CN201630083U - Low-carbon emission greenhouse arranged on roof of tunnel furnace factory - Google Patents
Low-carbon emission greenhouse arranged on roof of tunnel furnace factory Download PDFInfo
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- CN201630083U CN201630083U CN2010201439757U CN201020143975U CN201630083U CN 201630083 U CN201630083 U CN 201630083U CN 2010201439757 U CN2010201439757 U CN 2010201439757U CN 201020143975 U CN201020143975 U CN 201020143975U CN 201630083 U CN201630083 U CN 201630083U
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- sun glasshouse
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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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Abstract
The utility model relates to a low-carbon emission greenhouse arranged on the roof of a tunnel furnace factory, which is characterized in that the platform of the roof of the tunnel furnace factory can be provided with a plurality of sunlight greenhouses; each sunlight greenhouse is 4-6m long, 4-6 wide and 3-5m high; the periphery and the bottom of the each sunlight greenhouse are sealed; bar-shaped air vents are arranged between the upper part of the sunlight greenhouse and a tent cover; the bar-shaped air vents are respectively provided with a sealing door; the wallboard all around the sunlight greenhouse, the sealing doors and the tent cover are made of transparent materials; tunnel furnace purified smoke being rich in carbon dioxide are led to bent pipeline nozzles in the sunlight greenhouses through pipeline connection and is downwards ejected from the centers of the sunlight greenhouses, and the carbon dioxide is absorbed by means of photosynthesis of plants. The utility model realizes the low-carbon or zero-carbon emission of a tunnel furnace, and simultaneously, oxygen is regenerated, circular economy is developed and the human ecology environment is protected; moreover, green plants are planted on the roof of the tunnel furnace factory, i.e. the roof has dual purpose, and land resources are sufficiently utilized; and the purified smoke is directly used as a gaseous fertilizer, and thereby, profits are increased.
Description
Technical field
The utility model belongs to a kind of and utilizes flue gas that stove purified as gaseous fertilizer, by the sun glasshouse of photosynthesis of plant low-carbon emission, and particularly a kind of low-carbon emission greenhouse that is arranged on the tunnel cave roof.
Background technology
At present, the domestic tunnel cave that is used to burn till refractory product, fuel can reach completing combustion, and the flue gas of its generation is through dedusting, and desulfurization becomes and purifies fume emission.But the chemical composition that has purified flue gas is mainly N
2, CO
2, O
2And H
2O.CO wherein
2Discharge capacity very big, 1 ton of heavy oil of every burning is 3 tons of CO of discharging approximately
2For example produce the tunnel cave of 20,000 tons of magnesia bricks per year, quota of expenditure standard according to country's announcement in 2008, the unit oil consumption is 125Kg/t, can then every annual 2500 tons of heavy oil of burning that need of kiln will have about 7500 tons of CO2 discharging, realize the tunnel cave low-carbon emission, striving realizing zero carbon emission, is the technical barrier of being badly in need of solution at present.At present in sun glasshouse's cultivation green plants technology, introduce carbonic acid gas as gaseous fertilizer, increase the carbon dioxide content of air in the greenhouse, can absorbing carbon dioxide, discharge oxygen, can improve fruits and vegetables output again, this technology can be used for tunnel cave production, making it low-carbon emission, also is still unsolved at present technical problem.
Summary of the invention
The utility model has overcome the defective of above-mentioned existence; purpose is to realize low-carbon emission for solving tunnel cave production; the present invention is provided with sun glasshouse cultivation green plants on the tunnel cave roof; pass through photosynthesis; realize tunnel cave low-carbon (LC) or zero carbon emission, regeneration of oxygen is developed a circular economy simultaneously; the ecotope that protection is human provides a kind of low-carbon emission greenhouse that is arranged on the tunnel cave roof.
