CN201141215Y - Dwelling type energy-saving environment-protection sightseeing green house - Google Patents
Dwelling type energy-saving environment-protection sightseeing green house Download PDFInfo
- Publication number
- CN201141215Y CN201141215Y CNU2007201280999U CN200720128099U CN201141215Y CN 201141215 Y CN201141215 Y CN 201141215Y CN U2007201280999 U CNU2007201280999 U CN U2007201280999U CN 200720128099 U CN200720128099 U CN 200720128099U CN 201141215 Y CN201141215 Y CN 201141215Y
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- greenhouse
- greenhouse frame
- saving environment
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- environment protection
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/25—Greenhouse technology, e.g. cooling systems therefor
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/12—Technologies relating to agriculture, livestock or agroalimentary industries using renewable energies, e.g. solar water pumping
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Abstract
Disclosed is an energy-saving and environment-friendly residential sightseeing glasshouse, belonging to vegetable planting field. The glasshouse comprises a big shed and is characterized in that a residence house is built at one side of the big shed and a balcony is arranged at the second floor of the residence house; the roof of the big shed is located at the bottom of the balcony on the second floor; a glass turnplate which can be overturned is connected at the top of the big shed; a solar energy collector is installed on the roof of the house and a pool is dig out downstairs; radiators and pipelines are distributed inside the rooms of the residence house; the solar energy collector is connected with the radiators and the pool through pipelines; a methane pool is dig out inside the glasshouse, and a waste passage and a gas pipeline are arranged in the methane pool. The house is built at one side of the glasshouse, thus improving utilization rate of the ground and reaching better heat preservation effect, showing the creativity of urban agriculture and strong rurality; the glasshouse is a good place for leisure for urban people; with high content of comprehensive technology, the glasshouse is a revolutionary technological innovation in urban agriculture, maintaining ecological balance without pollution.
Description
Technical field
The utility model belongs to the culturing vegetable field, is specifically related to a kind of green house of vegetables.
Background technology
Vegetables be during people live every day requisite important non-staple food; Vegetables are again a kind of fresh and tender food of not storage tolerance.Therefore, guarantee that abundant amount, the kind on the vegetable supply is various, quality is fresh and tender and the four seasons do not lack, just must carry out the anniversary of vegetables and produce.The vegetables anniversary is produced two approach that mainly contain.The one, make full use of the natural environment resource, in Various Seasonal, select the area of suitable various vegetables fertilities respectively, carry out the so-called vegetables suitable ground anniversary and produce.The 2nd, be not suitable for season and the area that vegetables give birth at natural environment.The artificial creation and the regulation and control environment makes it to be fit to the fertility of vegetable crop, carries out the anniversary of so-called vegetable protecting field and produces.Take which kind of approach to carry out the vegetables anniversary and produce, should decide on natural conditions, economic condition and social development situation.For so vast in territory, the populous big country of China, carry out producing in the vegetables anniversary and must take into account simultaneously that vegetables produce and these two approach of production suitablely with protecting.That is to say: when setting up production base, suitable ground of firm vegetables, must set up metastable vegetable protecting field production base, to satisfy the demand of people to victual.
The ground of China's protection at present vegetables production facility is various, but northern area is then the fastest with heliogreenhouse and vegetables in vinyl house production development, and especially the development of Vegetable Production in Solar Greenhouse is with rapid changepl. never-ending changes and improvements.The development that these vegetables produce, the imbalance between supply and demand that has not only fundamentally solved the northern area of China fresh vegetables in winter has alleviated " south vegetable north transportation " to the pressure that railway transportation causes, and has saved the energy; Simultaneously also, the structural readjustment of rural industry and peasant provide an effective way for building up the family fortunes to strive for a relatively comfortable life.In the many areas of China, adopting green house of vegetables to cultivate various vegetables becomes most peasant's preferred manner.This booth is made up of greenhouse frame and the plastic sheeting and the heat-preservation cotton that cover on the greenhouse frame, and plastic sheeting has the characteristic of printing opacity and insulation.Daytime, sunshine saw through the plastic sheeting direct projection in booth, kept higher temperature in the booth.And sufficient sunlight helps photosynthesis of vegetables in the booth.Because the good airproof performance of plastic sheeting, thereby also has the growth that certain humidity is beneficial to vegetable plant in the booth.To evening, ambient temperature reduces, by the roller shutter machine heat-preservation cotton is unfolded to cover on the plastic sheeting, can so that night booth to be unlikely to temperature low excessively, it is rolled-up with heat-preservation cotton to pass through the roller shutter machine when wait until daytime again.For the insulation of green house of vegetables, stack soil in booth one side.This had both wasted soil, had occupied a large amount of soil spaces again.In the place that some green house of vegetables is relatively concentrated, the peasant lives in the booth, but owing to be subjected to the restriction of all key elements such as ventilation equipment, heating mode and fuel, ight soil processing, dwelling environment is more abominable, and the waste of the energy is also very serious.Under the very nervous background of current land resources and the various energy, the development green house of vegetables must develop towards intensive, energy-conservationization direction.Nowadays the ecological agriculture and sightseeing tour Agricultural Development are in the ascendant, live in the life that people in the city thirst for a kind of rural scenery.Therefore, the characteristics in conjunction with present agricultural planting develop a kind of novel green house of vegetables and brand-new booth management philosophy, become pendulum in vast farmers and the strong-willed green vegetables plantation thing dealer important topic in front of being engaged in.
