CN101986812A - Solar green house - Google Patents

Abstract

The invention discloses a solar green house, which comprises a main structure, a roof structure and a plurality of film solar battery packs, wherein the roof structure is arranged on the main structure; the plurality of film solar battery packs are arranged on the roof structure and the distances between the film solar battery packs are unequal. Therefore, the film solar battery packs can absorb sunlight and generate electric power. The distances between the film solar battery packs are determined according to the illumination angle of the sunlight or the positions of plants placed in the solar green house, so that the amount of the sunlight projected onto the film solar battery packs and plants can be distributed well to improve the amount of the electric power generated by the solar film battery packs and the growth speed of the plants.

Description

Solar energy greenhouse

Technical field

The present invention relates to a kind of solar energy greenhouse, especially relate to a kind of solar energy greenhouse with thin-film solar cells group of non-equidistance.

Background technology

Greenhouse (greenhouse) is a kind of special building as serike (flowers and plants and vegetables and fruits etc.), and its energy protective plant is avoided the influence of weather, temperature or mosquito, makes plant can more successfully reach growth apace.Especially for some torrid zones or refrigerant latitudes, the proper temperature and the humidity environment that utilize the greenhouse to provide, more notable for the help of plant growing.

The greenhouse has the roof of light-permeable usually, and solar energy shines on plant by the roof, allows plant carry out photosynthesis.The greenhouse also has the air-conditioning equipment of a little control temperature and humidity etc., the growth that allows temperature in the greenhouse and humidity help plant.The greenhouse has more automatic sprinkler, regularly sprinkles water on plant.

Because the relation of these equipment, the greenhouse can consume a large amount of electric energy, so the electricity charge be user (peasant) bearing greatly when using the greenhouse.For this reason, existing people proposes to be subjected to that light is the strongest, fullest place (normally roof) adds the thin film solar cell of harness light-permeable on the greenhouse, so that provide electric energy under situation about not influencing plant illumination.

Yet though thin-film solar cells has light transmission, thin-film solar cells still can be brought the effect of covering slightly or absorbing sunshine, is not the area of filling very much part at some sunshine, and this might influence the growth of plant.

Edge is, the above-mentioned disappearance of inventor's thoughts can be improved, and therefore proposes a kind of reasonable in design and effectively improve the present invention of above-mentioned disappearance.

Summary of the invention

Main purpose of the present invention is to provide a kind of solar energy greenhouse, and it allows the abundant quantity of illumination enter in the greenhouse by reasonably thin-film solar cells component cloth design, makes plant growth rate still maintain preferable situation.

For reaching above-mentioned purpose, the invention provides a kind of solar energy greenhouse, comprising: an agent structure; One roof structure, it is arranged on this agent structure; And most thin-film solar cells groups, it is arranged on this roof structure, and the spacing of those thin-film solar cells groups is non-equalization.

Thus, solar energy greenhouse of the present invention has a little beneficial effects, is listed below: the thin-film solar cells group can absorb sunshine and produce electric energy, is supplied to other equipment of solar energy greenhouse to use then.In addition, according to the plant putting position in irradiation of sunlight angle or the solar energy greenhouse, and the design of decision thin-film solar cells component cloth, that is to utilize the spacing between the thin-film solar cells group be under the non-impartial principle, allow sunshine directly be transmitted to solar energy greenhouse inside by above-mentioned spacing, thereby the abundant quantity of illumination is provided, allows the growth rate of plant be improved.

For enabling further to understand feature of the present invention and technology contents, see also following relevant detailed description of the present invention and accompanying drawing, yet appended accompanying drawing only for reference with explanation usefulness, be not to be used for to the present invention's limitr in addition.

Description of drawings

Fig. 1 is the schematic perspective view of the solar energy greenhouse of first preferred embodiment of the present invention;

Fig. 2 is the floor map of the solar energy greenhouse of first preferred embodiment of the present invention;

Fig. 3 is another floor map of the solar energy greenhouse of first preferred embodiment of the present invention;

Fig. 4 is another floor map of the solar energy greenhouse of first preferred embodiment of the present invention;

Fig. 5 is the schematic perspective view of the solar energy greenhouse of second preferred embodiment of the present invention;

Fig. 6 is the schematic perspective view of the solar energy greenhouse of the 3rd preferred embodiment of the present invention;

Fig. 7 is the schematic perspective view of the solar energy greenhouse of the 4th preferred embodiment of the present invention;

Fig. 8 is the floor map of the solar energy greenhouse of the 5th preferred embodiment of the present invention.

