CN204480090U - Kitchen garden intelligent control system - Google Patents

Abstract

The utility model discloses a kind of kitchen garden intelligent control system, comprise local cultivation module, data acquisition and communication module, data processing module, control module and display and administration module, data acquisition and communication module and control module and locally cultivate model calling, and both all with data processing module wireless connections, data processing module is connected with administration module with control module and display respectively, and data processing module comprises large data server.The utility model can collect the function of multiple parameter information simultaneously, improve the data analysis of plant and the comprehensive of cultivation, large data server is adopted to increase memory data output and data processing speed, carry out Based Intelligent Control according to the control information provided simultaneously, do not need human assistance, achieve the effect of complete intelligence, Aulomatizeted Detect and management; Intelligent management and analysis are carried out to the data detected, improves the survival rate of plant and the reliability of control system, conscientiously meet the demand of user.

Description

Kitchen garden intelligent control system

Technical field

The utility model relates to field of intelligent control technology, is specifically related to a kind of kitchen garden intelligent control system.

Background technology

Along with the development of infotech, the use of vegetable garden intelligent control system is more and more extensive, wherein relates to Wi-Fi technology, Theory of Automatic Control, the large technical field such as data theory and product sensor.

Wi-Fi is a kind of wireless local area network technology, and it forms wireless network by wireless network card and WAP, and wherein, wireless network card is responsible for Received signal strength.At present, Wi-Fi technology mainly comprises IEEE802.11a and IEEE802.11b two spendable standards, and in open region, Wi-Fi communication distance can reach about 305m, and in closed region, then 76 to about 122m.Wi-Fi technology can realize effectively integrating with existing cable network, and its networking cost is lower, and it does not need wiring, thus can not be subject to the various restrictions of wiring condition, the needs of very applicable family and mobile office.Current automatic control technology has been widely used in numerous branchs of industry such as manufacturing industry, agricultural, traffic, aviation and space flight, especially industrial control automation technology, to industrial processes realize detect, control, optimize, scheduling, management and decision, reach increase yield, improve quality, reduce consume, guarantee safety etc. object.Large data technique will bring the property changed chance to all trades and professions, but real large data application still in the early stages of development.Current China mainly concentrates in power industry, intelligent transportation, E-Government, justice system etc. four utilization of large data in public sphere.A large data analysis important application is on the internet exactly analyze interest and the demand of user based on the online behavior of various magnanimity of user.Sensor development at home experienced by more than 50 spring and autumn, the eighties in 20th century, reforms and opens up to the outside world to bring life and vigor to sensor row industry.From present situation, the application of sensor is throughout arriving many-sided fields such as commercial production, hydrospace detection, environmental protection, medical diagnosis, bioengineering, and nearly all modern project all be unable to do without the application of sensor.

Abroad to the research comparatively morning of vegetable garden intelligent control technology, start from 20 century 70s, current just towards multiple-factor Comprehensive Control Technology future development.Wherein Holland of gardening power, its fresh flower glasshouse is all by computer operation; And the plastic vegetable greenhouse of Japan's development has application in the robotization of sowing, thinning, fortune seedling, the operations such as medicine of pouring water, spray.It is mainly by the environmental baseline input computer program required for different for various crop growth and development stage, when a certain environmental factor changes, other factors will make corresponding correction or adjustment automatically, under normal circumstances, take illumination condition as beginning change factor, and temperature, humidity and CO ₂concentration is covariant factor, makes these four essential environmental factors be in optimum synergistic state at any time.

China is more late for the research of vegetable garden control technology.China engineering technical personnel absorb on the basis of developed country's automated control technology in the eighties in 20th century, just grasped the indoor Control Technique of Microcomputer of artificial climate, but this technology are only limitted to temperature, humidity and CO ₂the control of the item environment factors such as concentration.

At present, extensive automated control technology is applied to large-scale chamber planting field both at home and abroad.Develop many plant house keeper control system, wherein, Japan is proposed a Plants Care Mon plant house keeper: for reminding user watering time.When moisture in plant flowerpot is suitable time, LED is extinguished, and enter moisture monitoring pattern, and plant house keeper will detect once for every three hours, when water in basin point deficiency time, plant house keeper enters notification mode, LED is glimmered, and playing alert tones, reminding user watering time has arrived.In addition, Parrot company is proposed the checkout equipment of another plant growth state---garden house keeper (Flower Power).Flower Power can complete soil humidity measuring, temperature survey, light exposure measurement, specific soil conductivity measurement, can carry out data analysis in real time, allow user understand the health status of plant at any time to plant, and carries out next nursing time prediction at quarter.Meanwhile, user can set up schedule in Flower Power applies, and just can demonstrate the timetable watering, add the tasks such as fertilizer that following a period of time needed wherein.

