CN207383042U - A kind of Ecological Greenhouse and Farmland Structures - Google Patents

Abstract

The utility model is related to agricultural technology fields, provide a kind of Ecological Greenhouse, including roof insulating, the first storage soil box, the first heat exchange mechanisms, methane-generating pit, the second heat exchange mechanisms and solar heating system, first storage soil box is arranged in roof insulating, solar heating system is connected with the first heat exchange mechanisms and the second heat exchange mechanisms, first storage soil box is arranged at the top of the first heat exchange mechanisms, and the second heat exchange mechanisms set the outer wall with methane-generating pit.Which solve in north of china in winter field can not Planting Crops the problem of, and methane-generating pit generation is fermented using animal wastes, solve thes problems, such as that environment is polluted in animal wastes.The utility model additionally provides a kind of Farmland Structures, including Ecological Greenhouse provided by the utility model, can realize the plantation of four seasons crops.

Description

A kind of Ecological Greenhouse and Farmland Structures

Technical field

The utility model is related to agricultural technology field, in particular to a kind of Ecological Greenhouse and Farmland Structures.

Background technology

In recent years, with the fast development of scale animal and poultry cultivation industry, the yield of poultry excreta and other discarded objects It is quick therewith to increase, cause environmental pollution, make that livestock and poultry breeding industry develops and the contradiction of environmental pollution is increasingly shown especially, itself also into For the restraining factors of livestock and poultry breeding industry sustainable development.Pollution from livestock and poultry has become currently dirty after industrial pollution, house refuse The third-largest pollution sources after dye.

How livestock and poultry farm fecal sewage category high concentrated organic wastewater containing abundant organic substance, utilizes these organic wastes Water develops and utilizes natural resources as urgent problem to be solved with realizing reasonable duration.

And early there is the precedent that animal wastes are used for fermentation methane in China.But the influence of the Northeast's climate, our province mesh Before there is no large and medium-sized biogas engineering, even if family with small-sized methane development there is also factor of created gase is low, utilization rate is low, raw material decomposes The problem of rate is low, biogas usage time is short, comprehensive benefit is poor.Biogas utilization rate about 50% or so, raw material decomposes rate less than 30%, The biogas utilization time only has 4 months.Bacterial fermentation temperature is generally not less than 10 DEG C, not more than 55 DEG C in methane-generating pit.Winter Than relatively low, raw material decomposes rate is low for cold very long temperature, ground temperature, and there are factor of created gase is low, utilization rate is low, biogas uses for the production of biogas The phenomenon that the problems such as comprehensive benefit is poor is even present with bursting by freezing methane-generating pit in winter.This situation limits cold to a certain extent The development of cryogenic region biogas utilization technology.

Utility model content

The utility model provides a kind of Ecological Greenhouse, it is intended to improve the Animal manure loss environment of livestock and poultry farm generation The problem of can not realizing year-round operation with existing greenhouse high energy consumption or existing greenhouse.

The utility model, which also provides, sees a kind of Farmland Structures, it is intended to improve what the existing farmland of northern area can not work in the four seasons Problem.

The utility model is realized in this way：

A kind of Ecological Greenhouse, including roof insulating, first storage soil box, the first heat exchange mechanisms, methane-generating pit, the second heat exchange mechanisms and Solar heating system, the first storage soil box are arranged in roof insulating, and solar heating system is changed with the first heat exchange mechanisms and second Heat engine structure connects, and the first storage soil box is arranged at the top of the first heat exchange mechanisms, and the second heat exchange mechanisms set the outer wall with methane-generating pit.

Further, in the utility model preferred embodiment, Ecological Greenhouse further includes the second storage soil box and elevator Structure, the second storage soil box are arranged at the lower section of the first heat exchange mechanisms, and the first storage soil box and the second storage soil box are connected with elevating mechanism.

Further, in the utility model preferred embodiment, elevating mechanism includes the first traveller, the second traveller, the One litter, the second litter and the slide for being arranged at ground, one end of the first traveller and one end of the second traveller may be contained within sliding On rail, one end of the first litter is slidably connected with the first traveller, and the other end of the first litter is connected with the first storage soil box；Second slides One end of pole is slidably connected with the second traveller, and the other end of the second litter is connected with the second storage soil box.

