CN205453275U - Rice seedlings raising big -arch shelter monitoring system based on solar energy and wind -force power supply - Google Patents

Abstract

The utility model discloses a rice seedlings raising big -arch shelter monitoring system based on solar energy and wind -force power supply, including solar energy power module, wind -force power module, the battery, information acquisition module, microprocessor and monitor terminal, solar energy power module, wind -force power module all is connected with the battery, the battery is information acquisition module, microprocessor provides the electric energy, microprocessor is connected with monitor terminal through wireless networking, information acquisition module includes the soil pH value sensor, soil temperature and humidity sensor, the air temperature and humidity sensor, the carbon dioxide sensor, light intensity sensor and camera. The beneficial effect of the utility model: can pass through solar energy power module, wind -force power module is this mains power supply, energy saving and cost.

Description

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply

Technical field

This utility model relates generally to booth monitoring field, a kind of seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply.

Background technology

At present, in order to advance fine farming, improving crop yield and quality, more and more bring up plant in booth, wherein the illumination in booth, aerial temperature and humidity, soil fertility, soil temperature and humidity etc. are the key factors affecting crop-planting.In order to ensure the normal growth of crop, the environment in booth and soil information can be learnt in time by monitoring system, carry out nursery measure in time, improve crop yield and quality.But the existing general energy consuming ratio of monitoring system is relatively big, causes relatively costly, and existing monitoring system does not the most all account for the growing state of crop self, is not easy to observe directly the concrete condition of rice shoot.

Utility model content

In order to solve deficiency of the prior art, this utility model provides a kind of seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply, can be that accumulator is charged by solar powered module, wind power supply module, then it is information acquisition module and microprocessor power supply by accumulator, the energy and cost can be saved, the environmental information in booth and soil information is learnt by the setting of information acquisition module, the growing state of crop can also be observed intuitively, in order to carry out nursery measure in time by photographic head.

This utility model for achieving the above object, is achieved through the following technical solutions:

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply, including solar powered module, wind power supply module, accumulator, information acquisition module, microprocessor and monitoring terminal, described solar powered module, wind power supply module is all connected with accumulator, described accumulator is information acquisition module, microprocessor provides electric energy, described microprocessor is connected with monitoring terminal by Wi-Fi, described information acquisition module includes soil pH value sensor, soil temperature-moisture sensor, aerial temperature and humidity sensor, carbon dioxide sensor, intensity of illumination sensor and photographic head.

Described monitoring terminal is mobile phone terminal or/and computer terminal.

Described solar powered module includes that firm banking, the top of described firm banking are provided with support bar, and described support bar is provided with solar panel, and described solar panel is connected with accumulator.

It is provided with angle regulator between described solar panel and support bar, described angle regulator includes being arranged at the first pole of solar panel upper end and being arranged at the second pole of solar panel lower end, one end of described first pole is fixing with solar panel to be connected, the other end of the first pole is connected by the first fastening bolt with support bar, one end of described second pole is rotationally connected with solar panel, the other end of the second pole is connected by the second fastening bolt with support bar, and second pole be provided with several adjustment holes adapted with the second fastening bolt.

Described wind power supply module includes that wind energy engine, described wind energy engine are arranged at the top of support bar, and are rotationally connected with support bar, and described wind energy engine is connected with accumulator.

The bottom of described firm banking is provided with a spike.

Contrast prior art, this utility model has the beneficial effects that:

1, this utility model can be that accumulator is charged by solar powered module, wind power supply module, then it is information acquisition module and microprocessor power supply by accumulator, save the energy and cost, and the environmental information in booth and soil information can be learnt by the setting of information acquisition module, the growing state of crop can also be observed intuitively, in order to carry out nursery measure in time by photographic head.

2, remote real-time monitoring can be realized by mobile phone terminal or computer terminal, and general mobile phone all can be carried with, and can also be learnt the concrete condition of seedling cultivation of rice at any time by mobile phone terminal.

3, solar panel and wind energy engine are both secured on the support bar of firm banking, simple and convenient, and the adjustable angle of solar panel, can meet different angle requirement, it is simple to preferably obtain the energy.

4, the bottom of firm banking is provided with spike, can insert a underground by a spike, and make that this utility model fixes is more firm.

Accompanying drawing explanation

Accompanying drawing 1 is structural schematic block diagram of the present utility model.

Accompanying drawing 2 is the structural representation of firm banking.

