CN205792359U - Telescopic device of solar generating with wind-power electricity generation - Google Patents

Abstract

nullThe utility model discloses the telescopic device of solar generating of a kind of band wind-power electricity generation，By first、Two electric expansion bars stretch out the outside that solaode portable plate moves to solar cell substrate，Sunlight is enable to be irradiated on solaode portable plate，Thus improve solar energy utilization ratio，Add generated energy，First、Two electric expansion bars shrink，Solaode portable plate is made to move to the lower section of solar cell substrate，Ground vegetation is not blocked，So that vegetation can normal growth，Avoid soil erosion，Protect environment，The direction that wind comes can be sensed by wind transducer，Communicated to connect with electronic circular orbit by wind transducer，The slide block on electronic circular orbit is made to drive windmill electric generating apparatus to slide along electronic circular orbit，Make the direction that the blade of windmill electric generating apparatus comes all the time towards wind，So that the generating efficiency of windmill electric generating apparatus maximizes，And then make wind energy maximize the use.

Description

Telescopic device of solar generating with wind-power electricity generation

Technical field

This utility model relates to field of solar thermal power generation, particularly relates to the telescopic device of solar generating of a kind of band wind-power electricity generation.

Background technology

In recent years, due to starting on a large scale of western photovoltaic plant, " abandoning light " problem more and more prominent, country also increases the support to distributed photovoltaic power generation, and distributed photovoltaic is more suitable near the development of the Middle Eastern of load center.Owing to Middle Eastern cost of land is of a relatively high, utilizing solar energy power generating large area can not lay solar panel, it is the highest that this results in solar energy utilization ratio so that photovoltaic efficiency is low, and generated energy is relatively low.

And existing photovoltaic generation is when standing in laying solar panel, because vegetation can be blocked by solar panel on ground, it is impossible to normal growth, so ground vegetation would generally be rooted out, thus easily causes soil erosion, destroy environment.

And existing solar panel can only utilize merely solar energy to be dealt into, and the wind energy in natural environment cannot be obtained by, and wind-power electricity generation is also part critically important in new forms of energy, and wind energy is not used, it also it is the waste of a kind of energy.

Because above-mentioned defect, the design people, the most in addition research and innovation, to founding the telescopic device of solar generating of a kind of band wind-power electricity generation so that it is have more the value in industry.

Utility model content

For solving above-mentioned technical problem, the purpose of this utility model is to provide one can utilize wind-power electricity generation, improves solar energy utilization ratio, promotes the telescopic device of solar generating of the band wind-power electricity generation of generating efficiency.

The telescopic device of solar generating of a kind of band wind-power electricity generation that the utility model proposes, it is characterized in that: include a support bar, one solar cell substrate, some solaode portable plates, some first electric expansion bars and some second electric expansion bars, described solar cell substrate is fixed on the upper end of described support bar, described solar cell substrate is vertical with described support bar, described first, two electric expansion bars are fixed on described support bar, described first electric expansion bar is positioned at the lower section of described solar cell substrate, described second electric expansion bar is positioned at the lower section of the first electric expansion bar, described first, two electric expansion bars are parallel with described solar cell substrate, described solaode portable plate is horizontally fixed on described first, on two electric expansion bars；

Also include a wind transducer, an electronic circular orbit, a slide block and a windmill electric generating apparatus, described wind transducer is arranged on the front middle upper part of described solar cell substrate, described electronic circular orbit fixed cover is located on described support bar, described electronic circular orbit is positioned at the lower section of described second electric expansion bar, described slide block is slidably mounted on described electronic circular orbit, described windmill electric generating apparatus is fixed on described slide block, described windmill electric generating apparatus is vertical with described support bar, and described wind transducer communicates to connect with described electronic circular orbit.

As further improvement of the utility model, described support bar is positioned in the middle of the back side of described solar cell substrate, and described solar cell substrate is square.

As further improvement of the utility model, described solaode portable plate is rectangle, the width of described solaode portable plate is the half of described solar cell substrate width, and the length of described solaode portable plate is identical with the length of described solar cell substrate.

As further improvement of the utility model, described first electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described second electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described first and second electric expansion bar is all vertical with described support bar, leave gap between described first electric expansion bar and described solar cell substrate, between described second electric expansion bar and described first electric expansion bar, leave gap.

