CN202425377U - Intelligent ecological greenhouse system based on solar light supplementing and geothermal heat preservation - Google Patents

Intelligent ecological greenhouse system based on solar light supplementing and geothermal heat preservation Download PDF

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Publication number
CN202425377U
CN202425377U CN2011204650956U CN201120465095U CN202425377U CN 202425377 U CN202425377 U CN 202425377U CN 2011204650956 U CN2011204650956 U CN 2011204650956U CN 201120465095 U CN201120465095 U CN 201120465095U CN 202425377 U CN202425377 U CN 202425377U
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China
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green house
induction
light
light filling
electric power
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CN2011204650956U
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Chinese (zh)
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王干
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王干
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/25Greenhouse technology, e.g. cooling systems therefor
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/12Technologies relating to agriculture, livestock or agroalimentary industries using renewable energies, e.g. solar water pumping
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/14Measures for saving energy, e.g. in green houses

Abstract

The utility model discloses an intelligent ecological greenhouse system based on light supplementing and geothermal heat preservation, which comprises a greenhouse, a water storage and feeding device, a fertilizer apparatus, a solar light collecting device, an optical fiber receiver, an optical fiber beam splitter, light supplementing lamps, a photovoltaic power generation device, a geothermal heat pump, hot water radiating fins, a water curtain cooler, a CO2 generation device, a constant-flow ventilating window, a temperature induction device, a humidity induction device, a photosensitive induction device, a video monitor, a CO2 induction device, a rainwater collecting tank, a storage battery, a power controller, an inverter, a control main unit, a monitor, a mains supply and the like. The electric power of a photovoltaic assembly or the electric power of the mains supply is respectively supplied to the geothermal heat pump and the control main unit as well as a water feeding pump and the light supplementing lamps, and the control main unit respectively receives different signals of the temperature induction device, the humidity induction device, the photosensitive induction device and the CO2 induction device, controls respective terminal devices of the temperature induction device, the humidity induction device, the photosensitive induction device and the CO2 induction device to supplement light, preserve heat, watering, fertilizing and adjust CO2, and remotely monitors the respective terminal devices of the temperature induction device, the humidity induction device, the photosensitive induction device and the CO2 induction device.

Description

A kind of intelligent ecological green house system based on solar energy light filling and underground heat insulation
Technical field
The utility model belongs to a kind of plant greenhouse booth, is specifically related to a kind of intelligent ecological green house system based on solar energy light filling and underground heat insulation.
Background technology
China's green house large tracts of land has been promoted, and the development booth vegetable is the important means of building resource-conserving, environmentally friendly agricultural.It is the bottleneck of restriction agricultural development that agricultural resources shortage and production environment worsen; The development booth vegetable can significantly reduce the arable land usable floor area, reduce water resource, the usage amount of chemicals medicament and the energy-output ratio of unit output; Improve the service efficiency of agricultural production comprehensively, realize the environmental friendliness and the resources conservation of agricultural production.Booth vegetable makes full use of natural environment and plant potential; Have the higher market competitiveness and the ability of resisting the market risk; Be the industry of high efficiency in the plant husbandry and the novel industry in the rural economic development; Also being the another channel that current vast farmers continues to increase income, is peasant's " cash cow ", " fund source ".The supply of quality vegetables and a sign that is consumed in say so to a certain extent measurement living standard of urban and rural population quality and living standard; Booth vegetable can be through the regulation and control production environment; Improve agricultural output and quality, guarantee the fresh and alive degree and annual lasting supply of agricultural product.But most of vegetables need suitable temperature, moisture, illumination, air and fertilizer, receive the restriction of natural conditions, are difficult to solve plant physiological condition under field conditions (factors) in the green house plantation now; Be difficult to reach needs, the especially winter of crop normal growth in the canopy, a little less than the illumination, temperature is low; It is poor to ventilate, and carbonic acid gas lacks, and so not only can not carry out comparatively vigorous photosynthesis; And transpiration also reduces, and plant strain growth is slim and frahile, influences the yield and quality of vegetables.Like tomato pollen hypofunction, sterile under the low light condition; Short inflorescence shape appears in eggplant, the influence pollination; The imbalance of plant such as sponge gourd and watermelon endotrophic causes fruit drop etc.The artificial light filling technology of green house is also arranged, and is to adopt the LED lamp as plant light filling light source like patent publication No. CN201636686U technology, because the spectrum of artificial light source can not be continuous as solar spectral; The spectrum of photosynthesis of plant is continuous spectrum, and every kind of spectrum all plays a role in photosynthesis, simultaneously; The illuminance that photosynthesis of plant needs has certain threshold values, if the illumination of light filling does not reach, do not have promote photosynthetic; And the illumination of LED light filling lamp is limited; The artificial light source light filling all carries out so also having upset the physiological law of plant growing to the crop light filling at night, also can influence plant growth; Artificial light filling cost is high, and effect is undesirable.So how to solve the optimum growing condition of the plant growings such as proper temperature, illumination, moisture, air, fertilizer of green house, the yield and quality that improves booth vegetable is a green house plantation problem demanding prompt solution.