Further, in the utility model preferred embodiment, the first storage soil box includes Soil Trough and water storage disk, soil Slot is arranged at the top of water storage disk, and the bottom of Soil Trough is provided with drain hole, and the top of water storage disk is provided with spout hole.

Further, in the utility model preferred embodiment, solar heating system is included for heat cycles water Solar heat-collection plate, for heat is conveyed for the first heat exchange mechanisms and the second heat exchange mechanisms heat storage can, for first to be changed Heat engine structure and the recirculated water of the second heat exchange mechanisms output are promoted to the circulating pump of solar heat-collection plate, one end of solar heat-collection plate It is connected with circulating pump, the other end of solar heat-collection plate is connected with heat storage can.

Further, in the utility model preferred embodiment, Ecological Greenhouse further includes to be the first heat exchange mechanisms With the concurrent heating pump of the recirculated water additional heat of the second heat exchange mechanisms discharge, the first heat exchange mechanisms and the second heat exchange mechanisms are and concurrent heating Pump connection, concurrent heating pump are connected with circulating pump.

Further, in the utility model preferred embodiment, Ecological Greenhouse further include interconnection air collector and For the generator powered for Ecological Greenhouse, air collector is connected with methane-generating pit.

Further, in the utility model preferred embodiment, Ecological Greenhouse further include interconnection air collector and Biogas lamp, biogas lamp are arranged in roof insulating, and positioned at the top of the first storage soil box, air collector is connected with methane-generating pit.

Further, in the utility model preferred embodiment, roof insulating includes insulated wall and double-layer heat insulation film, heat preservation One end of wall is arranged at ground, and the other end of insulated wall is connected with double-layer heat insulation film.

A kind of Farmland Structures, including above-mentioned Ecological Greenhouse.

The beneficial effects of the utility model are：The Ecological Greenhouse that the utility model is obtained by above-mentioned design, in use, by It cooperates in roof insulating, the first storage soil box, the first heat exchange mechanisms, methane-generating pit, the second heat exchange mechanisms and solar heating system Effect enables to the soil in cold winter greenhouse that can obtain heat and adapts to crop growth, and methane-generating pit obtains Enough heat fermentations generate biogas so that Ecological Greenhouse uses, solve in north of china in winter field can not Planting Crops ask Topic, and methane-generating pit generation is fermented using animal wastes, solve thes problems, such as that environment is polluted in animal wastes.This practicality The Farmland Structures of new offer can realize the plantation of four seasons crops.

Description of the drawings

It, below will be to required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it should be understood that and the following drawings illustrates only some embodiments of the utility model, therefore not The restriction to scope is should be considered as, for those of ordinary skill in the art, without creative efforts, It can also be obtained according to these attached drawings other relevant attached drawings.

Fig. 1 is the structure diagram for the Ecological Greenhouse that the utility model first embodiment provides；

Fig. 2 is the structure diagram that the first storage soil box, the second storage soil box cooperate with elevating mechanism in Fig. 1；

Fig. 3 is the structure diagram of the longitudinal section of the first storage soil box in Fig. 1；

Fig. 4 is the structure diagram for the Ecological Greenhouse that the utility model second embodiment provides.

Icon：100- Ecological Greenhouses；110- roof insulatings；111- insulated walls；112- double-layer heat insulation films；121- first stores up soil Slot；122- second stores up soil box；124- Soil Troughs；125- water storage disks；126- drain holes；127- spout holes；The first heat exchangers of 130- Structure；140- methane-generating pits；141- air collectors；The second heat exchange mechanisms of 150-；160- solar heating systems；161- solar energy heatings Plate；162- heat storage cans；163- circulating pumps；164- concurrent heatings pump；170- elevating mechanisms；The first travellers of 171-；The first litter of 172-； The second travellers of 173-；The second litter of 174-；175- slides；180- biogas lamps；200- Ecological Greenhouses；210- roof insulatings；240- natural ponds Gas pond；241- air collectors；280- generators；281- headlamps.

