CN205337050U - Energy -conserving solar photovoltaic green house - Google Patents

Abstract

The utility model discloses an energy -conserving solar photovoltaic green house mainly solves the current green house who exists and consumes energy in the use among the prior art, the current big -arch shelter that utilizes solar energy is in season in spring and autumn or have make the problem that solar energy can not be utilized because illumination is more weak the winter of sunshine. The utility model discloses a can dismantle in proper order including big -arch shelter body, a plurality of solar collector and connect to form solar energy collection group, solar energy collection group can dismantle the outer wall of setting at the big -arch shelter body, solar collector's both ends be connected with respectively admits air the chamber with go out the air cavity, go out the air cavity through the pipeline in proper order with big -arch shelter body, suction fan, the chamber intercommunication that admits air, go out to be equipped with the 2nd air outlet solenoid valve on the pipeline between air cavity and the big -arch shelter body suction fan and admit air and be equipped with air solenoid valve on the pipeline between the chamber, solar collector's outward flange evenly is equipped with a plurality of light collection device. By the proposal, the utility model discloses the mesh that reduces the big -arch shelter energy consumption and can utilize more weak sunlight in spring and autumn season has been reached.

Description

Energy-saving solar photovoltaic agricultural greenhouse

Technical field

This utility model relates to photovoltaic application technical field, specifically, relates to a kind of energy-saving solar photovoltaic agricultural greenhouse.

Background technology

In today that the non-renewable energy resources such as coal and oil are day by day deficient, energy problem becomes problem more and more important in socio-economic development process；Along with the development of science and technology, agricultural greenhouse is widely used in agricultural production, as cultivating grape, forest seedling growth, raised pigs；The function of booth is also more and more perfect, people can according to the temperature needing to regulate in booth of crops, humidity, illumination etc., but the power consumption that the illumination needed for the control of any environment condition of booth all be unable to do without the use, particularly crop growth of electric energy, heating, cooling make agricultural greenhouse is huge；Therefore existing agricultural greenhouse in use consumes energy greatly so that it is use cost increases；The existing booth utilizing solar energy, but it in season in spring and autumn or has make solar energy not to be utilized owing to illumination is more weak the winter of sunlight.

Utility model content

Problem to be solved in the utility model is that existing agricultural greenhouse in use consumes energy greatly so that it is use cost increases；The existing booth utilizing solar energy, but it in season in spring and autumn or has make solar energy not to be utilized owing to illumination is more weak the winter of sunlight.

In order to solve the problems referred to above, this utility model provides following technical scheme:

Energy-saving solar photovoltaic agricultural greenhouse includes greenhouse body, multiple solar thermal collector；Multiple solar thermal collectors removably connect successively and form solar energy heating group, and solar energy heating group is detachably arranged at the outer wall of greenhouse body；The two ends of solar thermal collector are connected to inlet chamber and outlet chamber, outlet chamber is connected with greenhouse body, induced-draught fan, inlet chamber successively by pipeline, pipeline between outlet chamber and greenhouse body is provided with second and gives vent to anger electromagnetic valve, and the pipeline between induced-draught fan and inlet chamber is provided with air inlet electromagnetic valve；The outward flange of solar thermal collector is uniformly provided with multiple light collecting device.

Further, outlet chamber is connected to solaode by pipeline, and the pipeline between outlet chamber and solaode is provided with first and gives vent to anger electromagnetic valve；Solaode is production capacity mode be light be converted into heat be then converted to electricity battery.

Specifically, energy-saving solar photovoltaic agricultural greenhouse also includes controller, at least one temperature sensor；Temperature sensor is arranged in greenhouse body, and the signal input part of its outfan and controller is electrically connected；First give vent to anger the control signal input of electromagnetic valve, second give vent to anger the control signal input of electromagnetic valve, the control signal input of air inlet electromagnetic valve, induced-draught fan corresponding with the controller respectively control end of control signal input connect.

Specifically, light collecting device is paraboloid condenser；Angle between its caustic surface and end face of solar thermal collector is obtuse angle；Obtuse angle makes more solar irradiation be mapped on solar thermal collector.

Specifically, pass through buckle between adjacent solar thermal collector or buckle connection；Buckle or buckle other modes of removably connecting available and replace.