Summary of the invention
In order to solve the problem of crop illumination deficiency in the booth, water deficient, air active ingredient deficiency.The utility model provides a kind of intelligence control system, and it can be mended photograph automatically according to environmental aspect in the canopy, water, regulates air and temperature.Make canopy temperature, illumination, moisture, air etc. reach the optimum state of plant growth, can also carry out manual work " pantry " according to the Different Crop demand simultaneously, to reach the optimum growh demand of this kind crop.
The utility model is the technical scheme that its purpose of realization is taked: a kind of intelligent ecological green house system based on the insulation of solar energy light filling and underground heat comprises: the greenhouse canopy, hold, waterworks fertilizer apparatus; Solar-energy light collector, fiber optic receiver, light-conductive optic fibre, optical fibre light splitting device; The light filling lamp, solar energy photovoltaic generator, terrestrial heat pump; The hot-water radiator, cascade cooler, CO 2Generating means, constant current vent window, temperature sensing device, humidity induction device, light-inductive device, video monitoring apparatus, CO 2Induction installation, rainwater collecting pit, small head well, accumulator, power-supply controller of electric, inverter, main control system, monitor, feed pump, little spray shower nozzle, irrigate band, civil power electric power.The power output end that it is characterized in that solar photovoltaic assembly links to each other with accumulator; The electric power that solar components sends at first is stored in the accumulator; Accumulator and civil power electric power link to each other with power-supply controller of electric, and controller has the output of two-way electric power, and one road electric power outputs to inverter; Inverter links to each other with the power input end of terrestrial heat pump and main control system, gives the power supply of terrestrial heat pump and main control system; Another road electric power is that pump links to each other with the light filling lamp with giving of waterworks, and light-operated module, temperature control module, humidity control module, CO are arranged respectively in the main control system 2Control module, each control module receives temperature sensing device respectively, humidity induction device, light-inductive device, CO 2The various signals of induction installation, control terminal part separately, main control system are also gathered the interior realtime graphic of green house that video camera is taken, and export watch-dog to, and whole green house situation is monitored in real time.
Said green house comprises arch booth and shape greenhouse, room, and 2.0-10 rice is highly arranged, and there is metallic framework green house inside; Support light-transmissive film or transparent glass; The persevering circulation air regulator in the side of green house or two ends can carry out the indoor and outdoor gas exchange, on the ground of crop-plantings such as vegetables in the greenhouse; Also can in the greenhouse, carry out solid growth, crop-plantings such as vegetables on the frame of layering.
Saidly hold, waterworks are by rainwater collecting pit or small head well, feed pump, feed pipe, little spray shower nozzle and irrigate band are formed.Said rainwater collecting pit or small head well be at below ground, can be in big grid, and also can be outside big grid; The oral siphon of feed pump be deep in the cistern or osculum well water in, the outlet pipe mouth of pipe of feed pump has many groups, links to each other with little spray shower nozzle of moisture or irrigate band respectively; When the green house crop need be watered; Feed pump starts, and the current after the supercharging, directly water or carry out drip irrigation to the spraying of crops such as vegetables to little spray shower nozzle or irrigate band through water-supply-pipe.The water outlet pipeline of terrestrial heat pump links to each other with the water outlet pipeline of feed pump, and geothermal water also can be to the irrigation of watering of crop in the green house.Wet quick inductor is arranged in the furrow ditch, send signal according to the humidity situation of furrow ditch soil, through the host computer control pump working.Also can manually feed water.The motor of feed pump is linked to each other with power-supply controller of electric by lead.