As further improvement of the utility model, described solaode portable plate is eight, is separately fixed in the width direction on the upper surface of described first and second electric expansion bar in the middle of the back side of described solaode portable plate.

As further improvement of the utility model, described first electric expansion bar is made up of two joint connecting rods, and described second electric expansion bar is made up of three joint connecting rods, and the length often saving connecting rod is the half of described solar cell substrate length.

As further improvement of the utility model, described solar cell substrate and described solaode portable plate are gallium arsenide solar cell plate.

nullBy such scheme，This utility model at least has the advantage that the telescopic device of solar generating of this band wind-power electricity generation is by first、The stretching motion of two electric expansion bars，Solaode portable plate can be made to stretch be connected on support bar，When needs carry out solar electrical energy generation，First、Two electric expansion bars stretch out the outside that solaode portable plate moves to solar cell substrate，Sunlight is enable to be irradiated on solaode portable plate，Thus improve solar energy utilization ratio，Also improve photovoltaic efficiency，Add generated energy，When need not solar electrical energy generation，First、Two electric expansion bars shrink，Solaode portable plate is made to move to the lower section of solar cell substrate，Land use area can be reduced，Ground vegetation is not blocked，So that vegetation can normal growth，Avoid soil erosion，Protect environment.

The direction that wind comes can be sensed by wind transducer, communicated to connect with electronic circular orbit by wind transducer, the slide block on electronic circular orbit is made to drive windmill electric generating apparatus to slide along electronic circular orbit, make the direction that the blade of windmill electric generating apparatus comes all the time towards wind, so that the generating efficiency of windmill electric generating apparatus maximizes, and then wind energy is made to maximize the use.

Described above is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be practiced according to the content of description, below with preferred embodiment of the present utility model and coordinate accompanying drawing describe in detail as after.

Accompanying drawing explanation

Fig. 1 is the half side structural representation of the telescopic device of solar generating of this utility model band wind-power electricity generation；

Fig. 2 is the half side structural representation in this utility model under first and second electric expansion bar contraction state；

Fig. 3 is that in this utility model, first and second electric expansion bar stretches out the top view under state；

Wherein: 1-support bar；2-solar cell substrate；3-solaode portable plate；4-the first electric expansion bar；5-the second electric expansion bar；12-wind transducer；The electronic circular orbit of 13-；14-slide block；15-windmill electric generating apparatus.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, detailed description of the invention of the present utility model is described in further detail.Following example are used for illustrating this utility model, but are not limited to scope of the present utility model.

Embodiment: the telescopic device of solar generating of a kind of band wind-power electricity generation, including a support bar 1, one solar cell substrate 2, some solaode portable plates 3, some first electric expansion bars 4 and some second electric expansion bars 5, described solar cell substrate is fixed on the upper end of described support bar, described solar cell substrate is vertical with described support bar, described first, two electric expansion bars are fixed on described support bar, described first electric expansion bar is positioned at the lower section of described solar cell substrate, described second electric expansion bar is positioned at the lower section of the first electric expansion bar, described first, two electric expansion bars are parallel with described solar cell substrate, described solaode portable plate is horizontally fixed on described first, on two electric expansion bars；

Also include a wind transducer 12, one electronic circular orbit 13, one slide block 14 and a windmill electric generating apparatus 15, described wind transducer is arranged on the front middle upper part of described solar cell substrate, described electronic circular orbit fixed cover is located on described support bar, described electronic circular orbit is positioned at the lower section of described second electric expansion bar, described slide block is slidably mounted on described electronic circular orbit, described windmill electric generating apparatus is fixed on described slide block, described windmill electric generating apparatus is vertical with described support bar, described wind transducer communicates to connect with described electronic circular orbit.

Described support bar is positioned in the middle of the back side of described solar cell substrate, and described solar cell substrate is square.

Described solaode portable plate is rectangle, and the width of described solaode portable plate is the half of described solar cell substrate width, and the length of described solaode portable plate is identical with the length of described solar cell substrate.

Described first electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described second electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described first and second electric expansion bar is all vertical with described support bar, leave gap between described first electric expansion bar and described solar cell substrate, between described second electric expansion bar and described first electric expansion bar, leave gap.

Described solaode portable plate is eight, is separately fixed in the width direction on the upper surface of described first and second electric expansion bar in the middle of the back side of described solaode portable plate.