The utility model is arranged on the low-carbon emission greenhouse content Description on tunnel cave roof:
The utility model is arranged on the low-carbon emission greenhouse on tunnel cave roof, it is characterized in that: on the platform of tunnel cave roof, a plurality of sun glasshouse are set, each sun glasshouse head is 4~6 meters with wide, height is 3~5 meters, the wall of sun glasshouse is connected with septum pellucidum wallboard joint seal with transparent Side fascia, sun glasshouse is placed on the soil groove, soil groove sidewall upper overlaps with sun glasshouse wallboard lower end, and be tightly connected, it above the sun glasshouse transparent canopy lid, transparent canopy lid tilts to place, the transparent Side fascia or the septum pellucidum wallboard of its high-end limit sun glasshouse below it are not connected the version that is the bar shaped blow vent, the transparent Side fascia or the septum pellucidum wallboard of message shape blow vent are not tightly connected transparent canopy lid below it, in sun glasshouse, be provided with communicate with stovepipe and nozzle exit area at the sun glasshouse center down curved pipe spout, on the Side fascia of sun glasshouse, be provided with a transparent sealing door.
The tunnel cave stovepipe with the pipeline section of sun glasshouse's central point equal height about be connected two subtubes, with subtube equal height place towards the sidewall connecting branch road of sun glasshouse joint, subtube at each vertical passage and interconnection infall towards the tube wall perforate of sun glasshouse and the branch pipe(tube) joint of fixedlying connected, the branch pipe(tube) joint is connecting branch road valve, branch pipe(tube) successively, at every branch pipe(tube) and its bridge piece road, both sides sun glasshouse center line infall left and right sides joint, the curved pipe joint is bridge piece road valve successively, the curved pipe spout.
Center line on the platform of roof is opened row's bar shaped skylight opening, the edge on two long limits is provided with two vertical passages on the platform of roof, alternate layout interconnection and sun glasshouse's group between roof platform and vertical passage, one end of sun glasshouse's group is near the bar shaped skylight opening, the other end is near vertical passage, and both sides are near interconnection.
The utility model is arranged on the low-carbon emission greenhouse on tunnel cave roof; tunnel cave low-carbon (LC) or zero carbon emission have been realized; the while regeneration of oxygen; develop a circular economy, the ecotope that protection is human, and utilize tunnel cave roof cultivation green plants; one ground is dual-purpose; make full use of land resources, directly with purifying flue gas as gaseous fertilizer, net income increase.
Description of drawings
Fig. 1 is arranged on the low-carbon emission greenhouse structural representation on tunnel cave roof.
Fig. 2 is the A-A cutaway view of Fig. 1.
Fig. 3 is the B-B cutaway view of Fig. 1.
Among the figure: the 1st, roof platform, the 2nd, soil groove, the 3rd, sun glasshouse, the 4th, green plants, the 5th, transparent sealing door, the 6th, transparent Side fascia, the 7th, transparent canopy lid, the 8th, septum pellucidum wallboard, the 9th, skylight cover plate, the 10th, bar shaped skylight opening, the 11st, vertical passage, the 12nd, interconnection, the 13rd, stovepipe, the 14th, subtube, the 15th, blind plate, the 16th, chimney valve, the 17th, branch pipe(tube) joint, the 18th, branch pipe(tube) valve, the 19th, branch pipe(tube), the 20th, blind plate, the 21st, curved pipe joint, the 22nd, curved pipe valve, the 23rd, curved pipe spout.