The utility model content
The technical problems to be solved in the utility model provides a kind of housing energy-saving environment protection sightseeing greenhouse, can realize that inhabitation and growing vegetables are integrated, need not additionally to expend the energy during inhabitation.
For solving the problems of the technologies described above, the utility model adopts following technical scheme: design a kind of housing energy-saving environment protection sightseeing greenhouse, comprise greenhouse frame, a side that it is characterized in that greenhouse frame is built residential building, the second floor of residential building is provided with balcony, the ceiling of greenhouse frame is positioned at second floor balcony bottom, the top attachment glass turnover panel of greenhouse frame, the glass turnover panel can stir along greenhouse frame, bottom at greenhouse frame is distributed with vent window, and solar energy collector is installed on the roof, digs clear water reserviors downstairs, distribution radiator and pipeline in the room of residential building, solar water heater is communicated with respectively with radiator and clear water reserviors by pipeline, connects electromagnetic valve on respective line, and the switching of electromagnetic valve can make trickling cold water or hot water in the radiator, dig in the booth and establish biomass pool, waste channel and air delivering pipeline are set in the biomass pool.
The utility model is placed the heat-preservation cotton quilt on greenhouse frame, each fixed rack of the both sides of greenhouse frame is provided with motorized pulleys between two slide rails, and the two ends of motorized pulleys are placed on the slide rail, and heat-preservation cotton is by last fixing band synchronously, and band links with motorized pulleys synchronously.Adopt this frame mode roller shutter, roller shutter is sideslip not.Also can arrange hinged lamination on greenhouse frame, all connect film between an end of each lamination and the greenhouse frame, the other end of each lamination all is hinged on the raising rod, and raising rod is hinged in the rotating shaft of power set.
For the heating in winter and the cooling in summer in room, adopt the road design of solar energy control self-circulation cold hot water pipe.The hot-water line of solar energy collector and cold water pipe are communicated with radiator respectively, and radiator is positioned at the room of residential building, connect pump on the hot-water line of solar energy collector; Insert water inlet pipe and return pipe in the pond, all connect electromagnetic valve on water inlet pipe and the return pipe, water inlet pipe is connected with cold water pipe, return pipe is connected with hot-water line, connect electromagnetic valve on the cold water pipe between water inlet pipe and the solar energy collector, connect electromagnetic valve on the hot-water line between pump and the solar energy collector.
The top of greenhouse frame of the present utility model can maintain an equal level mutually with the residential building roof.Greenhouse frame is provided with the glass turnover panel in the place of adjoining mutually with residential building, and the glass turnover panel connects with greenhouse frame is movable.Be convenient to ventilate in the booth.
The opposite side bottom of greenhouse frame is dug and is established rainwater collection ditch.The opposite side of greenhouse frame is provided with the isolation thick stick.In the residential building bottom stair are set, stair extend to roof from the residential building bottom.
The beneficial effect that the utlity model has is:
1. because the side of green house of vegetables is the good house of heat insulation effect, and the coefficient of heat conduction is low,, can guarantee the normal growth of northern area gourd, fruit and vegetable under the condition of cold so well solved the problem of winter planting's difficulty at northern area.