Said light compensating apparatus is by solar-energy light collector, optical fiber light aid or light filling lamp; Daytime, light filling mainly was made up of solar-energy light collector, optical fiber light aid light filling system; The optical fiber light aid is made up of light-conductive optic fibre and optical fibre light splitting device, and solar concentrator is placed on the outside, greenhouse, assembles high-strength sunshine; Transfer to the optical fibre light splitting device by light-conductive optic fibre, the optical fibre light splitting device is directly given the crop light filling; Evening, light filling carried out light filling by the light filling lamp; The light filling lamp is made up of the extraordinary emitting led or gas luminescence light source of luminous intensity; Illuminance behind the light filling in the green house is 500-5000LUX, and the light-inductive device sends signal according to the power of ambient light, through main control system control light filling.
Said attemperating unit is made of terrestrial heat pump, hot-water radiator and constant current vent window, cascade cooler; Winter, terrestrial heat pump extracted the geothermal water below 20 meters in the time of need heating, and hot water circulates through the hot-water radiator; Heat radiation in warmhouse booth, is kept temperature suitable in the warmhouse booth; When summer temp is higher; Open constant current vent window and cascade cooler; Warmhouse booth inside is lowered the temperature; Keep temperature suitable in the warmhouse booth; The cascade cooler is made up of water pipe and heavy curtain, and the constant current vent window is in the one or both ends of warmhouse booth, and temperature is 12-35 ℃ in the warmhouse booth; Temperature inductor sends signal according to the temperature conditions in the warmhouse booth, by main control system control terrestrial heat pump or the work of cascade cooler.
Said CO 2Generating means is by CO 2Generator and CO 2Conduit is formed, CO in the green house 2When low, CO 2Generator reacts, and produces CO 2Through conduit CO 2Evenly be discharged in the green house CO in the green house 2Concentration is the 80-1600 mg/litre, CO 2Inductor is according to the CO in the green house 2The gas situation is sent signal, through main control system control CO 2Generating means work.
Described fertilizer apparatus is made up of fertilizer applicator and fertilizer delivering pipe; Be diluted in fertilizer in the fertilizer applicator according to a certain percentage; Fertilizer delivering pipe links to each other with the water inlet pipe of feed pump, control fertilising tube valve when needing fertilising, and fertilizer liquid is transported to the crop place with current and sprays or fertigation.
Said video monitoring apparatus is by video camera, and main control system and monitor constitute, and video camera is installed in the green house; Gather the realtime graphic in the big grid in greenhouse; Be stored in the main control system, by main control system video signal transmission to monitor, green house is monitored in real time.
Described power-supply controller of electric links to each other with civil power electric power with solar photovoltaic electric power, and the electric power of whole green house can be supplied with by solar photovoltaic electric power and also can be supplied with by civil power electric power.
The beneficial effect of the utility model:
1, adopted computer intelligence control, the terms and conditions of plant growth has been carried out the precision allotment, made that environment reaches the plant the best growing condition in the booth.
2, adopt the non-inversion of photovoltaic directly to supply power, improved the service efficiency of photovoltaic generation greatly, practiced thrift electric energy, the while safety and environmental protection, adaptability is strong.
3, adopted high power concentrator optical fiber light filling and high brightness monochromatic LED luminous tube light filling, low in energy consumption, efficient is high, long service life, and the spectral range distribution is wide, is convenient to reduce system cost simultaneously to the Different Crop luminous intensity distribution.
4, adopt geothermal energy resources that booth is carried out heating and heat preservation, reduced system energy consumption, efficient is high, and is energy-conservation obvious.
5, adopted according to soil moisture situation self water feeding, improved the availability of water resource greatly.
6, adopt the cooling of constant current ventilation and cascade, can regulate temperature of shed and air composition automatically.
Owing to adopted such scheme, thereby make the utility model realize water saving, energy-saving and environmental protection, safety is given the condition of plant growings such as the reasonable adaptive moisture of various crops, illumination, air, temperature, fertilizer very easily.Crop is in the best growing environment all the time, and to reach high-quality, high yield, low cost, high yield, wide accommodation is convenient to promote.
Description of drawings
Below in conjunction with accompanying drawing and embodiment the utility model is described further.