The main element symbol description

1 solar energy greenhouse

2 plants

3 sunshines

10 agent structures

11 pedestals

12 supports

13 gripper shoes

20 roof structures

21 supports

22 light-passing boards

23 eaves

24 ridges

30 thin-film solar cells groups

31 thin-film solar cells

40 mobile devices

41 slide mechanisms

42 drivers

50 whirligigs

51 rotating mechanisms

52 drivers

60 heaters

70 temperature-sensitive stickers

80 humidity sensor

90 speculums

Embodiment

The present invention proposes a kind of solar energy greenhouse, and it has multiple preferred embodiment.See also Figure 1 and Figure 2, be first preferred embodiment of solar energy greenhouse 1 of the present invention.This solar energy greenhouse 1 comprises: an agent structure 10, a roof structure 20 and most thin-film solar cells groups 30.This wherein, the spacing between the thin-film solar cells group 30 is non-equalization.Spacing position between the thin-film solar cells group 30 can be observed light transmissive material (light-passing board 22 as shown in Figure 1).

In simple terms, in solar energy greenhouse 1 of the present invention, in order to provide enough quantities of illumination to as shown in Figure 2 plant 2, according to the irradiating angle of sunshine 3 or plant 2 putting positions in the solar energy greenhouse 1, and the distribution design of decision thin-film solar cells group 30, that is to utilize the spacing between the thin-film solar cells group 30 be under the non-impartial principle, allow sunshine 3 directly be transmitted to solar energy greenhouse 1 inside by above-mentioned spacing, and remedy the sunshine 3 that may be covered or absorb by thin-film solar cells group 30 parts, so that the abundant whole quantity of illumination to be provided.Under, the structure of solar energy greenhouse 1 itself is described in explanation earlier, and then the distribution design of explanation thin-film solar cells group 30.

Specifically, this agent structure 10 has most pedestals 11, most supports 12 and most gripper shoes 13.Pedestal 11 is fixed on the ground, and 12 on support is fixed on the pedestal 11, and gripper shoe 13 is fixed on the support 12.Those gripper shoes 13 are made by light-permeable or lighttight material.If the material of printing opacity, then the material of gripper shoe 13 can be glass or plastic cement etc.

By the support effect that agent structure 10 is provided, this roof structure 20 can be arranged on the agent structure 10.Roof structure 20 has most supports 21 and light-passing board 22, and support 21 is fixed on the support 12, and light-passing board 22 is fixed on the support 21 then, and the material of this light-passing board 22 can be glass or plastic cement etc.

Consider draining or row's snow, roof structure 20 all can be designed to skewed, and the lowest part of roof structure 20 is defined as eaves 23, and highest point is defined as a ridge 24.

Aforementioned body structure 10 and roof structure 20 define an enclosure space jointly, and utilize temperature, humidity control device that the condition that is fit to plant is provided in this enclosure space, allow user (peasant) plant in agent structure 10 inside 2 kinds of plants and solar energy greenhouse 1 inside.And the external form of agent structure 10 and roof structure 20 does not limit shown in drawing, can be other external forms, and for example roof structure 20 can be arcuation etc.

In addition, the light-passing board 22 of the gripper shoe 13 of agent structure 10 and roof structure 20 can be replaced by having flexible printing opacity cloth (figure does not show).

Those thin-film solar cells groups 30 are arranged on the roof structure 20, and in more detail, it is fixed on the end face of roof structure 20.Each thin-film solar cells group 30 has most thin-film solar cells (thin film solar cell) 31 respectively, and those thin-film solar cells 31 are arranged in one in line along the bearing of trend of the eaves 23 of roof structure 20 or ridge 24.The kind of thin-film solar cells 31 can be: non-crystalline silicon (amorphous silicon), microcrystal silicon (microcrystalline) or nanocrystal silicon (nano-crystalline) thin-film solar cells.In addition, each thin-film solar cells group 30 can directly be constituted by a strip, large-area thin-film solar cells 31.

Sunshine 3 as shown in Figure 2 can be absorbed by thin-film solar cells 31 and convert electric energy to, and utilize those thin-film solar cells 31 to have the characteristic of light-permeable, when allowing remaining sunshine 3 be radiated at thin-film solar cells 31, the sunshine 3 of part can penetrate thin-film solar cells 31 and enter solar energy greenhouse 1 inside (being the below of roof structure 20).

