CN205105827U - Real -time data processing analysis system - Google Patents
Real -time data processing analysis system Download PDFInfo
- Publication number
- CN205105827U CN205105827U CN201520811438.8U CN201520811438U CN205105827U CN 205105827 U CN205105827 U CN 205105827U CN 201520811438 U CN201520811438 U CN 201520811438U CN 205105827 U CN205105827 U CN 205105827U
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- China
- Prior art keywords
- valve
- nutrition
- controller
- nutriment
- water
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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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- Cultivation Of Plants (AREA)
- Fertilizers (AREA)
Abstract
The utility model belongs to the technical field of data processing, a real -time data processing analysis system is related to. The to -be -solved technical problem of the utility model is to provide a real -time data processing analysis system. In order to solve the technical problem, the utility model provides a such real -time data processing analysis system, including soil, the plant, the shelf, humidity transducer, the temperature sensor, ph value sensor, nutrition tube, the nutrition hole, the nutrition valve, the nutrition water tank, the nourishment pipe, and a water pipe, the nourishment valve, the water valve, agitator motor, stirring vane, the control room, data processor and controller, it has the plant to plant on the soil, the plant top is equipped with the shelf, be equipped with humidity transducer and temperature sensor on the shelf, lower part at soil is equipped with nutrition tube. The utility model provides a current greenhouse come by the manual work that control is fertilizied, watered problem, it is automatic to have reached the greenhouse, automatic control fertilizies, watered effect.
Description
Technical field
The utility model belongs to technical field of data processing, relates to a kind of real time data processing analytical system.
Background technology
Existing greenhouse is by manually controlling the suitable shortcoming added water of suitable fertilising.Data are a kind of expression-forms to true, concept or instruction, can be processed by artificial or automation equipment.Data are through explaining and after giving certain meaning, just becoming information.Data processing is collection to data, storage, retrieval, processing, conversion and transmission.
The basic object of data processing from a large amount of, may be that to extract rambling, elusive data and derive for some specific people be valuable, significant data.
The basic link that data processing is system engineering and automatically controls.Data processing is through the every field of social production and social life.The development of data processing technique and the breadth and depth of application thereof, greatly affect the process of human social development.
The system that data handling system refers to utilization computer treatmenting information and forms.By data handling system, data message processed, arrange, calculate various analysis indexes, change into be easy to the message form that accepts by people, and the information after process can be stored.
Current greenhouse is that suitable fertilising is suitable to add water by manually controlling, and therefore needs a kind of real time data processing analytical system of research and development badly.
Summary of the invention
(1) technical problem that will solve
The utility model is that the technical problems to be solved in the utility model is to provide a kind of real time data processing analytical system by the shortcoming manually controlling to apply fertilizer, add water to overcome existing greenhouse.
(2) technical scheme
In order to solve the problems of the technologies described above, the utility model provides so a kind of real time data processing analytical system, includes soil, plant, shelf, humidity sensor, air-temperature sensor, acidity-basicity sensor, nutrient canal, trophopore, nutrition valve, nutrition water tank, nutriment pipe, water pipe, nutriment valve, water valve, stirring motor, stirring vane, control room, data processor and controller, soil is planted and has plant, shelf is provided with above plant, shelf is provided with humidity sensor and air-temperature sensor, nutrient canal is provided with in the bottom of soil, the nutrient canal that the bottom of plant is corresponding is provided with trophopore, nutrient canal is provided with nutrition valve, nutrition valve is provided with a nutrition water tank, nutrition water tank upper left quarter is provided with nutriment pipe, and the upper right quarter of nutrition water tank is provided with water pipe, and nutriment pipe is provided with nutriment valve, water pipe is provided with water valve, the left side of plant is provided with control room, and be provided with data processor and controller in control room, data processor is connected with controller, data processor is connected with humidity sensor and air-temperature sensor respectively, controller respectively with nutrition valve, nutriment valve is connected with water valve.
Preferably, in soil, be embedded with an acidity-basicity sensor, acidity-basicity sensor is connected with data processor.
Preferably, be provided with stirring motor in nutrition water tank, stirring motor is connected with stirring vane, and stirring motor is connected with controller.
Operation principle: humidity sensor and air-temperature sensor give data processor signal transmission, and data processor processes, data processor passes to controller the result of process, and controller then controls nutrition valve, nutriment valve and water valve and carries out action.If the humidity value of humidity sensor increases, controller then reduces the aperture of water valve, increase the aperture of nutriment valve, and reduce the aperture of nutrition valve, if the humidity value of humidity sensor reduces, so controller will increase the aperture of water valve, reduces the aperture of nutriment valve, and increases the aperture of nutrition valve.
If the temperature value of air-temperature sensor increases, so controller will increase the aperture of water valve, reduce the aperture of nutriment valve, and increase the aperture of nutrition valve, if the temperature value of air-temperature sensor reduces, controller then reduces the aperture of water valve, increases the aperture of nutriment valve, and reduces the aperture of nutrition valve.
In soil, be embedded with an acidity-basicity sensor, in order to record the acid-base value of soil, if acid number is high, controller then has additional nutrients the aperture of valve, if acid number is low, controller then reduces the aperture of nutrition valve.