Fig. 1 is the ecological canopy cut-away view of the utility model;
Among the figure: 1, greenhouse canopy, 2, hold, waterworks, 3, fertilizer apparatus; 4, solar-energy light collector, 5, fiber optic receiver, 6, light-conductive optic fibre; 7, optical fibre light splitting device 8, light filling lamp, 9, solar energy photovoltaic generator, 10, terrestrial heat pump; 11, hot-water radiator, 12, the cascade cooler, 13, CO 2Generating means, 14, the constant current vent window, 15, temperature sensing device, 16, humidity induction device, 17, the light-inductive device, 18, video monitoring apparatus, 19, CO 2Induction installation 20, rainwater collecting pit, 21, small head well, 22, accumulator, 23, power-supply controller of electric, 24, inverter, 25, main control system and 26, monitor, 27, feed pump, 28, little spray shower nozzle, 29, the irrigate band, 30 civil power power ends.
Embodiment
Referring to Fig. 1, the utility model mainly comprises: 1, greenhouse canopy, 2, hold, waterworks, 3, fertilizer apparatus; 4, solar-energy light collector, 5, fiber optic receiver, 6, light-conductive optic fibre, 7, the optical fibre light splitting device; 8, light filling lamp, 9, solar energy photovoltaic generator, 10, terrestrial heat pump; 11, hot-water radiator, 12, the cascade cooler, 13, CO 2Generating means, 14, the constant current vent window, 15, temperature sensing device, 16, humidity induction device, 17, the light-inductive device, 18, video monitoring apparatus, 19, CO 2Induction installation, 20, the rainwater collecting pit, 21, small head well, 22, accumulator, 23, power-supply controller of electric, 24, inverter, 25, main control system, 26, monitor, 27, feed pump, 28, little spray shower nozzle, 29, the irrigate band, 30, the civil power power end.It is good at first to press index formation to greenhouse canopy 1 during enforcement; Solar-energy light collector 4 and solar energy photovoltaic generator 9 are installed in the outside of green house 1; The angle of adjustment solar concentrator and beam condensing unit 4 and solar energy photovoltaic generator 9 supports; Make solar energy be right against solar concentrator and beam condensing unit 4 and solar energy photovoltaic generator 9, the solar energy that solar-energy light collector 4 converges shines directly into fiber optic receiver 5, and the sunshine that is received by fiber optic receiver 5 passes through light-conductive optic fibre; 6 flexibility transmission; Transfer to each optical fibre light splitting device 8 in the green house 1 to sunshine, optical fibre light splitting device 8 is mapped to vegetables etc. to solar irradiation above the crop, reaches the light filling effect; The electric power that solar energy photovoltaic generator 9 sends; Through being delivered to accumulator 22 after power-supply controller of electric 23 controls; The electric power of accumulator 22 has the output of two-way electric power after controlling through power-supply controller of electric 23; One road electric power outputs to inverter 24, and inverter 24 links to each other with the power input end of terrestrial heat pump 10 and main control system 25, gives terrestrial heat pump 10 and main control system 25 power supplies; Another road electric power with hold, the feed pump 27 of waterworks 2 links to each other with light filling lamp 8, main control system has light-operated module, temperature control module, humidity control module, CO respectively for 25 li 2Control module, each control module receives temperature sensing device 15 respectively, humidity induction device 16, light-inductive device 17, CO 2The various signals of induction installation 19; Control terminal part separately, when temperature sensing device 15 sends signal, main control system 25 control terrestrial heat pumps 10 and hot-water radiator's 11 work; Or constant current vent window 14 and 12 work of cascade cooler, heated up or cooling work in inside, greenhouse; When humidity induction device 16 sends signal; Main control system 25 control feed pumps 27; Sprayed water or drip irrigation to crop by little spray shower nozzle 28 or irrigate band 29 through water-supply-pipe, when needing fertilising in the water source that feed pump 27 extraction rainwater collecting pits 20 or small head well are 21 li; Be connected the back with water inlet line of fertilizer apparatus 3 with feed pump 27, fertilizer liquid carries out blade face or ground fertilising through water supply system; When light-inductive device 17 sends signal, give the crop light filling by optical fibre light splitting device 7 by day, give the crop light filling by light filling lamp 8 at night; CO 2Main control system 25 control CO when induction installation 19 sends signal 2Generating means 13 work replenish CO to green house 2Main control system 25 is also gathered the realtime graphic in the green house 1 that video monitoring apparatus 18 takes, and exports watch-dog 26 to, and whole green house situation is monitored in real time.Power-supply controller of electric 23 links to each other with civil power electric power 30 with solar photovoltaic electric power, and the electric power of whole green house can be supplied with by solar energy power generating and also can be supplied with by civil power electric power.