Under these circumstances, if roof structure 20 is all covered (figure does not show) by thin-film solar cells group 30, though can produce more electric energy, the sunshine 3 that enters to solar energy greenhouse 1 inside can be less.If during the quantity not sufficient that plant 2 is shone by sunshine 3, the growth rate of plant 2 can be influenced.

For overcoming this problem, roof structure 20 can not covered by thin-film solar cells group 30 all, and between those thin-film solar cells groups 30, keep spacing, so that allow sunshine 3 directly enter to solar energy greenhouse 1 inside by spacing, can do not absorbed or cover by thin-film solar cells 31, increase sunshine 3 be radiated at the amount on the plant 2.If further consider the irradiating angle of sunshine 3 and the putting position of plant 2, then the spacing between the thin-film solar cells group 30 is non-equalization, allows more sunshine 3 shine on plant 2.

What need pay special attention to is that the spacing between the thin-film solar cells group 30 can be observed light-passing board 22.In other words, viewed light-passing board 22 can be the position under thin-film solar cells group 30 (the particularly part of not covered or covering) by thin-film solar cells group 30, also light-passing board 22 can be set between thin-film solar cells group 30.Just, thin-film solar cells group 30 is arranged toward ridge 24 places by eaves 23 places alternately with light-passing board 22, and the relative two sides of light-passing board 22 contact a wherein side of a cluster film solar battery group 30 respectively.

Please consult Fig. 2 once more, more contiguous relatively eaves 23 of the sun and when being distal to ridge 24 under the illuminate condition of such sunshine 3, can't shine on the plant 2 near the sunshine 3 at ridge 24 places, but be radiated on the agent structure 10.Otherwise, can shine directly on the plant 2 near the sunshine 3 at eaves 23 places.In response to this kind situation, in order to allow whole sunshine 3 can fully shine plant 2, near the spacing of two adjacent thin-film solar cells groups 30 of eaves 23, should be greater than near the spacing of two adjacent thin-film solar cells groups 30 of ridge 24.

So, the sunshine 3 at close eaves 23 places has bigger chance directly to enter to solar energy greenhouse 1 inside by spacing, and shines on plant 2.See also shown in Figure 3, the more contiguous relatively ridge 24 of the sun and when being distal to eaves 23, under the illuminate condition of such sunshine 3, sunshine 3 will be by the upper left side irradiation of solar energy greenhouse 1.In the case, the sunshine 3 at close eaves 23 places can't shine on the plant 2, but is radiated on the agent structure 10, otherwise can shine directly on the plant 2 near the sunshine 3 at ridge 24 places.So, near the spacing of two adjacent thin-film solar cells groups 30 of ridge 24, should be greater than near the spacing of two adjacent thin-film solar cells groups 30 of eaves 23.See also shown in Figure 4ly, if more contiguous relatively eaves 23 of the sun and when being distal to ridge 24, and the putting position of the plant 2 in the solar energy greenhouse 1 is away from eaves 23 places, is difficult to shine plant 2 near the sunshine 3 at eaves 23 and ridge 24 places.In such cases, the spacing of the thin-film solar cells group 30 at close eaves 23 and ridge 24 places can be less, allows the sunshine 3 at eaves 23 and ridge 24 places shine on thin-film solar cells group 30 as far as possible.Under this kind situation, generally speaking thin-film solar cells group 30 spacings are random distribution, still, are to consider the position of sunshine 3 and plant 2 and distribute, to allow sunshine 3 be utilized fully.

Adjust the spacing of above-mentioned thin-film solar cells group 30 for convenience, can provide displacement mechanism to thin-film solar cells group 30, and adjust the distribution mode of the spacing of thin-film solar cells group 30 at random.

See also shown in Figure 5ly, the present invention then proposes second preferred embodiment of this solar energy greenhouse 1.The solar energy greenhouse 1 of second preferred embodiment and the difference of first preferred embodiment are: the solar energy greenhouse 1 of second preferred embodiment more comprises most mobile devices 40, and each thin-film solar cells group 30 is arranged on the roof structure 20 by a mobile device 40 respectively then.