Embodiment
The low-carbon emission greenhouse that the utility model is arranged on the tunnel cave roof is achieved in that below in conjunction with accompanying drawing and specifies.See Fig. 1, Fig. 2, Fig. 3, on tunnel cave roof platform 1, a plurality of sun glasshouse 3 can be set, each sun glasshouse's wall is tightly connected with transparent Side fascia 6 and septum pellucidum wallboard 8 and surrounds, sun glasshouse is placed on the soil groove 2, soil groove sidewall upper overlaps with sun glasshouse wallboard lower end, and be tightly connected, the soil groove is filled soil and is cultivated green plants 4 for 2 li, it above the sun glasshouse transparent canopy lid 7, transparent canopy lid tilts to place, transparent canopy covers high-end limit and has seam to be the version of bar shaped port between the transparent Side fascia 6 of sun glasshouse or the septum pellucidum wallboard 8 below it, at each 1 to 2 bar shaped blow vent is arranged all above the sun glasshouse, transparent canopy covers 7 low side limits or side and is tightly connected between transparent Side fascia 6 or the septum pellucidum wallboard 8 below it, the curved pipe spout 23 that communicates with stovepipe is set in sun glasshouse 3, nozzle exit area is at indoor central point, spout down, all there is a transparent sealing door 5 that leads to interconnection in each sun glasshouse 3.Tunnel cave stovepipe 13 passes roof platform 1 in the tunnel cave factory building, from with the pipeline section of sun glasshouse's 3 central point equal heights about be connected two subtubes 14, middle towards sun glasshouse's direction connecting branch road joint 17, left and right sides subtube with the roof platform on the pipeline section that intersects of interconnection towards sun glasshouse's direction also connecting branch road joint 17, left and right sides subtube terminal is sealed with blind plate 15, stovepipe is higher than the subtube axis about 0.8 meter pipeline section of absolute altitude at absolute altitude stovepipe valve 16 is set, branch pipe(tube) joint 17 is connecting branch road valve 18 successively, branch pipe(tube) 19, branch pipe(tube) 19 is passage 12 direction horizontal-extendings transversely, with bridge piece road, the pipeline section left and right sides joint 21 of its both sides sun glasshouse 3 center line infalls, the branch pipe(tube) terminal is sealed with blind plate 20, and curved pipe joint 21 is bridge piece road valve 22 successively, and be connected with curved pipe spout 23 in being arranged on sun glasshouse.Center line on roof platform 1 is provided with row's rectangular skylight mouth 10, the edge on two long limits is provided with two vertical passages 11 on the platform of roof, between rectangular skylight mouth 10 on the platform of roof and vertical passage 11, arrange sun glasshouse's group and interconnection 12, per 4 to 10 sun glasshouse are spliced into sun glasshouse's group of a square-section, sun glasshouse in every group is divided into two rows, row's a end is by skylight opening 10, and the other end is by vertical passage 11, and both sides are by interconnection 12.
The course of work that is arranged on tunnel cave roof low-carbon emission greenhouse is: when tunnel cave is produced, the purification flue gas that is rich in carbonic acid gas is continuously from stovepipe 13 process subtubes 14, branch pipe(tube) joint 17, branch pipe(tube) valve 18, branch pipe(tube) 19, curved pipe joint 21, curved pipe valve 22, curved pipe spout 23, turn round and spray into the space of sun glasshouse 3 down in centers in the arrival sun glasshouse 3, increase the content of Carbon Dioxide in Air in the sun glasshouse 3, because the severe of carbonic acid gas is bigger than air, be deposited on sun glasshouse 3 bottoms gradually, there is soil groove 2 to load onto soil below the sun glasshouse 3 and cultivates green plants 4, daytime, sunshine shone the Foliage Absorption carbonic acid gas of green plants 4 through transparent canopy lid 7 and wallboard, carry out photosynthesis, discharging oxygen, the carbonic acid gas that can be deposited night He continuously flow into all absorbs and is converted to oxygen, because the severe of oxygen is littler than carbonic acid gas, the oxygen that produces promptly mixes with air and rises to sun glasshouse 3 tops, along transparent canopy lid 7 incline direction up,, reach the effect of low-carbon emission from strip through-hole 24 dischargings.In overcast and rainy or snowy day, green plants absorbing carbon dioxide amount is few, for avoiding the too high injury of carbon dioxide content in the sun glasshouse to green plants, can suitably regulate branch pipe(tube) valve 18 or curved pipe valve 22, reduce the amount of carbon dioxide that flows into sun glasshouse 3, open chimney valve 16 simultaneously, will partly purify fume emission, to keep the draft of induced-draft fan, guarantee the tunnel cave ordinary production.