Claims (10)

1. intelligent ecological green house system based on the insulation of solar energy light filling and underground heat comprises: the greenhouse canopy, hold, waterworks fertilizer apparatus; Solar-energy light collector, fiber optic receiver, light-conductive optic fibre, optical fibre light splitting device; The light filling lamp, solar energy photovoltaic generator, terrestrial heat pump; The hot-water radiator, cascade cooler, CO 2Generating means, constant current vent window, temperature sensing device, humidity induction device, light-inductive device, video monitoring apparatus, CO 2Induction installation, rainwater collecting pit, small head well, accumulator, power-supply controller of electric, inverter, main control system, monitor, feed pump, little spray shower nozzle, irrigate band, civil power electric power; The power output end that it is characterized in that solar photovoltaic assembly links to each other with accumulator; The electric power that solar components sends at first is stored in the accumulator; Accumulator and civil power electric power link to each other with power-supply controller of electric, and one road electric power outputs to inverter, and inverter is given terrestrial heat pump and main control system power supply; Another road electric power is that pump links to each other with the light filling lamp with giving of waterworks; Main control system receives temperature sensing device respectively, humidity induction device, light-inductive device, CO 2The various signals of induction installation, control terminal part separately, main control system are also gathered the interior realtime graphic of green house that video camera is taken, and export watch-dog to.
2. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described green house is arch booth and shape greenhouse, room; 2.0-10 rice is highly arranged, the persevering circulation air regulator in the side of green house or two ends.
3. a kind of intelligent ecological green house system based on the insulation of solar energy light filling and underground heat according to claim 1 is characterized in that describedly holding, waterworks are by rainwater collecting pit or small head well, feed pump; Feed pipe; Little spray shower nozzle and irrigate band are formed, the oral siphon of feed pump be deep in the cistern or osculum well water in, the outlet pipe mouth of pipe of feed pump has many groups; Link to each other with little spray shower nozzle of moisture or irrigate band respectively; Wet quick inductor is arranged on the crop furrow ditch ground, send signal, work through the main control system control of pump according to the humidity situation of soil.
4. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described light compensating apparatus is by solar-energy light collector, optical fiber light aid or light filling lamp; Solar concentrator is placed on the outside, greenhouse; Assemble high-strength sunshine, transfer to the optical fibre light splitting device by light-conductive optic fibre, the optical fibre light splitting device is directly given the crop light filling; Evening, light filling carried out light filling by the light filling lamp, and the illuminance behind the light filling in the green house is 500-5000LUX, and the light-inductive device sends signal according to the power of ambient light, through main control system control light filling.
5. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described attemperating unit constitutes temperature inductor by terrestrial heat pump, hot-water radiator and constant current vent window, cascade cooler and sends signal according to the temperature conditions in the green house, through main control system control terrestrial heat pump or the work of cascade cooler, when temperature is hanged down; Terrestrial heat pump extracts the geothermal water below 20 meters; Hot water circulates through the hot-water radiator, in green house, carries out heating and heat preservation to heat radiation; When temperature is high; Constant current vent window and cascade cooler, to the insulation of lowering the temperature of green house inside, temperature is 12-35 ℃ in the green house.
6. a kind of intelligent ecological green house system based on solar energy light filling and underground heat insulation according to claim 1 is characterized in that described CO 2Generating means is by CO 2Generator and CO 2Conduit is formed, CO 2Inductor is according to the CO in the green house 2The gas situation is sent signal, through main control system control CO 2Generating means work, the CO in the green house 2Concentration is the 80-1600 mg/litre.
7. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described fertilizer apparatus is made up of fertilizer applicator and fertilizer delivering pipe; Fertilizer is diluted in the fertilizer applicator according to a certain percentage; Fertilizer delivering pipe links to each other with the water inlet pipe of feed pump, and fertilizer liquid is transported to the crop place with current and sprays or fertigation.
8. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described said video monitoring apparatus is by video camera; Main control system and monitor constitute; Video camera is installed in the green house, gathers the realtime graphic in the green house, by main control system video signal transmission to monitor.
9. a kind of intelligent ecological green house system according to claim 1 based on solar energy light filling and underground heat insulation; It is characterized in that described power-supply controller of electric links to each other with civil power electric power with solar photovoltaic electric power, the electric power of whole green house can be supplied with by solar photovoltaic electric power and also can be supplied with by civil power electric power.