Specific embodiment

To make the purpose, technical scheme and advantage of the utility model embodiment clearer, below in conjunction with this practicality The technical solution in the utility model embodiment is clearly and completely described in attached drawing in new embodiment, shows So, described embodiment is the embodiment of a part of embodiment of the utility model rather than whole.Based on this practicality Embodiment in new, those of ordinary skill in the art are obtained every other without creative efforts Embodiment shall fall within the protection scope of the present invention.Therefore, the implementation to the utility model provided in the accompanying drawings below The detailed description of mode is not intended to limit claimed the scope of the utility model, but is merely representative of the utility model Selected embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative labor The every other embodiment obtained under the premise of dynamic, shall fall within the protection scope of the present invention.

In the description of the utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", The orientation or position relationship of the instructions such as " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, be only for Convenient for description the utility model and simplify description rather than instruction or imply signified equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral；Can be Mechanical connection or electrical connection；It can be directly connected, can also be indirectly connected by intermediary, can be two The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands concrete meaning of the above-mentioned term in the utility model.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " can be contacted directly including the first and second features, it is not to contact directly but lead to that can also include the first and second features Cross the other characterisation contact between them.Moreover, fisrt feature second feature " on ", " top " and " above " include the One feature is directly over second feature and oblique upper or is merely representative of fisrt feature level height higher than second feature.First is special Sign second feature " under ", " lower section " and " below " including fisrt feature immediately below second feature and obliquely downward or only Represent that fisrt feature level height is less than second feature.

First embodiment

Referring to the drawings shown in 1, a kind of Ecological Greenhouse 100 is present embodiments provided, soil is stored up including roof insulating 110, first Slot 121, the first heat exchange mechanisms 130, methane-generating pit 140, the second heat exchange mechanisms 150 and solar heating system 160, the first storage soil box 121 are arranged in roof insulating 110, and solar heating system 160 is connected with the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150, And it conveys heat for the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150.First storage soil box 121 is arranged at the first heat exchanger The top of structure 130, the second heat exchange mechanisms 150 are arranged at the outer wall of methane-generating pit 140.It should be noted that the quantity of methane-generating pit 140 It can be calculated with volume according to the heat needed for the area and plant growth that roof insulating 110 is covered.

Since the winter temperature in the north is very low so that field can not use due to low temperature, meanwhile, natural pond at low ambient temperatures Gas pond can not also carry out fermentation work.But though northern temperature is low, the winter quantity of illumination is very sufficient, therefore, utilizes solar energy Heating system 160 heats recirculated water, and heat is conveyed to the first heat exchange mechanisms 130 and is supplied in the first storage soil box 121 Soil heating, heat be conveyed to the second heat exchange mechanisms 150 supply methane-generating pit 140 and heat, existed with the soil ensured in greenhouse Winter can have suitable temperature can planting plants, while ensure methane-generating pit 140 have suitable temperature to animal wastes into Row fermentation.The design not only enables animal wastes to be recycled, environmentally protective, additionally it is possible to solve north of china in winter field It is interior can not Planting Crops the problem of.

Further, Ecological Greenhouse 100 further includes the second storage soil box 122 and elevating mechanism 170, and the second storage soil box 122 is set The lower section of the first heat exchange mechanisms 130 is placed in, the first storage soil box 121 and second stores up soil box 122 and is connected with elevating mechanism 170.It rises Descending mechanism 170 can control the lifting of the first storage soil box 121 and the second storage soil box 122, can replace the first storage soil box 121 and the The position of two storage soil boxs 122 realizes that soil is had holidays by turns in two storage soil boxs up and down.

Further, attached drawing 2 is refer to, elevating mechanism 170 includes the first traveller 171, the second traveller 173, the first litter 172nd, the second litter 174 and the slide 175 on ground is arranged at, one end of one end of the first traveller 171 and the second traveller 173 is equal Be arranged on slide 175, one end of the first litter 172 is slidably connected with the first traveller 171, the other end of the first litter 172 with First storage soil box 121 connects；One end of second litter 174 is slidably connected with the second traveller 173, the other end of the second litter 174 It is connected with the second storage soil box 122.