2. adopted advanced more intelligent control device, the obducent opening and closing of booth have realized automatic control, make the interior temperature and humidity of green house of vegetables be more suitable for the growth of vegetables.
3. because a side of booth has been built the house, having saved a large amount of soils, improved the utilization rate in soil, better reached heat insulation effect, more embodied the innovation of urban agriculture and strong rural scenery, is the fabulous place to go that the urbanite lies fallow.
4. plant vegetables at roof summer, utilize the space of roof, meet the theory of three-dimensional growing vegetables, and reduced the roof temperature, thermal insulation is good.
5. utilize winter solar facilities to supply with booth and the interior heating of building, the mode of heating adopts the ground heating type heat supply, has guaranteed the storage of heat, and utilizes same set of circulation line summer, lowers the temperature towards the cold water circulation with missile silo; Need not adopt electric energy or coal resources, save the energy.
6. aspect the utilizing of biogas; the change according to the season problems such as processing of utilization, weeds etc. of balloonflower root, human and animal excreta of the vegetables of vegetables in producing have been solved; and the live required energy and the confession temperature problem of booth in arctic weather have been supplied with; adopting fertilizer to make gourd, fruit and vegetable is pollution-free food; stop pollution, protected the ecological homeostasis.
7. collect ditch owing to be provided with rainwater, the water when raining can be collected to make his usefulness, has saved water resource.
8. in the environment in the rural area, city that whole warmhouse booth is built,, be the revolutionary innovative technology of urban agriculture of keeping the ecological homeostasis, realizing zero pollution owing to taked the high comprehensive utilization technique of content.
9. the utility model can be used for cultivating various green plantss such as vegetables, flowers, ornamental plant.
Description of drawings
Fig. 1 is the utility model perspective view;
Fig. 2 is solar energy pipeline and a biomass pool structure schematic diagram in the utility model;
Fig. 3 is a greenhouse rolling blind apparatus structure schematic diagram in the utility model;
Fig. 4 is that the A of Fig. 3 is to schematic diagram;
Fig. 5 is a booth lamination cladding system structural representation in the utility model;
Fig. 6 is the local enlarged diagram of Fig. 5;
Fig. 7 is the pipeline schematic diagram of the utility model solar cold hot water circuit;
Among the figure, 1. balcony, 2. residential building, 3. vent window, 4. vegetable garden, 5. solar energy collector, 6. the glass turnover panel is 7. isolated thick stick, 8. rainwater is collected ditch, 9. stair, 10. balcony, 11. water pumps, 12. the pond, 13. biomass pools, 14. appendixs, 15. waste channel, 16. slide rail, 17. greenhouse frames, 18. motorized pulleys, 19. heat-preservation cotton quilts, 20. pulley, 21. pulleys, 22. are with 23. laminations synchronously, 24 hinges, 25. raising rods, 26. hinges, 27. bolts, 28, plastic sheeting, 29. insulation layers, 30. waterproofing courses, 31. outlet valve, 32. cold water pipes, 33. electromagnetic valves, 34. water inlet pipes, 35. electromagnetic valve, 36. water pumps, 37. floor heating pipes, 38. electromagnetic valves, 39. electromagnetic valve, 40. floor heating pipes, 41. electromagnetic valves, 42. return pipes, 43. electromagnetic valve, 44. electromagnetic valves, 45. hot-water lines.
The specific embodiment
As shown in Figure 1, a side of greenhouse frame 17 is built residential building 2, and balcony 1 is built in second floor the place ahead of residential building 2, and balcony 10 is built to watch rural scenery in the rear.The ceiling of greenhouse frame 17 is positioned at 10 bottoms of second floor sun, for last roof, in the residential building bottom stair 9 is set, and stair extend to roof from the residential building bottom.Greenhouse frame 17 is provided with glass turnover panel 6 in the place of adjoining mutually with residential building 2, glass turnover panel 6 and 17 movable connections of greenhouse frame.When needing to ventilate, counter-rotating glass turnover panel 6 gets final product.The opposite side bottom of greenhouse frame 17 is dug and is established rainwater collection ditch 8.Rainwater when raining can be collected so that use as him.Vent window 3 is offered in the bottom of greenhouse frame 17, and the opposite side of greenhouse frame 17 is provided with isolates thick stick 7.The effect of isolating thick stick is to prevent that accident from breaking plastic cover greenhouse.The interior remaining dead twigs and withered leaves animal wastes of booth etc. must obtain timely and effective cleaning in order to avoid contaminated environment for this reason, is dug in the booth and established biomass pool, as shown in Figure 2, waste channel 15 and air delivering pipeline 14 are set in the biomass pool 13.Dry branches and fallen leaves, ight soil etc. is collected 13 li in biomass pool, and the biogas that produces behind the chemical reaction is transported to the kitchen gas kitchen by air delivering pipeline 14 and is used for fuel.In order to make full use of the space, building, also in order to reduce the temperature of Roofing slab when the summer, open up vegetable garden 4 on the roof, various vegetables of plantation or ornamental plants in the vegetable garden 4 simultaneously with planting vegetable.Add a door 10 in the booth, can enter booth easily.