Mobile device 40 has at least one slide mechanism 41 and at least one driver 42, and slide mechanism 41 is arranged on the end face of this roof structure 20, and driver 42 is connected in slide mechanism 41, and thin-film solar cells group 30 is arranged on the slide mechanism 41.Slide mechanism 41 produces straight-line mechanism for a kind of mechanism's part that allows, for example linear slide rail etc.And driver 42 provides a power to produce rectilinear motion by slide mechanism 41, and the straight-line amount of control slide mechanism 41 generations.Driver 42 can be stepper motor or servo motor etc.

By mobile device 40, thin-film solar cells group 30 can move at roof structure 20, changes the spacing between the thin-film solar cells group 30.When the irradiating angle of sunshine 3 changes because of time or area, or when the putting position of plant 2 changed, the spacing between the thin-film solar cells group 30 can be adjusted thereupon.So, sunshine 3 can be radiated on the plant 2 as best one can, and the sunshine 3 that can't shine plant 2 can be radiated on the thin-film solar cells group 30 as best one can.

See also shown in Figure 6ly, the present invention further proposes the 3rd preferred embodiment of this solar energy greenhouse 1.The solar energy greenhouse 1 of the 3rd preferred embodiment and the first preferred embodiment difference are: the solar energy greenhouse 1 of the 3rd preferred embodiment more comprises most whirligigs 50, and each thin-film solar cells group 30 is arranged on the roof structure 20 by a whirligig 50 respectively then.

Similar mobile device 40, whirligig 50 has at least one rotating mechanism 51 and at least one driver 52, rotating mechanism 51 is arranged on the roof structure 20, and driver 52 is connected in rotating mechanism 51, and thin-film solar cells group 30 is arranged on the rotating mechanism 51 again.Rotating mechanism 51 produces the mechanism that rotatablely moves for a kind of certain part of mechanism that allows, for example gear train etc.And driver 52 can provide a power to rotatablely move by rotating mechanism 51 generations, and the amount that rotatablely moves of control rotating mechanism 51 generations.Driver 52 can be stepper motor or servo motor.

By whirligig 50, thin-film solar cells group 30 can be adjusted its angle of inclination, and thin-film solar cells 31 can vertically be shone by sunshine 3 as best one can.By many known references as can be known, when sunshine 3 vertically shone in thin-film solar cells 31, thin-film solar cells 31 can produce more electric energy.So the solar energy greenhouse 1 of the 3rd embodiment more can allow thin-film solar cells 31 produce more electric energy except the advantage with first embodiment.

See also shown in Figure 7ly, the present invention further proposes the 4th preferred embodiment of this solar energy greenhouse 1.The solar energy greenhouse 1 of the 4th preferred embodiment and the first preferred embodiment difference are: the solar energy greenhouse 1 of the 4th preferred embodiment more comprises a heater 60, a temperature-sensitive sticker 70 and a humidity sensor 80.

This heater 60 is connected on the light-passing board 22 of the thin-film solar cells 31 of those thin-film solar cells groups 30 and roof structure 20, and heater 60 can produce heat energy, heating thin-film solar cells 31 and light-passing board 22.Heater 60 can be: heating wire and controller thereof etc.Temperature-sensitive sticker 70 and humidity sensor 80 are connected to heater 60, and temperature-sensitive sticker 70 measures the temperature of external environment, transmits a temperature signal then in heater 60; Humidity sensor 80 measures the humidity of external environment, transmits a moisture signal then in heater 60.

When solar energy greenhouse 1 is in cold, the snowy area of meeting,, can influences sunshine 3 and shine in thin-film solar cells 31 and plant 2 if snow is accumulated on thin-film solar cells 31 and the light-passing board 22.Can avoid the problem of this kind accumulated snow by heater 60, temperature-sensitive sticker 70 and humidity sensor 80.

When snowing, extraneous temperature can be lower than zero degree, and humidity can be higher.So when temperature-sensitive sticker 70 and humidity sensor 80 measure unusual temperature and humidity respectively, the signal of this temperature and humidity can be passed to heater 60.Heater 60 begins to start and produces heat energy, after snow is run into heater 60, can be melted into liquid and flows.So, snow can not be accumulated on thin-film solar cells 31 and the light-passing board 22 always, guarantees that sunshine 3 shines fully on thin-film solar cells 31 and plant 2.