Elevating mechanism 170 is Electronic control, and when initial, the first storage soil box 121 is arranged at the upper of the first heat exchange mechanisms 130 Side, after connecting the power supply of elevating mechanism 170, the first traveller 171 stores up soil box 121 on slide 175 to away from second with first The direction of traveller 173 is slided, when the bottom of the first storage soil box 121 in the projection on ground and the first heat exchange mechanisms 130 on ground When projection is without overlapping, the first litter 172 slides into ground downwardly together with the first storage soil box 121 on the first traveller 171, most The first traveller 171 is slided to close to the direction of the second traveller 173 afterwards, until the position of the first storage soil box 121 and the second storage soil box Position before 122 movements stops when overlapping；In this used time, the second traveller 173 with second storage soil box 122 on slide 175 to Direction away from the first traveller 171 is slided, when the second storage soil box 122 in the projection on ground and the first heat exchange mechanisms 130 on ground On projection without overlapping when, the second litter 174 is with the second storage soil box 122 upward sliding on the second traveller 173 together, when the When being just above the first heat exchange mechanisms 130, upglide motion stops for the bottoms of two storage soil boxs 122, and the second traveller 173 is to close at this time The direction of first traveller 171 is slided, until the position before the position of the second storage soil box 122 is moved with the first storage soil box 121 overlaps When stop.Above-mentioned motion process completes the place-exchange process completion that then the first storage soil box 121 and second stores up soil box 122, reaches The effect that the soil in the first storage soil box 121 and the second storage soil box 122 is made to have holidays by turns.After place-exchange, the first heat exchange mechanisms 130 are right Second storage soil box 122 is heated.

Further, refer to shown in attached drawing 3, the first storage soil box 121 includes Soil Trough 124 and water storage disk 125, Soil Trough 124 are arranged at the top of water storage disk 125,124 depth 300mm of Soil Trough, and bottom is provided with drain hole 126, water storage disk 125 it is upper Portion is provided with spout hole 127.When the plant of plantation in the first storage soil box 121 is filled in growth period by automatic irrigation system When irrigating, the excess moisture for immersing Soil Trough 124 is then discharged from drain hole 126, when the hypervolia in water storage disk 125 then from excessive Discharge orifice 127 is discharged.Water storage disk 125 is set simultaneously, makes to keep certain water in water storage disk 125, is imitated since water conducts heat than soil Fruit is good, which, which also has, can be ensured that heat transfer efficiency higher of first heat exchange mechanisms 130 to the first storage soil box 121.It needs to illustrate , second storage soil box 122 with first store up soil box 121 structure it is identical.

Further, referring once again to shown in attached drawing 1, solar heating system 160 is included for heat cycles water too It is positive can collecting plate 161, for conveying the heat storage can 162 of heat for the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150, be used for The recirculated water that first heat exchange mechanisms 130 and the second heat exchange mechanisms 150 export is promoted to the circulating pump of solar heat-collection plate 161 163, one end of solar heat-collection plate 161 is connected with circulating pump 163, and the other end and the heat storage can 162 of solar heat-collection plate 161 connect It connects.

Circulating pump 163 carries the circulating water heating after cooling that the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150 export Solar heat-collection plate 161 is risen to, is heated through solar heat-collection plate 161 under the action of solar energy, and is delivered in heat storage can 162 Storage, and the hot water in heat storage can 162 is then delivered to again in the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150.Using Solar energy heating, it is more environmentally friendly without remaining energy consumption.

Further, Ecological Greenhouse 100 further includes to discharge for the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150 Recirculated water additional heat concurrent heating pump 164, the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150 connect with concurrent heating pump 164 It connects, concurrent heating pump 164 is connected with circulating pump 163.In the case that a certain day illumination is bad, solar heat-collection plate 161 can not be to follow Ring water provides sufficient heat, then starts concurrent heating pump 164 and followed for what the first heat exchange mechanisms 130 and the second heat exchange mechanisms 150 were discharged Ring water is heated, so that the heat that recirculated water obtains makes methane-generating pit 140 and first store up soil box 121 second enough stores up soil box 122 normal works.