Label shown in accompanying drawing: 1, solar powered module；11, firm banking；12, support bar；13, solar panel；14, the first pole；15, the second pole；16, the first fastening bolt；17, the second fastening bolt；18, adjustment hole；19, spike is propped up；2, wind power supply module；21, wind energy engine；3, accumulator；4, information acquisition module；41, soil pH value sensor；42, soil temperature-moisture sensor；43, aerial temperature and humidity sensor；44, carbon dioxide sensor；45, intensity of illumination sensor；46, photographic head；5, microprocessor；6, Wi-Fi；71, mobile phone terminal；72, computer terminal.

Detailed description of the invention

In conjunction with the drawings and specific embodiments, the utility model is described in further detail.Should be understood that these embodiments are merely to illustrate this utility model rather than limit scope of the present utility model.In addition, it is to be understood that after having read the content that this utility model is lectured, this utility model can be made various changes or modifications by those skilled in the art, and these equivalent form of values fall within the application appended claims limited range equally.

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply, including solar powered module 1, wind power supply module 2, accumulator 3, information acquisition module 4, microprocessor 5 and monitoring terminal, described solar powered module 1, wind power supply module 2 are all connected with accumulator 3, solar energy can be made full use of and wind energy is that native system is powered, save the energy and cost.Described accumulator 3 is information acquisition module 4, microprocessor 5 provides electric energy, described microprocessor 5 is connected with monitoring terminal by Wi-Fi 6, by Wi-Fi 6, the environmental information that information acquisition module 4 gathers is delivered to monitoring terminal, the environmental information being then i.e. appreciated that in seedling cultivation of rice booth and the growing state of Oryza sativa L. by monitoring terminal.Described information acquisition module 4 includes soil pH value sensor 41, soil temperature-moisture sensor 42, aerial temperature and humidity sensor 43, carbon dioxide sensor 44, intensity of illumination sensor 45 and photographic head 46.The pH value of soil is gathered by soil pH value sensor 41, the humiture information of soil is gathered by soil temperature-moisture sensor 42, the humiture in booth is gathered by aerial temperature and humidity sensor 43, the gas concentration lwevel in booth is gathered by carbon dioxide sensor 44, gathered the intensity of illumination in booth by intensity of illumination sensor 45, gathered the growing state of Oryza sativa L. by photographic head 46.

Further, described monitoring terminal is mobile phone terminal 71 or/and computer terminal 72.Can be to the environmental information in booth, soil information and plant growth information realization remote real-time monitoring by mobile phone terminal 71 or computer terminal 72, and general mobile phone all can be carried with, and can also be learnt the concrete condition of seedling cultivation of rice at any time by mobile phone terminal 71.

Further, described solar powered module 1 includes that firm banking 11, the top of described firm banking 11 are provided with support bar 12, and described support bar 12 is provided with solar panel 13, and described solar panel 13 is connected with accumulator 3.Solar panel 13 is fixed on the support bar 12 of firm banking 11, solar panel 13 can be made can preferably to obtain the energy, it is simple to preferably charge for accumulator 3 by mobile firm banking 11 to adjust the position of solar panel 13.

nullFurther，It is provided with angle regulator between described solar panel 13 and support bar 12，Described angle regulator includes the first pole 14 being arranged at solar panel 13 upper end and is arranged at the second pole 15 of solar panel 13 lower end，One end of described first pole 14 is fixing with solar panel 13 to be connected，The other end of the first pole 14 is connected by the first fastening bolt 16 with support bar 12，One end of described second pole 15 is rotationally connected with solar panel 13，The other end of the second pole 15 is connected by the second fastening bolt 17 with support bar 12，And second pole 15 be provided with several adjustment holes 18 adapted with the second fastening bolt 17，Second fastening bolt 17 can be connected through different adjustment holes 18 with support bar 12，Such that it is able to make solar panel 13 have different angles.The angle of solar panel 13 can be regulated, it is simple to adapt to different angle demand, it is simple to preferably obtain the energy, it is simple to preferably charge for accumulator 3.

Further, described wind power supply module 2 includes that wind energy engine 21, described wind energy engine 21 are arranged at the top of support bar 12, and is rotationally connected with support bar 12, and described wind energy engine 21 is connected with accumulator 3.Solar panel 13 and wind energy engine 21 are both secured on the support bar 12 of firm banking 11, install simple and convenient, and without other wind energy engine 21 fixing device, can be cost-effective.

Further, the bottom of described firm banking 11 is provided with spike 19, and a spike 19 is inserted underground, makes fixing more firm of this utility model.