Described first electric expansion bar is made up of two joint connecting rods, and described second electric expansion bar is made up of three joint connecting rods, and the length often saving connecting rod is the half of described solar cell substrate length.

Described solar cell substrate and described solaode portable plate are gallium arsenide solar cell plate.

The telescopic device of solar generating of this band wind-power electricity generation passes through first, the stretching motion of two electric expansion bars, solaode portable plate can be made to stretch be connected on support bar, when needs carry out solar electrical energy generation, first, two electric expansion bars stretch out the outside that solaode portable plate moves to solar cell substrate, sunlight is enable to be irradiated on solaode portable plate, thus improve solar energy utilization ratio, also improve photovoltaic efficiency, add generated energy, when need not solar electrical energy generation, first, two electric expansion bars shrink, solaode portable plate is made to move to the lower section of solar cell substrate, land use area can be reduced, ground vegetation is not blocked, so that vegetation can normal growth, avoid soil erosion, protect environment.

The direction that wind comes can be sensed by wind transducer, communicated to connect with electronic circular orbit by wind transducer, the slide block on electronic circular orbit is made to drive windmill electric generating apparatus to slide along electronic circular orbit, make the direction that the blade of windmill electric generating apparatus comes all the time towards wind, so that the generating efficiency of windmill electric generating apparatus maximizes, and then wind energy is made to maximize the use.

The above is only preferred implementation of the present utility model; it is not limited to this utility model; should be understood that; for those skilled in the art; on the premise of without departing from this utility model know-why; can also make some improvement and modification, these improve and modification also should be regarded as protection domain of the present utility model.

Claims (7)

1. the telescopic device of solar generating of a band wind-power electricity generation, it is characterized in that: include a support bar, one solar cell substrate, some solaode portable plates, some first electric expansion bars and some second electric expansion bars, described solar cell substrate is fixed on the upper end of described support bar, described solar cell substrate is vertical with described support bar, described first, two electric expansion bars are fixed on described support bar, described first electric expansion bar is positioned at the lower section of described solar cell substrate, described second electric expansion bar is positioned at the lower section of the first electric expansion bar, described first, two electric expansion bars are parallel with described solar cell substrate, described solaode portable plate is horizontally fixed on described first, on two electric expansion bars；

Also include a wind transducer, an electronic circular orbit, a slide block and a windmill electric generating apparatus, described wind transducer is arranged on the front middle upper part of described solar cell substrate, described electronic circular orbit fixed cover is located on described support bar, described electronic circular orbit is positioned at the lower section of described second electric expansion bar, described slide block is slidably mounted on described electronic circular orbit, described windmill electric generating apparatus is fixed on described slide block, described windmill electric generating apparatus is vertical with described support bar, and described wind transducer communicates to connect with described electronic circular orbit.

The telescopic device of solar generating of band wind-power electricity generation the most according to claim 1, it is characterised in that: described support bar is positioned in the middle of the back side of described solar cell substrate, and described solar cell substrate is square.

The telescopic device of solar generating of band wind-power electricity generation the most according to claim 1, it is characterized in that: described solaode portable plate is rectangle, the width of described solaode portable plate is the half of described solar cell substrate width, and the length of described solaode portable plate is identical with the length of described solar cell substrate.

4. according to the telescopic device of solar generating of the band wind-power electricity generation described in Claims 2 or 3, it is characterized in that: described first electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described second electric expansion bar is the surrounding that four and uniform intervals are distributed in described support bar, described first and second electric expansion bar is all vertical with described support bar, leave gap between described first electric expansion bar and described solar cell substrate, between described second electric expansion bar and described first electric expansion bar, leave gap.

The telescopic device of solar generating of band wind-power electricity generation the most according to claim 4, it is characterized in that: described solaode portable plate is eight, be separately fixed in the width direction in the middle of the back side of described solaode portable plate on the upper surface of described first and second electric expansion bar.

The telescopic device of solar generating of band wind-power electricity generation the most according to claim 5, it is characterized in that: described first electric expansion bar is made up of two joint connecting rods, described second electric expansion bar is made up of three joint connecting rods, and the length often saving connecting rod is the half of described solar cell substrate length.

The telescopic device of solar generating of band wind-power electricity generation the most according to claim 6, it is characterised in that: described solar cell substrate and described solaode portable plate are gallium arsenide solar cell plate.