifting solves the problems that the rotation of the solar power station is not flexible, and the solar battery panel is single in structure, which affect the absorption of the solar energy. A revolution mechanism is arranged on a lifting mechanism; a tilting mechanism is arranged on the revolution mechanism; the upper surface of the tilting mechanism is provided with a pulling type solar battery expanding mechanism; the pulling type solar battery panel expanding mechanism is used for enabling the solar battery panel to expand and fold in a pulling manner; the tilting mechanism is used for enabling the pulling type solar battery panel expanding mechanism to produce an inclination angle; the revolution mechanism is used for driving the tilting mechanism and the pulling type solar battery panel expanding mechanism to finish horizontal 360 degree rotation; and the lifting mechanism is used for driving the revolution mechanism, the tilting mechanism and the pulling type solar battery panel expanding mechanism to elevate and descend. The pulling-expanding type solar power station is also used in the other power generating occasion.

Description

technical field [0001] The invention relates to a pull-out solar power station with the functions of tilting, turning and lifting. It belongs to the field of solar power generation. Background technique [0002] Existing solar power stations are bulky, and usually require a strong support structure to bear the weight of the solar power station, and relatively large forces are required to rotate the solar power station, resulting in inflexible rotation of the solar power station driven by the support structure, which affects the absorption of solar panels The efficiency of solar energy, and the single structure of the existing solar panels further affects the absorption efficiency of solar energy. Contents of the invention [0003] The invention aims to solve the problems of inflexible rotation of existing solar power stations and single structure of solar battery panels, which affect solar energy absorption efficiency. A pull-out solar power station with functions of til...

Claims

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Application Information

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IPC IPC(8): H02S20/32H02S30/20
CPCY02E10/50
Inventor 于丰泽陈怀春于占江
Owner HEILONGJIANG XINGAN NEW ENERGY
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