Heater 60 also can only be connected to the thin-film solar cells 31 of thin-film solar cells group 30, or only is connected to the light-passing board 22 of roof structure 20, and does not limit to each sheet thin-film solar cells 31 or each sheet light-passing board 22 all is connected.

See also shown in Figure 8ly, the present invention further proposes the 5th preferred embodiment of solar energy greenhouse 1.The solar energy greenhouse 1 of the 5th preferred embodiment and the first preferred embodiment difference are: the solar energy greenhouse 1 of the 5th preferred embodiment more comprises most speculums 90, and those speculums 90 are arranged at the downside of roof structure 20 and the inboard of agent structure 10.

When sunshine 3 enters to solar energy greenhouse 1 inside, part sunshine 3 can shine in speculum 90, and sunshine 3 is reflected and changes the direction of advance of sunshine 3, makes sunshine 3 before plant 2 and then shine on plant 2.So, sunshine 3 has bigger chance to shine in plant 2.

Above-mentioned mentioned mobile device 40, whirligig 50, heater 60, temperature-sensitive sticker 70, humidity sensor 80 and speculum 90 can all or part ofly be used in the solar energy greenhouse 1 together, do not limit to independent use.In addition, the solar energy greenhouse 1 of above-mentioned preferred embodiment all can comprise a little lighting apparatus, sprinkler or air-conditioning equipment etc. (figure does not show).

Comprehensively above-mentioned, solar energy greenhouse 1 of the present invention can absorb sunshine 3 and convert electric energy to, is supplied to other facilities of solar energy greenhouse 1 to use, and reduces the dependence of solar energy greenhouse 1 for the electric energy in power plant, and then reduces the electricity charge that the user pays the power plant.In addition, the spacing of thin-film solar cells group 30 is to determine according to the putting position of the irradiating angle of sunshine 3 and plant 2, therefore the amount that is radiated at the sunshine 3 on thin-film solar cells group 30 and the plant 2 can reach preferable distribution, has improved the generated energy of thin-film solar cells group 30 and the growth rate of plant 2.

The above only is preferred embodiment of the present invention, non-ly is intended to limit to scope of patent protection of the present invention, so the equivalence of using specification of the present invention and accompanying drawing content to do such as changes, all in like manner all is contained in the scope of the present invention, closes and gives Chen Ming.

Claims (10)

1. a solar energy greenhouse is characterized in that, comprising:

Agent structure;

Roof structure, it is arranged on this agent structure; And

A plurality of thin-film solar cells groups, it is arranged on this roof structure, and spacing between those thin-film solar cells groups is non-equalization;

Wherein the spacing between those thin-film solar cells groups can be observed a light transmissive material, enters this solar energy greenhouse to allow this light transmissive material of sunshine transmission.

2. solar energy greenhouse as claimed in claim 1, it is characterized in that, this roof structure has eaves and a ridge, and the spacing of two adjacent these thin-film solar cells groups of close these eaves is greater than the spacing of two adjacent these thin-film solar cells groups of close this ridge.

3. solar energy greenhouse as claimed in claim 1, it is characterized in that, this roof structure has eaves and a ridge, and the spacing of two adjacent these thin-film solar cells groups of close this ridge is greater than the spacing of two adjacent these thin-film solar cells groups of close these eaves.

4. solar energy greenhouse as claimed in claim 1 is characterized in that, the spacing of those thin-film solar cells groups is a random distribution.

5. solar energy greenhouse as claimed in claim 1 is characterized in that, this thin-film solar cells group is arranged on this roof structure by a mobile device.

6. solar energy greenhouse as claimed in claim 1 is characterized in that, this thin-film solar cells group is arranged on this roof structure by a whirligig.

7. solar energy greenhouse as claimed in claim 1 is characterized in that, also comprises a heater, and this heater is connected in those thin-film solar cells groups or this roof structure.

8. solar energy greenhouse as claimed in claim 7 is characterized in that, also comprises a temperature-sensitive sticker, and this temperature-sensitive sticker is connected in this heater, and this temperature-sensitive sticker transmits a temperature signal in this heater.

9. solar energy greenhouse as claimed in claim 7 is characterized in that, also comprises a humidity sensor, and this humidity sensor is connected in this heater, and this humidity sensor transmits a moisture signal in this heater.

10. solar energy greenhouse as claimed in claim 1 is characterized in that, also comprises most speculums, and those speculums are arranged at the downside of this roof structure or the inboard of this agent structure.

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