10. according to claim 1,3 or 5 described a kind of intelligent ecological green house systems based on solar energy light filling and underground heat insulation; The water outlet pipeline that it is characterized in that described terrestrial heat pump links to each other with the water outlet pipeline of feed pump, and geothermal water also can be to the irrigation of watering of crop in the green house.
CN2011204650956U 2011-11-21 2011-11-21 Intelligent ecological greenhouse system based on solar light supplementing and geothermal heat preservation CN202425377U (en)

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CN102835278A (en) * 2012-09-18 2012-12-26 浙江大学 Multi-source combined cold and heat supply simulated experiment greenhouse
CN102960202A (en) * 2012-11-06 2013-03-13 王秀利 Greenhouse winter heating system and method
CN103053364A (en) * 2013-01-15 2013-04-24 崔勇 Modular constant-temperature constant-moisture automatic monitoring greenhouse area for crop planting
CN103535219A (en) * 2013-10-17 2014-01-29 安徽工程大学 Solar energy based agricultural greenhouse light supplementing system
CN103535218A (en) * 2013-10-17 2014-01-29 安徽工程大学 Solar photovoltaic power generation based automatic light supplementing and watering system of greenhouse
CN103749206A (en) * 2013-12-26 2014-04-30 贵州绿卡能科技实业有限公司 Solar energy nursery room
CN103931441A (en) * 2013-01-17 2014-07-23 上海奇亚特能源股份有限公司 Constant temperature green house
CN104244703A (en) * 2013-03-08 2014-12-24 松下电器产业株式会社 Air conditioning system for use in plant cultivation
CN104813870A (en) * 2015-05-19 2015-08-05 窦观一 Ecological agriculture system that fully utilizes wind, light and gas energy sources
CN105104015A (en) * 2015-08-07 2015-12-02 苏州华拓信息技术有限公司 Intelligently controlled multilayer cord fabric greenhouse
CN105210727A (en) * 2015-10-28 2016-01-06 盐城工学院 Greenhouse shed environment control device
CN105276448A (en) * 2015-10-15 2016-01-27 左招霞 Plant growth lamp
CN105660248A (en) * 2016-01-19 2016-06-15 成都贝瑞生态农业开发有限公司 Multifunctional intelligent greenhouse regulating system
CN105660242A (en) * 2016-01-19 2016-06-15 成都贝瑞生态农业开发有限公司 Energy-saving type greenhouse capable of promoting photosynthesis of strawberries
CN106508506A (en) * 2016-10-13 2017-03-22 天津恺丰义科技有限公司 Watering and insecticide spraying support used in greenhouse
CN107203238A (en) * 2017-06-18 2017-09-26 裴文平 A kind of Greenhouse System and its autocontrol method
CN107223486A (en) * 2017-06-06 2017-10-03 合肥助航生态农业科技有限公司 A kind of ecological agriculture greenhouse-environment regulating system
CN107251779A (en) * 2017-07-21 2017-10-17 高连平 A kind of intelligent greenhouse
CN109258228A (en) * 2018-11-23 2019-01-25 徐州市磨石塘田园旅游发展有限公司 A kind of novel vegetable planting greenhouse
CN109479482A (en) * 2018-11-19 2019-03-19 安徽丰絮农业科技股份有限公司 A kind of greenhouse gardening water-fertilizer integral system
CN110268883A (en) * 2018-03-15 2019-09-24 钟锋 Vegetable growth breeding apparatus

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102835278B (en) * 2012-09-18 2013-09-11 浙江大学 Multi-source combined cold and heat supply simulated experiment greenhouse
CN102835278A (en) * 2012-09-18 2012-12-26 浙江大学 Multi-source combined cold and heat supply simulated experiment greenhouse
CN102960202A (en) * 2012-11-06 2013-03-13 王秀利 Greenhouse winter heating system and method
CN103053364A (en) * 2013-01-15 2013-04-24 崔勇 Modular constant-temperature constant-moisture automatic monitoring greenhouse area for crop planting
CN103931441A (en) * 2013-01-17 2014-07-23 上海奇亚特能源股份有限公司 Constant temperature green house
CN104244703B (en) * 2013-03-08 2017-01-18 松下知识产权经营株式会社 Air conditioning system for use in plant cultivation
CN104244703A (en) * 2013-03-08 2014-12-24 松下电器产业株式会社 Air conditioning system for use in plant cultivation
US9775302B2 (en) 2013-03-08 2017-10-03 Panasonic Intellectual Property Management Co., Ltd. Air conditioning apparatus in plant cultivation
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