But still there is the problem of following several respects in current existing vegetable garden control system: 1) limited to the parameter of plant, garden, vegetable garden house keeper detection, fail to realize collecting the function of multiple parameter information, therefore to the data analysis of plant with cultivate and have certain limitation simultaneously; 2) intelligent not high enough, be only to detect current state, and provide corresponding scheme, and intelligence can not complete associative operation, need human assistance, the effect of complete intelligence, Aulomatizeted Detect and management can not be realized; 3) lack intelligent management and analysis are carried out to the data detected, provide rational managerial integration to user, reduce the survival rate of plant and the reliability of control system, fail practical requirement.

Utility model content

The utility model, in order to overcome above deficiency, provides a kind of effective raising system data acquisition function, the kitchen garden intelligent control system of intelligent and reliability and control method thereof.

In order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of kitchen garden intelligent control system, comprise local cultivation module, data acquisition and communication module, data processing module, control module and display and administration module, model calling is cultivated in described data acquisition and communication module and control module and described this locality, and both all with described data processing module wireless connections, described data processing module is connected with administration module with control module and display respectively, and data processing module comprises large data server.

Further, described this locality is cultivated module and is provided with some culture layer and nursery layer from top to bottom, and described each culture layer comprises culture tank and is located at the cultivation pipeline on culture tank, and described nursery layer comprises tank and nursery groove; Described culture layer and nursery layer also comprise drip irrigation unit, sensor unit and lighting unit, and described drip irrigation unit is located in described culture tank and nursery groove, and described lighting unit is located at above culture tank and nursery groove; Drip irrigation unit is connected with described tank, and described control module is connected with drip irrigation unit and lighting unit respectively, and described data acquisition is connected with described sensor unit with communication module.

Further, described lighting unit is LED illumination fluorescent tube.

Further, described sensor unit comprises Temperature Humidity Sensor, optical sensor and level sensor.

Further, described data acquisition and communication module comprise data acquisition unit and the first communication unit, and described data acquisition unit comprises image capture module and ESP8266 minimum system, for gathering the local data message cultivating module; Described first communication unit is ESP8266 wireless module, for described data message is uploaded to data processing module.

Further, described large data server comprises second communication unit, CPU (central processing unit) and storage unit, described second communication unit is connected with administration module with data acquisition and communication module, control module and showing respectively, and described CPU (central processing unit) is connected with second communication unit and storage unit respectively.

The kitchen garden intelligent control system that the utility model provides, by the growing environment parameter information of data acquisition and communication module Real-time Collection plant, by large data server, crossing on the data message obtained is resolved, contrasted process, obtain control information, and control information is exported to control module and display and administration module, control in real time the growing environment of plant, user carries out real time inspection and manual control by display and administration module to the growing environment of plant.The utility model can collect the function of multiple parameter information simultaneously, improve the data analysis of plant and the comprehensive of cultivation, large data server is adopted to increase memory data output and data processing speed, carry out Based Intelligent Control according to the control information provided simultaneously, do not need human assistance, achieve the effect of complete intelligence, Aulomatizeted Detect and management; In addition, intelligent management and analysis are carried out to the data detected, provide more reasonably managerial integration to user, improve the survival rate of plant and the reliability of control system; The utility model achieves energy-saving and emission-reduction, the object of low-carbon environment-friendly, realizes the intelligent management to kitchen garden, provide good Consumer's Experience simultaneously, conscientiously meet the demand of user with lower economic input.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model kitchen garden intelligent control system;

Fig. 2 a-2b is front view and the right view that module one embodiment is cultivated in the utility model this locality respectively;

Fig. 3 is the structural representation of the utility model tank one embodiment;

Fig. 4 is the structural representation of the utility model data acquisition and communication module;

Fig. 5 is the structural representation of the utility model Data Data processing module and display and administration module;

Fig. 6 is the process flow diagram of the utility model kitchen garden intelligent control system control method.

