A kind of greenhouse data collector and monitoring system
Technical field
The utility model relates to warmhouse booth field, particularly relates to a kind of greenhouse data collector and monitoring system.
Background technology
Industrialized agriculture integrates bioengineering, agricultural engineering and environmental engineering, the systems engineering of trans-departmental, multidisciplinary synthesis, in extraneous uncomfortable season, by facility and environmental modulation, for crop builds comparatively suitable growing environment, it is made to reach precocity, high yield, high-quality and efficient intensive manufacture mode.
Industrialized agriculture is a kind of high investment high production, knowledge and technology-intensive intensive industry.Because industrialized agriculture has certain environment conditioning ability, surrounding environment can be changed to adapt to plant growth, so be the effective means of high-quality, a large amount and off-season cultivation.Modern greenhouse, as an aspect of industrialized agriculture, serves irreplaceable effect in agricultural produce increment.Along with greenhouse technology worldwide obtains extensively, the importance of the parameter acquisition system of greenhouse is further outstanding.The collection of greenhouse environment parameter to improve the degree of accuracy of environmental Kuznets Curves, economize energy, raising greenhouse management level, improve greenhouse quantity and quality and final improve greenhouse social benefit and economic benefit play very important effect, be one of key link realizing its production automation and high efficiency.
But, in current greenhouse data acquisition, the overwhelming majority is the self-organizing system being in enclosed environment, the data interim storage collected, in data acquisition unit, is derived from RS232/485 serial by by wire, and this has certain distance with the network technology with internet being platform now.Although the Related product having RS232 to turn TC/PIP solves the problem of networking in the mode of patch installing, this is faulty.The major issue generally faced in Promote IT Application in Agriculture is exactly sharing of information resources.Information sharing is informationalized key problem.Distributed heterogeneous resource shared is the bottleneck of cybertimes, and gridding technique will be solve interconnecting of application, eliminate information island, realize an important development direction of information resources share.
By with the agricultural data collector of some on market with and monitoring system carry out deep investigation, find the following defect of existing greenhouse data collector ubiquity and deficiency: the 1) probe separation of data collector (MCU) and sensor, function singleness, extendability is poor, image data is single, can not meet and gather multinomial environmental data simultaneously.2) great majority adopt RS232 or RS485 data transfer mode, add wiring difficulty and use cost.3) can not realize carrying out effectively looking monitoring in fact to greenhouse data.4) intelligence degree is low, is the technology short slab in the production automation of round Realization industrialized agriculture and high efficiency process.5) be in the self-organizing system of enclosed environment, can not information resources share be realized.6) lack general technology platform, interface differs unification, and price is high.
Utility model content
For problems of the prior art, an object of the present utility model is that structure is simple, the greenhouse data collector of conveniently moving.
Another object of the present utility model is to provide a kind of greenhouse data detection system being convenient to information sharing.
For reaching above object, the utility model adopts following technical scheme.
A kind of greenhouse data collector, it is characterized in that, comprise: portable housing, be arranged on the microprocessor in portable housing, the rechargeable battery be connected with microprocessor, solar photovoltaic assembly, pilot lamp, WiFi wireless module and environmental data collecting unit; Described rechargeable battery is electrically connected with between solar photovoltaic assembly, and described environmental data collecting unit comprises: light sensor, air humidity sensor, soil temperature sensor, soil moisture sensor, soil nutrient sensor and soil pH value sensor.
As with improvement, be provided with the pin that can directly be inserted in earth in the bottom of portable housing, described soil temperature sensor, soil moisture sensor, soil nutrient sensor and soil pH value sensor integration are on pin.
As with improvement, described portable housing is hollow cylindrical, and described solar photovoltaic assembly is arranged on the top of housing, and described pilot lamp is the LED being looped around casing surroundings.
As with improvement, form the hollow tubular be communicated with housing cavity at portable housing bottom, described rechargeable battery is arranged in hollow tubular.
As with improvement, be extended with two flat tubes in the bottom of hollow tubular, two flat tubes serve as two probes of soil moisture sensor, soil nutrient sensor and soil pH value sensor and the pin of portable housing simultaneously.
A kind of greenhouse monitoring system, is characterized in that, comprising: multiple above-mentioned greenhouse data collector, WIFi wireless router and terminal device; Communicated by WIFi wireless router between terminal device with greenhouse data collector.
