CN204443402U - A kind of low-carbon (LC) Greenhouse System device - Google Patents

Abstract

The utility model discloses a kind of low-carbon (LC) Greenhouse System device, by low-carbon (LC) greenhouse, temperature control system module, liquid manure monitors regulator control system module and electric power system module forms; Temperature control system module, liquid manure monitoring regulator control system module is connected with low-carbon (LC) greenhouse respectively with electric power system module; Electric power system module comprises solar photovoltaic generation system module and wind power generation system module; Temperature control system module comprises electric boiler and biomass gasifying furnace; The solar cell array that solar photovoltaic generation system module is made up of several solar cell plate serioparallels, electric energy output end, discharge and recharge transformer, batteries, inverter, output circuit, transformer form, this system and device solves a difficult problem for the comprehensive utilization of multiple renewable energy sources on greenhouse system, have employed inside thermal screen and microlight-type Surgery therapy by Double insulating system simultaneously, body of wall fill insulant material, heat insulation effect is good, reach energy-conservation object, there is promotional value.

Description

A kind of low-carbon (LC) Greenhouse System device

Technical field

The utility model belongs to green house equipment technology field, and more specifically, the utility model relates to the technical field of a kind of low-carbon (LC) Greenhouse System device equipment.

Background technology

Along with the growth of global economic development and world population, energy-consuming is also increasing continuously and healthily.For a long time, the application of fossil energy has promoted social development, but its resource is tending towards rapidly exhausted in irreversible consumption.Meanwhile, fossil energy also constitutes the severe contamination to environment.Based on the consideration of energy security and protection of the environment, development and utilization renewable energy resources has become the key factor realizing countries in the world sustainable development.

China has abundant Renewable Energy Resources.In recent years, under the overall background of development low-carbon economy, recycling economy, in line with the principle of energy supply diversification, there has been significant progress in China in the exploitation of renewable energy resources.But due to " always, less, limit, poor " area that compared with the west area of horn of plenty, China's Renewable Energy Resources is mainly that natural conditions are severe, poor infrastructure, economy comparatively fall behind.Meanwhile, in much remote agriculture and animal husbandry area, due to the shortage problem of the energy, make field irrigation, animal husbandry development, field work, and traffic, communication, tourism etc. development all have received considerable restraint.Compared with abundant Renewable Energy Resources potentiality, the exploitation of current China to renewable energy resources are still in the starting stage, although China is at the extensive work that utilized field to carry out of renewable energy resources, and achieves many achievements, a lot of problem is still had not to be resolved.

Western China Renewable Energy Resources enriches and vast farming and animal husbandry district energy shortage, present situation backward in economy, in conjunction with the important technical growth requirement of China's new energy development and utilization, to improve renewable energy utilization efficiency for core, composition complementary and the integrated utilization of multiple renewable energy sources are attached most importance to, by the application of key technology of powering based on autonomous wind-driven generator development and honourable composition complementary, realize the integrated of multiple renewable energy sources combined system and optimize and combine the Integrated predict model of energy utilization system in industrialized agriculture and Integrated Demonstration, and demonstration achievement is applied in west area, reach energy-saving and emission-reduction, low-carbon high-efficiency, the object of recycling economy.Along with the development of renewable energy utilization technology, the separate energy source system of the composition complementary of multiple renewable energy sources also starts to receive publicity.Because the effective coupling between system is the basic reason determining combined system stability, it is also the main barrier of this technology at present.Therefore, the combination that current renewable energy resources composition complementary systematic research is also mainly limited to two kinds of renewable energy resourcess utilizes, and also comparatively lacks the investigation and application of multiple renewable energy sources integrated utilization aspect.In addition, deep not enough to the research of composition complementary system integration mechanism, the research such as the impact of composition complementary systematic function that different energy sources is integrated and the evaluation of system also lacks very much.Meanwhile, because multi-energy complementation system is the coupled system of multidisciplinary field Cross slot interference, multi input, multi-parameter, thus multi-energy complementation system realization and optimize and at present also have sizable difficulty.

Domestic about utilizing solar panel and wind-driven generator to power to green house, the research that the fertile coproduction biogas engineering of thermoelectricity is used for the heating of winter vegetable booth is shown in bibliographical information respectively, but wind, light complementary power supply system module and biogas heating system are combined simultaneously, and combination configuration is optimized to it, the research being applied to green house has no bibliographical information.