It should be noted that in the other embodiment of the utility model, concurrent heating pump 164 can also be arranged at circulating pump It between 163 and solar heat-collection plate 161 or is arranged between solar heat-collection plate 161 and heat storage can 162, equally with upper State effect.

Further, Ecological Greenhouse 100 further includes the air collector 141 of interconnection and biogas lamp 180, and biogas lamp 180 is set It is placed in roof insulating 110, and positioned at the top of the first storage soil box 121, air collector 141 is connected with methane-generating pit 140.Pass through methane-generating pit For 180 night of biogas lamp to being illuminated and heating up in roof insulating 110, which can recycle 140 biogas generated Resource reduces the cost of greenhouse cultivation.

Further, methane-generating pit 140 is built by steel fiber reinforced concrete, is embedded in the second heat exchange mechanisms 150, the second heat exchange 150 peripheral hardware heat insulating thermal preserving board of mechanism prevents temperature loss in methane-generating pit 140.

Further, roof insulating 110 includes insulated wall 111 and double-layer heat insulation film 112, and one end of insulated wall 111 is arranged at Ground, the other end of insulated wall 111 are connected with double-layer heat insulation film 112.Insulated wall 111 and double-layer heat insulation film 112 are set are in order to Completely cut off 110 inside of roof insulating and external heat exchange as far as possible, reduce thermal loss, it is ensured that plant in the work in roof insulating 110 Object being capable of healthy growth.

The design of more than 140 biogas lamp 180 of methane-generating pit, such as:1 DEG C, which is raised, per cubic metres of air temperature takes around 1 kilojoule Heat.10 DEG C are raised to temperature in the roof insulating 110 by 210 cubic metres, in the case of without considering heat dissipation, needs to burn Biogas:210 × 1 × 10 23000=0.1 cubic metres of ÷.Since 110 heat-insulating property of roof insulating is not high, most of heat scatters and disappears very Soon.Every 10 square metres of areas are correspondingly arranged one biogas of a methane cooker or every 50 square metres of settings in usual roof insulating 110 Lamp 180, the heat that is distributed using stove and lamp are kept the temperature.

Second embodiment

The technique effect and first of the Ecological Greenhouse 200 that the utility model embodiment is provided, realization principle and generation Embodiment is identical, and to briefly describe, the present embodiment does not refer to part, can refer to corresponding contents in first embodiment.

Ecological Greenhouse 200 includes the air collector 241 being connected with each other and the generator 280 for powering for Ecological Greenhouse 200, Air collector 241 is connected with methane-generating pit 240.Headlamp 281 is provided in roof insulating 210, headlamp 281 is connected with generator 280, I.e. generator 280 is generated electricity using the biogas in methane-generating pit 240, and the electricity of gained is used for 281 night of headlamp to protecting The illumination and heating of warm canopy 210.In addition, generator 280 can be additionally used in the power supply to 200 other component of Ecological Greenhouse.It should Heat recovery is realized in design, effectively prevents energy waste, and the capital cost for working normally maintenance Ecological Greenhouse 200 It reduces.

In conclusion Ecological Greenhouse provided by the utility model due to roof insulating, first storage soil box, the first heat exchange mechanisms, Methane-generating pit, the second heat exchange mechanisms and solar heating system mutual cooperation effect, enable in cold winter greenhouse Soil can obtain heat and adapt to crop growth, and methane-generating pit obtains enough heat fermentations and generates biogas for Ecological Greenhouse Use, solve the problems, such as in north of china in winter field can not Planting Crops, and methane-generating pit generates and utilizes animal wastes progress Fermentation solve thes problems, such as that environment is polluted in animal wastes；First storage soil box and the second storage soil box and elevating mechanism are set So that the first storage soil box and the second storage soil box take turns to operate, realizing the crops having holidays by turns to ensure plantation of soil can grow meter It obtains more preferably；The structure design of first storage soil box and the second storage soil box can ensure to have sufficient moisture in Soil Trough and will not send out again The phenomenon that raw excess moisture, while there is sufficient water to also ensure the first storage soil box or the second storage soil box and first in water storage disk The heat transfer efficiency higher of warmware；The design of concurrent heating pump can ensure to be still able to supplement foot for recirculated water in illumination deficiency one day Enough heats cause methane-generating pit and first stores up soil box or the second storage soil box normal work；The company of biogas lamp or generator and methane-generating pit Biogas can then be aoxidized the energy generated and be converted to electric energy by the design connect to be used for Ecological Greenhouse, not only environmentally friendly but also can drop The maintenance cost of low Ecological Greenhouse.