Compared with prior art, this utility model has the advantages that

(1) this utility model makes more solar irradiation be mapped on solar thermal collector by light collecting device, solar energy can be more utilized relative to existing booth, save the energy consumption of booth, and in season in spring and autumn or have also can provide solar energy for booth the winter of sunlight, decrease the energy consumption of booth.

(2) when in greenhouse body, temperature reaches demand, solar energy is converted to electrical power storage for other electrical equipments by solaode, decreases the power consumption of other equipment, make use cost of the present utility model reduce, and solar environment friendly is pollution-free, for regenerative resource.

(3) people can select the quantity of solar thermal collector according to actual needs, detachably descends solar thermal collector in the season not having the sun, makes this utility model energy secondary utilize and can be suitably used for can not the booth of size specification so that it is use wider；Can Maintenance and Repair when solar thermal collector takes off so that it is longer service life.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment 1.

Fig. 2 is the structural representation of embodiment 2.

In above-mentioned accompanying drawing, the component names that accompanying drawing labelling is corresponding is as follows:

1-solaode, 2-first gives vent to anger electromagnetic valve, 3-paraboloid condenser, 4-inlet chamber, 5-air inlet electromagnetic valve, 6-induced-draught fan, 7-greenhouse body, and 8-second gives vent to anger electromagnetic valve, 9-outlet chamber, 10-solar thermal collector, 11-temperature sensor, 12-controller.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail, and embodiment of the present utility model includes but not limited to the following example.

Embodiment 1

As it is shown in figure 1, energy-saving solar photovoltaic agricultural greenhouse includes greenhouse body 7, controller 12, temperature sensor 11, a multiple solar thermal collector 10；Multiple solar thermal collectors 10 removably connect successively and form solar energy heating group, and solar energy heating group is detachably arranged at the outer wall of greenhouse body 7；The two ends of solar thermal collector 10 are connected to inlet chamber 4 and outlet chamber 9, outlet chamber 9 is connected with greenhouse body 7, induced-draught fan 6, inlet chamber 4 successively by pipeline, pipeline between outlet chamber 9 and greenhouse body 7 is provided with second and gives vent to anger electromagnetic valve 8, and the pipeline between induced-draught fan 6 and inlet chamber 4 is provided with air inlet electromagnetic valve 5；The outward flange of solar thermal collector 10 is uniformly provided with multiple light collecting device；Temperature sensor 11 is arranged in greenhouse body 7, and the signal input part of its outfan and controller 12 is electrically connected；First give vent to anger the control signal input of electromagnetic valve 2, second give vent to anger the control signal input of electromagnetic valve 8, the control signal input of air inlet electromagnetic valve 5, induced-draught fan 6 corresponding with the controller 12 respectively control end of control signal input connect.

Wherein, light collecting device is paraboloid condenser 3；Angle between the end face of its caustic surface and solar thermal collector 10 is obtuse angle；Obtuse angle makes more solar irradiation be mapped on solar thermal collector 10；Obtuse angle optimum is 135 °；Pass through buckle between adjacent solar thermal collector 10 or buckle connection；Buckle or buckle other modes of removably connecting available and replace；The demand of sunlight and temperature can be determined the quantity of solar thermal collector 10 by people according to strong, the crops of practical situation such as sunlight；The quantity of temperature sensor 11, light collecting device quantity determine particular number all in accordance with practical situation.

Embodiment 2

As in figure 2 it is shown, the difference of the present embodiment and embodiment 1 is in that, outlet chamber 9 is connected to solaode 1 by pipeline, and the pipeline between outlet chamber 9 and solaode 1 is provided with first and gives vent to anger electromagnetic valve 2；Solaode 1 for production capacity mode be light be converted into heat be then converted to electricity battery.