For big slightly green house of vegetables, though adopt the roller shutter machine easily the insulation quilt above the booth to be rolled or to launch, roller shutter can make curtain sideslip on booth cause part booth corner regions to hide.For addressing this problem, the utility model has adopted a kind of brand-new roller shutter mode.As shown in Figure 3 and Figure 4, lay heat-preservation cotton on the greenhouse frame 17 by 19, place motorized pulleys 18 between 16, two slide rails of each fixed rack of the both sides of greenhouse frame 17, the two ends of motorized pulleys 18 are provided with pulley 20,21 respectively, and each pulley is placed on respectively on the slide rail 16.Heat-preservation cotton is fixed many on 19 and is with 22 synchronously, is with 22 to link with motorized pulleys 18 synchronously.Begin from greenhouse frame 17 bottoms, slide rail 16 increases progressively with the spacing of booth 17.
When select roller shutter or put curtain to be very important according to the power of light.Traditional roller shutter and the full artificial visually examine of the leaning on grasp of time of putting curtain.In order to adapt to the needs of scientic planting, must make the standardization requirement to roller shutter and the time that puts curtain.For this reason, the utility model is set up light sensor, and when night came, as long as the intensity of light reaches preset value, light sensor will send signal, conveys to motorized pulleys 18, motorized pulleys 18 work rotations, and pulley 20,21 rolls along slide rail 16.Be with 22 pulling heat-preservation cotton to be twisted in together on the motorized pulleys 18 synchronously by 19.When dawn then, light sensor can send signal equally, conveys to motorized pulleys 18, motorized pulleys 18 work reverse rotations, heat-preservation cotton is layered on the greenhouse frame 17 by 19.If run into the cloudy day, also can adopt the energising of Artificial Control motorized pulleys, make motorized pulleys work.
Yet for oversized green house of vegetables, adopt the mode of roller shutter to bother very much.Be head it off, the utility model has adopted a kind of mode that is different from the roller shutter machine fully, has realized covering booth and convenient perfect adaptation of using better.
As shown in Figure 5 and Figure 6, lamination 23 is set on the greenhouse frame 17, lamination 23 is evenly distributed setting on greenhouse frame 17, and lamination 23 is hinged by hinge 24 with greenhouse frame 17.The structural representation that shown in Figure 6 is when lamination opens.Lamination 23 is hinged by hinge 26 with raising rod 25.Raising rod 25 is hinged with the rotating shaft of electric reducer.At the end of lamination 23 fixed plastics film 28, the other end of plastic sheeting 28 is fixed on the greenhouse frame 17 by bolt 27, the external surface of lamination 23 apply ointment or plaster successively from inside to outside waterproofing course 30 and insulation layer 29, its inner surface plastic sheeting of also applying ointment or plaster.For timely draining, offer the spilling water groove at the external surface of lamination 23.
When night came, open electric reducer, its rotating shaft is rotated and is driven raising rod 25 motions, stirs lamination 23 afterwards around greenhouse frame 17 swings, and lamination 23 is fastened on the greenhouse frame 17.Because lamination 23 has good heat-insulating property, thereby the plastic cover greenhouse in night can not dispel the heat.After coming dawn, open electric reducer, its rotating shaft is rotated and is driven raising rod 25 motions, stirs lamination 23 afterwards around greenhouse frame 17 swings, and lamination 23 is an angle theta with greenhouse frame 17.This angle effect in the time of 27.5 ° is best.Sunshine sees through plastic sheeting 28 and injects in the booth.Some solar light irradiation enters booth after the reflection on the film of lamination 23 inner surfaces, thereby the absorption of the sunlight in the booth is more, and temperature is higher.