The utility model additionally provides a kind of Farmland Structures, including Ecological Greenhouse provided by the utility model, exists immediately The extremely low north of winter temperature can also realize the greenhouse gardening to crops, and input cost is low.

Above description is merely a prefered embodiment of the utility model, is not intended to limit the utility model, for For those skilled in the art, various modifications and changes may be made to the present invention.It is all in the spiritual and former of the utility model Within then, any modifications, equivalent replacements and improvements are made should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of Ecological Greenhouse, which is characterized in that including roof insulating, the first storage soil box, the first heat exchange mechanisms, methane-generating pit, second Heat exchange mechanisms and solar heating system, the first storage soil box are arranged in the roof insulating, the solar heating system It is connected with first heat exchange mechanisms and second heat exchange mechanisms, the first storage soil box is arranged at first heat exchange mechanisms Top, second heat exchange mechanisms set the outer wall with the methane-generating pit.

2. Ecological Greenhouse according to claim 1, which is characterized in that the Ecological Greenhouse further includes the second storage soil box and liter Descending mechanism, the second storage soil box are arranged at the lower section of first heat exchange mechanisms, the first storage soil box and second storage Soil box is connected with the elevating mechanism.

3. Ecological Greenhouse according to claim 2, which is characterized in that the elevating mechanism includes the first traveller, the second cunning The one of column, the first litter, the second litter and the slide for being arranged at ground, one end of first traveller and second traveller End may be contained on the slide, and one end of first litter is slidably connected with first traveller, first litter The other end is connected with the described first storage soil box；One end of second litter is slidably connected with second traveller, and described second The other end of litter is connected with the described second storage soil box.

4. Ecological Greenhouse according to claim 1, which is characterized in that the first storage soil box includes Soil Trough and water storage Disk, the Soil Trough are arranged at the top of the water storage disk, and the bottom of the Soil Trough is provided with drain hole, the water storage disk Top is provided with spout hole.

5. Ecological Greenhouse according to claim 1, which is characterized in that the solar heating system includes following for heating The solar heat-collection plate of ring water, for conveyed for first heat exchange mechanisms and second heat exchange mechanisms heat storage can of heat, For the recirculated water of first heat exchange mechanisms and second heat exchange mechanisms output to be promoted to the solar heat-collection plate Circulating pump, one end of the solar heat-collection plate are connected with circulating pump, the other end of the solar heat-collection plate and the heat accumulation Tank connects.

6. Ecological Greenhouse according to claim 5, which is characterized in that the Ecological Greenhouse further includes to be described first The concurrent heating pump of heat exchange mechanisms and the recirculated water additional heat of second heat exchange mechanisms discharge, first heat exchange mechanisms and described Second heat exchange mechanisms are pumped with the concurrent heating and connected, and the concurrent heating pump is connected with the circulating pump.

7. Ecological Greenhouse according to claim 1, which is characterized in that the Ecological Greenhouse further includes the gas collection of interconnection Tank and the generator for powering for the Ecological Greenhouse, the air collector are connected with the methane-generating pit.

8. Ecological Greenhouse according to claim 1, which is characterized in that the Ecological Greenhouse further includes the gas collection of interconnection Tank and biogas lamp, the biogas lamp are arranged in the roof insulating, and positioned at the top of the described first storage soil box, the air collector It is connected with the methane-generating pit.

9. Ecological Greenhouse according to claim 1, which is characterized in that the roof insulating includes insulated wall and double-layer heat insulation Film, one end of the insulated wall are arranged at ground, and the other end of the insulated wall is connected with double-layer heat insulation film.

10. a kind of Farmland Structures, which is characterized in that including such as claim 1-9 any one of them Ecological Greenhouse.