As with improvement, each greenhouse data collector is arranged in the detection node in different greenhouse.
As with improvement, each greenhouse data collector is arranged in the different detection node in same greenhouse.
As with improvement, described terminal device is one or more in mobile phone, panel computer, notebook computer.
As with improvement, WIFi wireless router is connected with Cloud Server, described terminal device communicates with Cloud Server.
Compared with prior art, the greenhouse data collector that the utility model provides has following beneficial effect:
One, multiple sensors is integrated on same portable housing, facilitate user from main separation within the same detection node short time or long-time in every greenhouse data such as monitoring intensity of illumination, air humidity, soil moisture, the soil moisture, soil pH value, data acquisition facilitates.
Two, utilize two flat tubes to serve as two probes of soil moisture sensor, soil nutrient sensor and soil pH value sensor and the pin of portable housing, structure is simple, low cost of manufacture simultaneously.
Three, solar photovoltaic assembly and rechargeable battery are carried out organic combination, guarantee the notebook data harvester continuous firing of 24 hours.Meanwhile, the working station indicator of annular, makes user more convenient, more intuitively understands the working condition of notebook data harvester.
Accompanying drawing explanation
Figure 1 shows that the greenhouse data collector structural representation that the utility model provides;
Figure 2 shows that the greenhouse monitoring system structural representation that the utility model provides.
Description of reference numerals:
1: housing, 2: rechargeable battery, 3: solar photovoltaic assembly, 4: pilot lamp, 5:WiFi wireless module, 6: light sensor, 7: air humidity sensor, 8: soil temperature sensor, 9: pin, 10: greenhouse data collector, 11:WIFi wireless router, 12: terminal device, 13: Cloud Server.
Embodiment
Understand essence of the present utility model better for convenience of those of ordinary skill in the art, below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail.
As shown in Figure 1, a kind of greenhouse data collector, comprise: portable housing 1, is arranged on the microprocessor of in portable housing 1, the rechargeable battery 2 be connected with microprocessor, solar photovoltaic assembly 3, pilot lamp 4, WiFi wireless module 5 and environmental data collecting unit; Described rechargeable battery 2 is electrically connected with between solar photovoltaic assembly 3, described environmental data collecting unit comprises: light sensor 6, air humidity sensor 7, soil temperature sensor 8, soil moisture sensor, soil nutrient sensor and soil pH value sensor.
Wherein, described portable housing 1 is in hollow cylindrical, and described solar photovoltaic assembly 3 is arranged on the top of housing, and described pilot lamp 4 is for being looped around the LED of casing surroundings.Bottom portable housing 1, form the hollow tubular be communicated with housing cavity, described rechargeable battery is arranged in hollow tubular.
Realize the movement of data collector for convenience, be provided with the pin 9 that can directly be inserted in earth in the bottom of portable housing 1, described soil temperature sensor 8, soil moisture sensor, soil nutrient sensor and soil pH value sensor integration are on pin 9.Especially, described pin 9 is made up of two flat tubes, and two flat tubes serve as two probes of soil moisture sensor, soil nutrient sensor and soil pH value sensor simultaneously, and structure is simple, low cost of manufacture.
As shown in Figure 2, a kind of greenhouse monitoring system, comprising: multiple above-mentioned greenhouse data collector 10, WIFi wireless router 11 and terminal device 12; Communicated by WIFi wireless router 11 between terminal device 12 with greenhouse data collector 10.
During work, WIFI wireless router link distribution, at the greenhouse data collector 10 of the different detection node of each warmhouse booth detection node or same warmhouse booth, forms an environmental data Sampling network group.User looks the functions such as monitoring set of frequency, monitor data analysis, the inquiry of historical data, the output of greenhouse change curve by mobile phone, panel computer or notebook computer are real, and be datumization plantation, specialized expert team assists plantation to provide power support.
Further, for realizing telemanagement and the monitoring of data better, WiFi wireless router 11 is connected with Cloud Server 13, and described terminal device communicates with Cloud Server 13.
Above embodiment has been described in detail essence of the present utility model, but can not limit protection domain of the present utility model with this.As long as the improvement done according to the essence of the utility model, modification or equivalent transformation all drop within claims of the present utility model.