Summary of the invention

For prior art present situation and Problems existing, the utility model provides a kind of low-carbon (LC) Greenhouse System device, compared with prior art, the low-carbon (LC) Greenhouse System device that the utility model provides, by wind generator system, photovoltaic generating system and biological fuel gas system being optimized combination configuration, solves a difficult problem for the comprehensive utilization of multiple renewable energy sources on greenhouse system.Meanwhile, this low-carbon (LC) Greenhouse System device have employed inside thermal screen and microlight-type Surgery therapy by Double insulating system, body of wall fill insulant material, and daytime absorbs energy, and release energy in the evening, and heat insulation effect is good, reaches energy-conservation object.

The utility model solves its technical problem and takes following technical scheme to realize:

A kind of low-carbon (LC) Greenhouse System device is made up of low-carbon (LC) greenhouse, temperature control system module, liquid manure monitoring regulator control system module and electric power system module; Temperature control system module, liquid manure monitoring regulator control system module is connected with low-carbon (LC) greenhouse respectively with electric power system module; Electric power system module comprises solar photovoltaic generation system module and wind power generation system module; Temperature control system module comprises electric boiler and biomass gasifying furnace; The solar cell array that solar photovoltaic generation system module is made up of several solar cell plate serioparallels, electric energy output end, discharge and recharge transformer, batteries, inverter, output circuit, transformer form; Biomass gasifying furnace comprises fuel chambers, Roots blower and pneumatic filter;

In the utility model, the electric energy output end of solar cell array is connected with batteries by discharge and recharge transformer, and batteries is connected with output circuit by inverter, and output circuit is connected with transformer, finally, by transformer, electric energy is transported to low-carbon (LC) greenhouse.

In the utility model, solar panel both sides are provided with reflective mirror, and reflective mirror is connected by hydraulicefficiency hinge with solar panel, and between reflective mirror and solar panel, shape forms an angle.

In the utility model, the fuel chambers in biomass gasifying furnace is outside equipped with end cap, fuel chambers lower sides is provided with air air inlet and slag-drip opening; Roots blower is connected with air air inlet, and the top of fuel chambers is provided with air inlet, and air inlet is connected with pneumatic filter; Pneumatic filter is provided with control valve and micropore ceramic filter element, the number of micropore ceramic filter element is set to multiple; The air outlet of Roots blower is connected with pneumatic filter by pressure regulation airduct.

In the utility model, multiple columns in low-carbon (LC) greenhouse are along the uniform setting of length direction of big-arch shelter wall, polylith warming plate is arranged on the front/rear end of column along the length direction of body of wall, and forms cavity between two-layer warming plate, and low-carbon (LC) greenhouse wall body is provided with multiple ventilating opening.

According to actual needs, above-mentioned low-carbon (LC) Greenhouse System device can be made further optimization and/or improvements and is further described:

In the utility model, the angle between reflective mirror and solar panel is 10-50 °.The length in low-carbon (LC) greenhouse is 8-12m, is highly 3-6m.

In the utility model, batteries has charging control circuit, charging control circuit is provided with battery pack in parallel, and in every grade of battery pack, is equipped with the voltage detector be connected with charging control circuit.Detector is equipped for receiving light and generating the signal of telecommunication, there is housing and be arranged in the detector in described housing, detector comprises and being equipped with for receiving light and discharging the optical sensor of electronics, and wherein said optical sensor is in the potential level lower than described housing; Detector is by electric insulation intermediate arrangement and described housing thermal conductive contact, and the heat conduction direction in housing is contrary with the optical propagation direction of described light to be detected.

The beneficial effect that the utility model reaches:

The utility model energy-saving and environmental protecting, structure is simple, the energy requirement that multiple renewable resources realizes needed for greenhouse can be utilized, eliminate pollution and the consumption of the disposable energy, for multiple renewable energy sources is in the demonstration multi-fieldly realizing energy-saving and emission-reduction, high-efficiency low-carbon, recycling economy make successful Application, be specifically described below.