Claims (3)
1. low-carbon emission greenhouse that is arranged on the tunnel cave roof, it is characterized in that: sun glasshouse (3) is set on tunnel cave roof platform (1), each sun glasshouse head is 4~6 meters with wide, height is 3~5 meters, the wall of sun glasshouse is connected with septum pellucidum wallboard (8) joint seal with transparent Side fascia (6), sun glasshouse is placed on the soil groove (2), soil groove (2) sidewall upper overlaps with sun glasshouse (3) wallboard lower end, and be tightly connected, it above the sun glasshouse (3) transparent canopy lid (7), transparent canopy lid (7) tilts to place, the transparent Side fascia (6) or the septum pellucidum wallboard (8) of its high-end limit sun glasshouse (3) below it are not connected the version that is the bar shaped blow vent, transparent Side fascia (6) or the septum pellucidum wallboard (8) of transparent canopy lid (7) below it is tightly connected, in sun glasshouse (3), be provided with communicate with stovepipe and nozzle exit area at the sun glasshouse center down curved pipe spout (23), on the Side fascia of sun glasshouse (3), be provided with transparent sealing door (5).
2. the low-carbon emission greenhouse that is arranged on the tunnel cave roof according to claim 1, it is characterized in that, tunnel cave stovepipe (13) with the pipeline section of sun glasshouse's central point equal height about be connected two subtubes (14), with the sidewall connecting branch road joint (17) of subtube (14) equal height place towards sun glasshouse, subtube (14) at each vertical passage (11) and interconnection (12) infall towards the tube wall perforate of sun glasshouse (3) and the branch pipe(tube) joint (17) of fixedlying connected, branch pipe(tube) joint (17) is connecting branch road valve (18) successively, branch pipe(tube) (19), at every branch pipe(tube) (19) and its both sides sun glasshouse center line infall left and right sides bridge piece road joint (21), curved pipe joint (21) is bridge piece road valve (22) successively, curved pipe spout (23).
3. the low-carbon emission greenhouse that is arranged on the tunnel cave roof according to claim 1, it is characterized in that, center line on the platform of roof is opened row's bar shaped skylight opening (10), the edge on two long limits is provided with two vertical passages (11) on the platform of roof, alternate layout interconnection (12) and sun glasshouse (3) group between roof platform and vertical passage (11), one end of sun glasshouse's group is near bar shaped skylight opening (10), the other end is near vertical passage (11), and both sides are near interconnection (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010201439757U CN201630083U (en) | 2010-03-30 | 2010-03-30 | Low-carbon emission greenhouse arranged on roof of tunnel furnace factory |
Applications Claiming Priority (1)
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CN2010201439757U CN201630083U (en) | 2010-03-30 | 2010-03-30 | Low-carbon emission greenhouse arranged on roof of tunnel furnace factory |
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CN201630083U true CN201630083U (en) | 2010-11-17 |
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CN2010201439757U Expired - Fee Related CN201630083U (en) | 2010-03-30 | 2010-03-30 | Low-carbon emission greenhouse arranged on roof of tunnel furnace factory |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103650987A (en) * | 2013-12-06 | 2014-03-26 | 陵军成 | Sunlight greenhouse for grape cultivation facilitation and delay |
CN108093988A (en) * | 2017-12-20 | 2018-06-01 | 宁夏农林科学院农业经济与信息技术研究所 | A kind of roof green intelligent greenhouse |
-
2010
- 2010-03-30 CN CN2010201439757U patent/CN201630083U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103650987A (en) * | 2013-12-06 | 2014-03-26 | 陵军成 | Sunlight greenhouse for grape cultivation facilitation and delay |
CN103650987B (en) * | 2013-12-06 | 2015-04-22 | 陵军成 | Sunlight greenhouse for grape cultivation facilitation and delay |
CN108093988A (en) * | 2017-12-20 | 2018-06-01 | 宁夏农林科学院农业经济与信息技术研究所 | A kind of roof green intelligent greenhouse |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20101117 Termination date: 20120330 |