Preferably, be provided with stirring motor in nutrition water tank, stirring motor is connected with stirring vane, and controller can control stirring motor and stir, and nutriment and water can be made fully to mix.
(3) beneficial effect
It is by manually controlling fertilising, adding water problem, reach greenhouse automation that the utility model solves existing greenhouse, automatically controls the effect of applying fertilizer, adding water.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Being labeled as in accompanying drawing: 1-soil, 2-plant, 3-shelf, 4-humidity sensor, 5-air-temperature sensor, 6-acidity-basicity sensor, 7-nutrient canal, 8-trophopore, 9-nutrition valve, 10-nutrition water tank, 11-nutriment pipe, 12-water pipe, 13-nutriment valve, 14-water valve, 15-stirring motor, 16-stirring vane, 17-control room, 18-data processor, 19-controller.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described.
Embodiment 1
A kind of real time data processing analytical system, as shown in Figure 1, includes soil 1, plant 2, shelf 3, humidity sensor 4, air-temperature sensor 5, acidity-basicity sensor 6, nutrient canal 7, trophopore 8, nutrition valve 9, nutrition water tank 10, nutriment pipe 11, water pipe 12, nutriment valve 13, water valve 14, stirring motor 15, stirring vane 16, control room 17, data processor 18 and controller 19, soil 1 is planted and has plant 2, shelf 3 is provided with above plant 2, shelf 3 is provided with humidity sensor 4 and air-temperature sensor 5, nutrient canal 7 is provided with in the bottom of soil 1, the nutrient canal 7 that the bottom of plant 2 is corresponding is provided with trophopore 8, nutrient canal 7 is provided with nutrition valve 9, nutrition valve 9 is provided with a nutrition water tank 10, nutrition water tank 10 upper left quarter is provided with nutriment pipe 11, and the upper right quarter of nutrition water tank 10 is provided with water pipe 12, and nutriment pipe 11 is provided with nutriment valve 13, water pipe 12 is provided with water valve 14, the left side of plant 2 is provided with control room 17, and be provided with data processor 18 and controller 19 in control room 17, data processor 18 is connected with controller 19, data processor 18 is connected with humidity sensor 4 and air-temperature sensor 5 respectively, controller 19 respectively with nutrition valve 9, nutriment valve 13 is connected with water valve 14.
In soil 1, be embedded with an acidity-basicity sensor 6, acidity-basicity sensor 6 is connected with data processor 18.
Be provided with stirring motor 15 in nutrition water tank 10, stirring motor 15 is connected with stirring vane 16, and stirring motor 15 is connected with controller 19.
Operation principle: humidity sensor 4 and air-temperature sensor 5 signal transmission to data processor 18, data processor 18 processes, data processor 18 passes to controller 19 the result of process, and controller 19 controls nutrition valve 9, nutriment valve 13 and water valve 14 and carries out action.If the humidity value of humidity sensor 4 increases, the aperture of controller 19 reduction water valves 14, increase the aperture of nutriment valve 13, and reduce the aperture of nutrition valve 9, if the humidity value of humidity sensor 4 reduces, so controller 19 will increase the aperture of water valve 14, reduces the aperture of nutriment valve 13, and increases the aperture of nutrition valve 9.
If the temperature value of air-temperature sensor 5 increases, so controller 19 will increase the aperture of water valve 14, reduce the aperture of nutriment valve 13, and increase the aperture of nutrition valve 9, if the temperature value of air-temperature sensor 5 reduces, the aperture of controller 19 reduction water valves 14, increases the aperture of nutriment valve 13, and reduces the aperture of nutrition valve 9.
In soil 1, be embedded with an acidity-basicity sensor 6, in order to record the acid-base value of soil 1, if acid number is high, controller 19 has additional nutrients the aperture of valve 9, if acid number is low, controller 19 reduces the aperture of nutrition valve 9.
Be provided with stirring motor 15 in nutrition water tank 10, stirring motor 15 is connected with stirring vane 16, and controller 19 can control stirring motor 15 and stir, and nutriment and water can be made fully to mix.
Embodiment 2
A kind of real time data processing analytical system, as shown in Figure 1, includes soil 1, plant 2, shelf 3, humidity sensor 4, air-temperature sensor 5, acidity-basicity sensor 6, nutrient canal 7, trophopore 8, nutrition valve 9, nutrition water tank 10, nutriment pipe 11, water pipe 12, nutriment valve 13, water valve 14, stirring motor 15, stirring vane 16, control room 17, data processor 18 and controller 19, soil 1 is planted and has plant 2, shelf 3 is provided with above plant 2, shelf 3 is provided with humidity sensor 4 and air-temperature sensor 5, nutrient canal 7 is provided with in the bottom of soil 1, the nutrient canal 7 that the bottom of plant 2 is corresponding is provided with trophopore 8, nutrient canal 7 is provided with nutrition valve 9, nutrition valve 9 is provided with a nutrition water tank 10, nutrition water tank 10 upper left quarter is provided with nutriment pipe 11, and the upper right quarter of nutrition water tank 10 is provided with water pipe 12, and nutriment pipe 11 is provided with nutriment valve 13, water pipe 12 is provided with water valve 14, the left side of plant 2 is provided with control room 17, and be provided with data processor 18 and controller 19 in control room 17, data processor 18 is connected with controller 19, data processor 18 is connected with humidity sensor 4 and air-temperature sensor 5 respectively, controller 19 respectively with nutrition valve 9, nutriment valve 13 is connected with water valve 14.