(1) multiple renewable sources of energy comprehensive utilization: renewable energy comprehensive utilizes liking low-carbon (LC) greenhouse, adopt the pattern of wind energy, solar energy and biomass energy multiple renewable energy sources comprehensive utilization, set up compound energy system, the energy can be provided to energy-saving warm house, reduce the use to fossil fuel simultaneously, reach energy-saving and emission-reduction.

(2) gravitational drip irrigation system in low-carbon (LC) greenhouse, can run by driving arrangement by very little pressure reduction, uses ideal, save water and energy in the Northwest of the few electricity of lack of water; Meanwhile, adopt inside thermal screen and microlight-type Surgery therapy by Double insulating system, body of wall fill insulant material, daytime obtains solar energy, is discharged by wall at night, and heat insulation effect is good, reaches energy-conservation object.

(3) straw fuel gas of Biomass energy stove manufacture, belongs to green novel energy source, has powerful vitality.The raw material produced due to plant gas is agricultural crop straw, forest tree castoff, edible fungi residues, cattle and sheep animal manure and all inflammable substances, is a kind of inexhaustible regenerated resources.But, in the current rural energy resources structure of China, comprise straw fuel gas, natural gas, liquefied gas, biogas, solar energy, electricity, raw coal, honeycomb briquette, former plant fuel.In the middle of, only have that straw fuel gas is most economical, most convenient, the most energy-conservation, the most applicable, not only use safety, and sanitation and hygiene.Each peasant household only needs plant material 3-5 kilogram every day, can solve whole day life energy, and burn as liquefied gas, can change the life style that China's rural area smoke fire burns completely, can ban traditional bavin stove completely, substitute liquefied gas.

(4) the low-carbon (LC) greenhouse energy requirement that utilizes multiple renewable energy sources complement mode to realize needed for greenhouse, eliminates the pollution of the disposable energy.Biomass gasification technology is utilized to solve the heat supplement in low-carbon (LC) greenhouse.Reach accurate control by precision plantation software control, comprise accurate control temperature, precisely use water, accurate fertile, precisely medication, conscientiously accomplish water saving, joint fertilizer, joint medicine, for Agricultural Clean provides demonstration.

Accompanying drawing explanation

Fig. 1 is shown as a kind of low-carbon (LC) Greenhouse System device overall schematic.

Fig. 2 is shown as solar photovoltaic generation system module diagram in a kind of low-carbon (LC) Greenhouse System device.

Fig. 3 is shown as biomass gasifying furnace schematic diagram in a kind of low-carbon (LC) Greenhouse System device.

Fig. 4 is shown as low-carbon (LC) greenhouse schematic diagram in a kind of low-carbon (LC) Greenhouse System device.

In Fig. 1-4: 1-low-carbon (LC) greenhouse, 2-electric power system module, 3-temperature control system module, 4-liquid manure monitoring regulator control system module, 5-ventilating opening, 6-warming plate, 7-column, 8-solar panel, 9-reflective mirror, 10-electric energy output end, 11-discharge and recharge transformer, 12-batteries, 13-voltage detector, 14-charging control circuit, 15-battery pack, 16-inverter, 17-output circuit, 18-transformer, 19-electric boiler, 20-biomass gasifying furnace, 21-fuel chambers, 22-end cap, 23-slag-drip opening, 24-air air inlet, 25-Roots blower, 26-air inlet, 27-micropore ceramic filter element, 28-filter, 29-control valve, 30-pressure regulation airduct, 31-wind power generation system module, 32-solar photovoltaic generation system module.

Embodiment

1 to accompanying drawing 4 by reference to the accompanying drawings, illustrate, but the utility model is not limited to following embodiment for embodiment.

A kind of low-carbon (LC) Greenhouse System device that utility model provides is described below:

A kind of low-carbon (LC) Greenhouse System device monitors regulator control system module (4) by low-carbon (LC) greenhouse (1), temperature control system module (3), liquid manure and electric power system module (2) forms; Temperature control system module (3), liquid manure monitoring regulator control system module (4) are connected with low-carbon (LC) greenhouse (1) respectively with electric power system module (2); Electric power system module (1) comprises solar photovoltaic generation system module (32) and wind power generation system module (31); Temperature control system module (3) comprises electric boiler (19) and biomass gasifying furnace (20); Wherein, solar photovoltaic generation system module (33) is made up of (9) connection in series-parallel of several solar panels solar cell array unit, electric energy output end (10), discharge and recharge transformer (11), batteries (12), inverter (16), output circuit (17), transformer (18) form; Biomass gasifying furnace (20) comprises fuel chambers (21), Roots blower (25) and pneumatic filter (28); Low-carbon (LC) greenhouse (1) is made up of polylith warming plate (6) and multiple column (7).