As habitable green house of vegetables, the other inhabitation building of building of green house of vegetables must be suitable for human living.Enjoy the cool in heating in winter and summer be one can not irrespective problem.Consider energy-conservation and environmental protection needs, in green house of vegetables, can not consume coal resources or electric energy and solve temperature problem in the booth.At this, adopting sunshine is suitable way the most.As shown in Figure 2, solar energy collector 5 is installed on the roof, clear water reserviors 12 are set downstairs, solar energy collector is connected with clear water reserviors by pipeline.Fig. 7 has listed solar cold hot water circulating pipeline schematic diagram.
Below set forth the course of work of utilizing solar heating.
Close electromagnetic valve 43, open electromagnetic valve 33,35, open water pump 36, cold water flows to 5 li of solar energy collectors through water inlet pipe 34, cold water pipe 32, and cold water is heated to hot water.When water is full of solar energy collector, close electromagnetic valve 35, open electromagnetic valve 44,38,39,41, flow into solar energy collectors 5 through cold water pipe 32 again behind hot water process hot-water line 45 and the radiating tube 37,40, finish heat exchanging process one time.So constantly circulation can make to keep warm in the room.Wherein radiating tube 37,40 is layed under the room floor, and this is the floor heating mode.Whether each radiating tube can be controlled respectively by electromagnetic valve and intake, and the quantity of radiating tube is more or less decided as the case may be.When temperature is comfortable and when need not solar heating, the water in the solar energy collector 5 are bled off, close electromagnetic valve 35 and water pump 36 gets final product.
Below set forth the course of work when utilizing the cooling of said structure pipeline to do the use of water air-conditioning.
Close electromagnetic valve 32,44, open electromagnetic valve 35,43, open water pump 36, again through flowing to 12 li in pond behind hot-water line 45, the return pipe 42, finish water cycle process one time behind cold water process water inlet pipe 34, the radiating tube 40,37.Because radiating tube 40,37 is layed under the room floor, is subjected to the influence of ground vapour, the coolant-temperature gage in the radiating tube is very low, and it finishes heat exchanging process one time with the water that flows out from the pond.So go round and begin again, can make to keep lower temperature in the room.Pond 12 can be missile silo or fish pond etc.If adopt missile silo, because the well water temperature is lower, room good refrigeration effect during summer.If adopt the fish pond, promptly can breed fish in the fish pond, can or enjoy the cool and use the water source as heating again, achieves many things at one stroke.
As required, the electromagnetic valve 44 of controlling out hot water can link to each other with light sensor.When the night fell, light sensor detects and is about to signal after the values of light and conveys to electromagnetic valve 44, and electromagnetic valve 44 can be opened, room heating beginning.
Claims (10)
1. housing energy-saving environment protection sightseeing greenhouse, comprise greenhouse frame, a side that it is characterized in that greenhouse frame is built residential building, the second floor of residential building is provided with balcony, the ceiling of greenhouse frame is positioned at second floor balcony bottom, the top attachment glass turnover panel of greenhouse frame, the glass turnover panel can stir along greenhouse frame, bottom at greenhouse frame is distributed with vent window, solar energy collector is installed on the roof, dig clear water reserviors downstairs, distribution radiator and pipeline in the room of residential building, solar water heater is communicated with respectively with radiator and clear water reserviors by pipeline, on respective line, connect electromagnetic valve, the switching of electromagnetic valve can make trickling cold water or hot water in the radiator, digs in the booth and establishes biomass pool, and waste channel and air delivering pipeline are set in the biomass pool.
2. housing energy-saving environment protection sightseeing greenhouse according to claim 1 is characterized in that planting vegetable on the roof.
3. housing energy-saving environment protection sightseeing greenhouse according to claim 1, it is characterized in that placing on the greenhouse frame heat-preservation cotton quilt, each fixed rack of the both sides of greenhouse frame, between two slide rails motorized pulleys are set, the two ends of motorized pulleys are placed on the slide rail, heat-preservation cotton is by last fixing band synchronously, and band links with motorized pulleys synchronously.
4. housing energy-saving environment protection sightseeing greenhouse according to claim 1 is characterized in that hinged lamination on the greenhouse frame, and each lamination is hinged on again on the raising rod, and raising rod connects with power set are movable mutually.