Embodiment

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply, including solar powered module 1, wind power supply module 2, accumulator 3, information acquisition module 4, microprocessor 5 and monitoring terminal.Described solar powered module 1, wind power supply module 2 are all connected with accumulator 3, and described accumulator 3 is information acquisition module 4, microprocessor 5 provides electric energy.Described microprocessor 5 is connected with monitoring terminal by Wi-Fi 6, and described monitoring terminal is mobile phone terminal 71 and computer terminal 72.Described information acquisition module 4 includes soil pH value sensor 41, soil temperature-moisture sensor 42, aerial temperature and humidity sensor 43, carbon dioxide sensor 44, intensity of illumination sensor 45 and photographic head 46.Described solar powered module 1 includes that firm banking 11, the top of described firm banking 11 are provided with support bar 12, and described support bar 12 is provided with solar panel 13, and described solar panel 13 is connected with accumulator 3.It is provided with angle regulator between described solar panel 13 and support bar 12, described angle regulator includes the first pole 14 being arranged at solar panel 13 upper end and is arranged at the second pole 15 of solar panel 13 lower end, one end of described first pole 14 is fixing with solar panel 13 to be connected, the other end is connected by the first fastening bolt 16 with support bar 12, one end of described second pole 15 is rotationally connected with solar panel 13, the other end is connected by the second fastening bolt 17 with support bar 12, and second pole 15 be provided with several adjustment holes 18 adapted with the second fastening bolt 17.Described wind power supply module 2 includes that wind energy engine 21, described wind energy engine 21 are arranged at the top of support bar 12, and is rotationally connected with support bar 12, and described wind energy engine 21 is connected with accumulator 3.The bottom of described firm banking 11 is provided with a spike 19.Having the beneficial effects that of the present embodiment: electric energy can be provided by various sensors and the photographic head that solar powered module, wind power supply module, accumulator are information acquisition module, save the energy and cost；All can realize remote real-time monitoring by mobile phone terminal or computer terminal, and general mobile phone all can be carried with, and can also be learnt the concrete condition of seedling cultivation of rice at any time by mobile phone terminal；Solar panel and wind energy engine are both secured to the support bar of firm banking, simple and convenient, cost-effective, and the adjustable angle of solar panel, can meet different angle requirement, it is simple to preferably obtain the energy；The bottom of firm banking is provided with spike, can insert a underground by a spike, and make that this utility model fixes is more firm.

Claims (6)

1. seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply, it is characterized in that: include solar powered module (1), wind power supply module (2), accumulator (3), information acquisition module (4), microprocessor (5) and monitoring terminal, described solar powered module (1), wind power supply module (2) is all connected with accumulator (3), described accumulator (3) is information acquisition module (4), microprocessor (5) provides electric energy, described microprocessor (5) is connected with monitoring terminal by Wi-Fi (6), described information acquisition module (4) includes soil pH value sensor (41), soil temperature-moisture sensor (42), aerial temperature and humidity sensor (43), carbon dioxide sensor (44), intensity of illumination sensor (45) and photographic head (46).

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply the most according to claim 1, is characterized in that: described monitoring terminal is mobile phone terminal (71) or/and computer terminal (72).

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply the most according to claim 1, it is characterized in that: described solar powered module (1) includes firm banking (11), the top of described firm banking (11) is provided with support bar (12), described support bar (12) is provided with solar panel (13), and described solar panel (13) is connected with accumulator (3).

nullSeedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply the most according to claim 3，It is characterized in that: between described solar panel (13) and support bar (12), be provided with angle regulator，Described angle regulator includes the first pole (14) being arranged at solar panel (13) upper end and is arranged at second pole (15) of solar panel (13) lower end，One end of described first pole (14) is fixing with solar panel (13) to be connected，The other end of the first pole (14) is connected by the first fastening bolt (16) with support bar (12)，One end of described second pole (15) is rotationally connected with solar panel (13)，The other end of the second pole (15) is connected by the second fastening bolt (17) with support bar (12)，And second pole (15) be provided with several adjustment holes (18) adapted with the second fastening bolt (17).

5. according to the seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply described in claim 3 or 4, it is characterized in that: described wind power supply module (2) includes wind energy engine (21), described wind energy engine (21) is arranged at the top of support bar (12), and be rotationally connected with support bar (12), described wind energy engine (21) is connected with accumulator (3).

Seedling cultivation of rice greenhouse monitoring system based on solar energy and wind power supply the most according to claim 5, is characterized in that: the bottom of described firm banking (11) is provided with a spike (19).