In soil 1, be embedded with an acidity-basicity sensor 6, acidity-basicity sensor 6 is connected with data processor 18.
Be provided with stirring motor 15 in nutrition water tank 10, stirring motor 15 is connected with stirring vane 16, and stirring motor 15 is connected with controller 19.
Operation principle: humidity sensor 4 and air-temperature sensor 5 signal transmission to data processor 18, data processor 18 processes, data processor 18 passes to controller 19 the result of process, and controller 19 controls nutrition valve 9, nutriment valve 13 and water valve 14 and carries out action.If the humidity value of humidity sensor 4 increases, the aperture of controller 19 reduction water valves 14, increase the aperture of nutriment valve 13, and reduce the aperture of nutrition valve 9, if the humidity value of humidity sensor 4 reduces, so controller 19 will increase the aperture of water valve 14, reduces the aperture of nutriment valve 13, and increases the aperture of nutrition valve 9.
If the temperature value of air-temperature sensor 5 increases, so controller 19 will increase the aperture of water valve 14, reduce the aperture of nutriment valve 13, and increase the aperture of nutrition valve 9, if the temperature value of air-temperature sensor 5 reduces, the aperture of controller 19 reduction water valves 14, increases the aperture of nutriment valve 13, and reduces the aperture of nutrition valve 9.
In soil 1, be embedded with an acidity-basicity sensor 6, in order to record the acid-base value of soil 1, if acid number is high, controller 19 has additional nutrients the aperture of valve 9, if acid number is low, controller 19 reduces the aperture of nutrition valve 9.
Be provided with stirring motor 15 in nutrition water tank 10, stirring motor 15 is connected with stirring vane 16, and controller 19 can control stirring motor 15 and stir, and nutriment and water can be made fully to mix.
The above embodiment only have expressed preferred embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion, improvement and substitute, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.
Claims (3)
1. a real time data processing analytical system, is characterized in that, includes soil (1), plant (2), shelf (3), humidity sensor (4), air-temperature sensor (5), acidity-basicity sensor (6), nutrient canal (7), trophopore (8), nutrition valve (9), nutrition water tank (10), nutriment pipe (11), water pipe (12), nutriment valve (13), water valve (14), stirring motor (15), stirring vane (16), control room (17), data processor (18) and controller (19), upper kind of soil (1) has plant (2), plant (2) top is provided with shelf (3), shelf (3) is provided with humidity sensor (4) and air-temperature sensor (5), nutrient canal (7) is provided with in the bottom of soil (1), the nutrient canal (7) that the bottom of plant (2) is corresponding is provided with trophopore (8), nutrient canal (7) is provided with nutrition valve (9), nutrition valve (9) is provided with a nutrition water tank (10), nutrition water tank (10) upper left quarter is provided with nutriment pipe (11), the upper right quarter of nutrition water tank (10) is provided with water pipe (12), nutriment pipe (11) is provided with nutriment valve (13), water pipe (12) is provided with water valve (14), the left side of plant (2) is provided with control room (17), data processor (18) and controller (19) is provided with in control room (17), data processor (18) is connected with controller (19), data processor (18) is connected with humidity sensor (4) and air-temperature sensor (5) respectively, controller (19) respectively with nutrition valve (9), nutriment valve (13) is connected with water valve (14).
2. a kind of real time data processing analytical system according to claim 1, is characterized in that, be embedded with an acidity-basicity sensor (6) soil (1) is inner, acidity-basicity sensor (6) is connected with data processor (18).
3. a kind of real time data processing analytical system according to claim 1, it is characterized in that, be provided with stirring motor (15) in nutrition water tank (10), stirring motor (15) is connected with stirring vane (16), and stirring motor (15) is connected with controller (19).
Priority Applications (1)
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CN201520811438.8U CN205105827U (en) | 2015-10-20 | 2015-10-20 | Real -time data processing analysis system |
Applications Claiming Priority (1)
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CN201520811438.8U CN205105827U (en) | 2015-10-20 | 2015-10-20 | Real -time data processing analysis system |
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CN205105827U true CN205105827U (en) | 2016-03-30 |
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CN201520811438.8U Expired - Fee Related CN205105827U (en) | 2015-10-20 | 2015-10-20 | Real -time data processing analysis system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106386392A (en) * | 2016-08-29 | 2017-02-15 | 江苏艺轩园林景观工程有限公司 | Stair-step garden spray-irrigation water-retaining device |
-
2015
- 2015-10-20 CN CN201520811438.8U patent/CN205105827U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106386392A (en) * | 2016-08-29 | 2017-02-15 | 江苏艺轩园林景观工程有限公司 | Stair-step garden spray-irrigation water-retaining device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160330 Termination date: 20171020 |