5. housing energy-saving environment protection sightseeing greenhouse according to claim 1 is characterized in that the hot-water line of solar energy collector and cold water pipe are communicated with radiator respectively, and radiator is positioned at the room of residential building, connects pump on the hot-water line of solar energy collector; Insert water inlet pipe and return pipe in the pond, all connect electromagnetic valve on water inlet pipe and the return pipe, water inlet pipe is connected with cold water pipe, return pipe is connected with hot-water line, connect electromagnetic valve on the cold water pipe between water inlet pipe and the solar energy collector, connect electromagnetic valve on the hot-water line between pump and the solar energy collector.
6. housing energy-saving environment protection sightseeing greenhouse according to claim 1 is characterized in that the top of greenhouse frame maintains an equal level mutually with the residential building roof.
7. housing energy-saving environment protection sightseeing greenhouse according to claim 6 is characterized in that greenhouse frame is provided with the glass turnover panel in the place of adjoining mutually with residential building, and the glass turnover panel connects with greenhouse frame is movable.
8. according to the described housing energy-saving environment protection sightseeing greenhouse of each claim of claim 1 to 7, the opposite side bottom that it is characterized in that greenhouse frame is dug and is established rainwater and collect ditch.
9. according to the described housing energy-saving environment protection sightseeing greenhouse of each claim of claim 1 to 7, it is characterized in that the opposite side of greenhouse frame is provided with the isolation thick stick.
10. according to the described housing energy-saving environment protection sightseeing greenhouse of each claim of claim 1 to 7, it is characterized in that in the residential building bottom stair being set, stair extend to roof from the residential building bottom.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007201280999U CN201141215Y (en) | 2007-08-07 | 2007-08-07 | Dwelling type energy-saving environment-protection sightseeing green house |
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Application Number | Priority Date | Filing Date | Title |
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CNU2007201280999U CN201141215Y (en) | 2007-08-07 | 2007-08-07 | Dwelling type energy-saving environment-protection sightseeing green house |
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CN201141215Y true CN201141215Y (en) | 2008-10-29 |
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CNU2007201280999U Expired - Lifetime CN201141215Y (en) | 2007-08-07 | 2007-08-07 | Dwelling type energy-saving environment-protection sightseeing green house |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102409878A (en) * | 2011-08-01 | 2012-04-11 | 唐增生 | Solar stair-type multiplayer ecological greenhouse for animals and plants |
CN102668924A (en) * | 2011-03-17 | 2012-09-19 | 淄博天尧工贸有限公司 | Circulation multifunctional greenhouse |
CN103222402A (en) * | 2013-05-16 | 2013-07-31 | 长春亿思达科技发展集团有限公司 | Plant growth device capable of adjusting growth environment |
CN104642048A (en) * | 2015-03-20 | 2015-05-27 | 广西壮族自治区农业科学院葡萄与葡萄酒研究所 | Grape cultivation method adopting double-layer greenhouse |
WO2020171781A1 (en) * | 2019-02-22 | 2020-08-27 | G.Stanič-Svetovanje D.O.O. | System for self-supply of buildings and residents |
-
2007
- 2007-08-07 CN CNU2007201280999U patent/CN201141215Y/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102668924A (en) * | 2011-03-17 | 2012-09-19 | 淄博天尧工贸有限公司 | Circulation multifunctional greenhouse |
CN102668924B (en) * | 2011-03-17 | 2014-06-04 | 淄博天尧工贸有限公司 | Circulation multifunctional greenhouse |
CN102409878A (en) * | 2011-08-01 | 2012-04-11 | 唐增生 | Solar stair-type multiplayer ecological greenhouse for animals and plants |
CN102409878B (en) * | 2011-08-01 | 2013-09-04 | 唐增生 | Solar stair-type multiplayer ecological greenhouse for animals and plants |
CN103222402A (en) * | 2013-05-16 | 2013-07-31 | 长春亿思达科技发展集团有限公司 | Plant growth device capable of adjusting growth environment |
CN104642048A (en) * | 2015-03-20 | 2015-05-27 | 广西壮族自治区农业科学院葡萄与葡萄酒研究所 | Grape cultivation method adopting double-layer greenhouse |
WO2020171781A1 (en) * | 2019-02-22 | 2020-08-27 | G.Stanič-Svetovanje D.O.O. | System for self-supply of buildings and residents |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
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Granted publication date: 20081029 |