In the utility model, electric energy output end (10) in solar cell array unit is connected with batteries (12) by discharge and recharge transformer (11), batteries (12) is connected with output circuit (17) by inverter (16), output circuit (17) is connected with transformer (18), finally, by transformer (18), electric energy is transported to low-carbon (LC) greenhouse (1), for low-carbon (LC) greenhouse.Solar panel (8) both sides are provided with reflective mirror (9), and reflective mirror (9) is connected by hydraulicefficiency hinge with solar panel (8), and between reflective mirror (9) and solar panel (8), shape forms an angle.

In the utility model, the fuel chambers (21) in biomass gasifying furnace (20) is outside equipped with end cap (22), fuel chambers (21) lower sides is provided with air air inlet (24) and slag-drip opening (23); Roots blower (25) is connected with air air inlet (24), and the top of fuel chambers (21) is provided with air inlet (26), and air inlet (26) is connected with pneumatic filter (28); Pneumatic filter (28) is provided with control valve (29) and micropore ceramic filter element (27), the number of micropore ceramic filter element (27) is set to multiple; The air outlet of Roots blower (25) is connected with pneumatic filter (28) by pressure regulation airduct (30).

In the utility model, multiple columns (7) in low-carbon (LC) greenhouse (1) are along the uniform setting of length direction of big-arch shelter wall, polylith warming plate (6) is arranged on the front/rear end of column (7) along the length direction of body of wall, and form cavity between two-layer warming plate (6), low-carbon (LC) greenhouse wall body is provided with multiple ventilating opening (5).

According to actual needs, above-mentioned low-carbon (LC) Greenhouse System device can be made further optimization and/or improvements and is further described:

In the utility model, the angle between reflective mirror (9) and solar panel (8) is 10-50 °.The length in low-carbon (LC) greenhouse (1) is 8-12m, is highly 3-6m.

In the utility model, batteries (12) has charging control circuit (14), charging control circuit (14) is provided with battery pack (15) in parallel, and in every grade of battery pack (15), is equipped with the voltage detector (13) be connected with charging control circuit (14).Voltage detector (13) is equipped for receiving light and generating the signal of telecommunication, there is housing and be arranged in the detector in described housing, detector comprises and being equipped with for receiving light and discharging the optical sensor of electronics, and wherein said optical sensor is in the potential level lower than described housing; Detector is by electric insulation intermediate arrangement and described housing thermal conductive contact, and the heat conduction direction in housing is contrary with the optical propagation direction of described light to be detected.

In the utility model, by adopting the pattern of wind energy, solar energy and biomass energy multiple renewable energy sources comprehensive utilization, setting up compound energy system, the energy can be provided to energy-saving warm house, reducing the use to fossil fuel simultaneously, reach energy-saving and emission-reduction.

In the utility model, the gravitational drip irrigation system in low-carbon (LC) greenhouse, can run by driving arrangement by very little pressure reduction, uses ideal, save water and energy in the Northwest of the few electricity of lack of water; Meanwhile, adopt inside thermal screen and microlight-type Surgery therapy by Double insulating system, body of wall fill insulant material, daytime obtains solar energy, is discharged by wall at night, and heat insulation effect is good, reaches energy-conservation object.

In the utility model, the straw fuel gas that Biomass energy stove manufactures, belongs to green novel energy source, has powerful vitality.The raw material produced due to plant gas is agricultural crop straw, forest tree castoff, edible fungi residues, cattle and sheep animal manure and all inflammable substances, is a kind of inexhaustible regenerated resources.Current fuel in China's rural areas structure, comprises straw fuel gas, natural gas, liquefied gas, biogas, solar energy, electricity, raw coal, honeycomb briquette, former plant fuel.In the middle of, only have that straw fuel gas is most economical, most convenient, the most energy-conservation, the most applicable, not only use safety, and sanitation and hygiene.Each peasant household only needs plant material 3-5 kilogram every day, can solve whole day life energy, and burn as liquefied gas, can change the life style that China's rural area smoke fire burns completely, can ban traditional bavin stove completely, substitute liquefied gas.