As shown in Figure 2, embodiment 1 and embodiment 2 are in use, sunlight is radiated on solar thermal collector 10 directly or by light collecting device, solar thermal collector 10 produces heat and enters outlet chamber 9, temperature in booth cup is sent to controller 12 by temperature sensor 11 in greenhouse body 7 in real time, controller 12 judges that the temperature in greenhouse body 7 is whether in the normal demand temperature range of crops, it is, controller 12 then controls air inlet electromagnetic valve 5, second gives vent to anger electromagnetic valve 8 and induced-draught fan 6 cuts out, first electromagnetic valve 2 of giving vent to anger is opened, heat in outlet chamber 9 is sent to solaode 1 and is converted to electric energy other electrical equipments for booth, such as plant growth lamp, save the consumption of other electric energy；No, controller 12 then controls the first electromagnetic valve 2 of giving vent to anger and cuts out, air inlet electromagnetic valve 5, second give vent to anger electromagnetic valve 8 and induced-draught fan 6 is opened, heat is entered greenhouse body 7 heated up for greenhouse body 7 by the second electromagnetic valve 8 of giving vent to anger, cold air enters inlet chamber 4 by air inlet electromagnetic valve 5 under the effect of induced-draught fan 6, has been heated the cold-hot wind circulation of greenhouse body 7 again through solar thermal collector 10；This utility model makes more solar irradiation be mapped on solar thermal collector 10 by light collecting device, solar energy can be more utilized relative to existing booth, save the energy consumption of booth, and in season in spring and autumn or have also can provide solar energy for booth the winter of sunlight, decrease the energy consumption of booth；When in greenhouse body 7, temperature reaches demand, solar energy is converted to electrical power storage for other electrical equipments by solaode 1, decreases the power consumption of other equipment, make use cost of the present utility model reduce, and solar environment friendly is pollution-free, for regenerative resource；People can select the quantity of solar thermal collector 10 according to actual needs, detachably descends solar thermal collector 10 in the season not having the sun, makes this utility model energy secondary utilize and can be suitably used for can not the booth of size specification so that it is use wider；Can Maintenance and Repair when solar thermal collector 10 takes off so that it is longer service life.

According to above-described embodiment, this utility model just can be realized well.What deserves to be explained is; under premise based on said structure design; for solving same technical problem; even if some making on this utility model are without substantial change or polishing; the essence of the technical scheme adopted is still the same with this utility model, therefore it should also be as in protection domain of the present utility model.

Claims (5)

1. an energy-saving solar photovoltaic agricultural greenhouse, including greenhouse body (7), it is characterised in that: also include multiple solar thermal collector (10)；Multiple solar thermal collectors (10) removably connect successively and form solar energy heating group, and solar energy heating group is detachably arranged at the outer wall of greenhouse body (7)；The two ends of solar thermal collector (10) are connected to inlet chamber (4) and outlet chamber (9), outlet chamber (9) is connected with greenhouse body (7), induced-draught fan (6), inlet chamber (4) successively by pipeline, pipeline between outlet chamber (9) and greenhouse body (7) is provided with second and gives vent to anger electromagnetic valve (8), and the pipeline between induced-draught fan (6) and inlet chamber (4) is provided with air inlet electromagnetic valve (5)；The outward flange of solar thermal collector (10) is uniformly provided with multiple light collecting device.

2. energy-saving solar photovoltaic agricultural greenhouse according to claim 1, it is characterized in that: outlet chamber (9) is connected to solaode (1) by pipeline, the pipeline between outlet chamber (9) and solaode (1) is provided with first and gives vent to anger electromagnetic valve (2)；Solaode (1) for production capacity mode be light be converted into heat be then converted to electricity battery.

3. energy-saving solar photovoltaic agricultural greenhouse according to claim 2, it is characterised in that: also include controller (12), at least one temperature sensor (11)；Temperature sensor (11) is arranged in greenhouse body (7), and the signal input part of its outfan and controller (12) is electrically connected；First give vent to anger the control signal input of electromagnetic valve (2), second give vent to anger the control signal input of electromagnetic valve (8), the control signal input of air inlet electromagnetic valve (5), induced-draught fan (6) corresponding with controller (12) the respectively control end of control signal input connect.

4. energy-saving solar photovoltaic agricultural greenhouse according to claim 3, it is characterised in that: light collecting device is paraboloid condenser (3)；Angle between the end face of its caustic surface and solar thermal collector (10) is obtuse angle.

5. energy-saving solar photovoltaic agricultural greenhouse according to claim 4, it is characterised in that: pass through buckle between adjacent solar thermal collector (10) or buckle connection.