In the utility model, the energy requirement that low-carbon (LC) greenhouse utilizes multiple renewable energy sources complement mode to realize needed for greenhouse, eliminates the pollution of the disposable energy.Biomass gasification technology is utilized to solve the heat supplement in low-carbon (LC) greenhouse.Reach accurate control by precision plantation software control, comprise accurate control temperature, precisely use water, accurate fertile, precisely medication, conscientiously accomplish water saving, joint fertilizer, joint medicine, for Agricultural Clean provides demonstration.

As mentioned above; the utility model can be realized preferably; the above embodiments are only be described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection domain that the utility model determines.

Claims (8)

1. a low-carbon (LC) Greenhouse System device, is characterized in that, this system and device is made up of low-carbon (LC) greenhouse, temperature control system temperature control system module, liquid manure monitoring regulator control system liquid manure monitoring regulator control system module and electric power system electric power system module; Temperature control system temperature control system module, liquid manure monitoring regulator control system liquid manure monitoring regulator control system module is connected with low-carbon (LC) greenhouse respectively with electric power system electric power system module; Electric power system electric power system module comprises solar photovoltaic generation system solar photovoltaic generation system module and wind power generation system wind power generation system module; Temperature control system temperature control system module comprises electric boiler and biomass gasifying furnace; The solar cell array that solar photovoltaic generation system module is made up of several solar cell plate serioparallels, electric energy output end, discharge and recharge transformer, batteries, inverter, output circuit, transformer form; Biomass gasifying furnace comprises fuel chambers, Roots blower and pneumatic filter.

2. low-carbon (LC) Greenhouse System device as claimed in claim 1, it is characterized in that, the solar cell array that described solar photovoltaic generation system is made up of several solar cell plate serioparallels, electric energy output end, discharge and recharge transformer, batteries, inverter, output circuit, transformer form, wherein, the electric energy output end of solar cell array is connected with batteries by discharge and recharge transformer, batteries is connected with output circuit by inverter, output circuit is connected with transformer, by transformer, electric energy is transported to low-carbon (LC) greenhouse.

3. low-carbon (LC) Greenhouse System device as claimed in claim 1, it is characterized in that, described solar panel both sides are provided with reflective mirror, and reflective mirror is connected by hydraulicefficiency hinge with solar panel, and between reflective mirror and solar panel, shape forms an angle.

4. low-carbon (LC) Greenhouse System device as claimed in claim 1, it is characterized in that, the fuel chambers in described biomass gasifying furnace is outside equipped with end cap, fuel chambers lower sides is provided with air air inlet and slag-drip opening; Roots blower is connected with air air inlet, and the top of fuel chambers is provided with air inlet, and air inlet is connected with pneumatic filter; Pneumatic filter is provided with control valve and micropore ceramic filter element, the number of micropore ceramic filter element is set to multiple; The air outlet of Roots blower is connected with pneumatic filter by pressure regulation airduct.

5. low-carbon (LC) Greenhouse System device as claimed in claim 1, it is characterized in that, multiple columns in described low-carbon (LC) greenhouse are along the uniform setting of length direction of big-arch shelter wall, polylith warming plate is arranged on the front/rear end of column along the length direction of body of wall, and form cavity between two-layer warming plate, low-carbon (LC) greenhouse wall body is provided with multiple ventilating opening.

6. low-carbon (LC) Greenhouse System device as claimed in claim 1, it is characterized in that, described batteries has charging control circuit, charging control circuit is provided with battery pack in parallel, and in every grade of battery pack, is equipped with the voltage detector be connected with charging control circuit.

7. low-carbon (LC) Greenhouse System device as claimed in claim 3, it is characterized in that, the angle between described reflective mirror and solar panel is 10-50 °.

8. low-carbon (LC) Greenhouse System device as claimed in claim 5, it is characterized in that, the length in described low-carbon (LC) greenhouse is 8-12m, is highly 3-6m.