Shown in figure: 1, local cultivation module; 11, culture tank; 12, pipeline is cultivated; 13, tank; 14, nursery groove; 15, drip irrigation unit; 151, drip irrigation hose; 16, sensor unit; 161, Temperature Humidity Sensor; 162, optical sensor; 163, level sensor; 17, lighting unit; 2, data acquisition and communication module; 21, data acquisition unit; 22, the first communication unit; 211, image capture module; 212, ESP8266 minimum system; 3, data processing module; 31, large data server; 311, second communication unit; 312, CPU (central processing unit); 312, storage unit; 4, control module; 5, display and administration module; 51, display unit; 52, labor management unit.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail:

As shown in Figure 1, the utility model provides a kind of kitchen garden intelligent control system, comprise local cultivation module 1, data acquisition and communication module 2, data processing module 3, control module 4 and show and administration module 5, data acquisition and communication module 2 and control module 4 all cultivate with this locality module 1 be connected and with data processing module 3 wireless connections, data processing module 3 is connected with administration module 5 with control module 4 and display respectively, and data processing module 3 comprises large data server 31.

As shown in Fig. 2 a, 2b, local module 1 of cultivating is provided with some culture layer and nursery layer from top to bottom, establish 2 culture layer in the present embodiment, the cultivation pipeline 12 that each culture layer comprises culture tank 11 and is located on culture tank 11, nursery layer comprises tank 13 and nursery groove 14; Culture layer and nursery layer also comprise drip irrigation unit 15, sensor unit 16 and lighting unit 17, and drip irrigation unit 15 is located in culture tank 11 and nursery groove 14, and lighting unit 17 is located at above culture tank 11 and nursery groove 14; Drip irrigation unit 15 is connected with tank 13, and control module 4 is located at nursery groove 14 rear, and is connected with drip irrigation unit 15 and lighting unit 17 respectively, and data acquisition is connected with sensor unit 16 with communication module 2.Preferably, lighting unit 17 is LED illumination fluorescent tube; Sensor unit 16 comprises Temperature Humidity Sensor 161, optical sensor 162 and level sensor 163, certainly can increase other sensors as required, as gas concentration lwevel sensor; Concrete, cultivating pipeline 12 is PVC water pipe, and as planting container, PVC water pipe side punches for seedling implantation, and leave rational spacing between hole and hole, nutrient culture media selects perlite; Tank 13, nursery groove 14 and local module 1 shell of cultivating adopt " acrylic board " to make, and elegant in appearance, easy adhesive seal is good; Drip irrigation unit 15 comprises the first water pump, relay, solenoid valve, Irrigation shower head (all not marking in figure) and is located at the drip irrigation hose 151 of culture tank 11 and nursery groove 14 inside, for carrying out drip irrigation to plant; All have intensive aperture bottom culture tank 11 and nursery groove 14, below is provided with Water Sproading box, and water unnecessary after drip irrigation flows out to the remaining Water Sproading box of lower floor, finally gets back to tank 13.As shown in Figure 3, tank 13, in 2:1 ratio packing water and nutrient solution, is furnished with top cover, and reduce evaporation of water, drip irrigation unit 15 carries out clear water drip irrigation or nutrient fluid drip irrigation to the plant in culture tank 11 and nursery groove 14 as required.Temperature temperature sensor 161 is DHT11 Temperature Humidity Sensor, be located at culture tank 11 and nursery groove 14 inside, for detecting the temperature and humidity in culture tank 11 and nursery groove 14, optical sensor 163 is BH1750FVI light intensity sensor, be located at above culture tank 11 and nursery groove 14, for detecting the intensity of illumination of surrounding, level sensor 144 is located at tank 13 top, for detecting the water level of tank 13, tank 13 connects the second water pump, when water level is too low, system can be added water or nutrient solution by the second water pump (not marking in figure) feed trough 13 automatically.

As shown in Figure 4, data acquisition and communication module 2 comprise data acquisition unit 21 and the first communication unit 22, and data acquisition unit 21 comprises image capture module 211 and ESP8266 minimum system 212, for gathering the local data message cultivating module 1; Concrete, image capture module 211 is generally video monitor or camera, is located at above local culture system 1, for monitoring in real time the growth conditions of local culture system 1 implants, and BR photo, the growth conditions of reflection plant.First communication unit 22 is ESP8266 wireless module, data message for image capture module 211 and ESP8266 minimum system 212 being collected is uploaded to data processing module 3, concrete, ESP8266 minimum system 212 is connected with sensor unit 16, the humiture that real-time reception sensor unit 16 detects, light intensity and water level information, and upload to large data server 31 by ESP8266 wireless module by local wireless network and carry out data processing, ESP8266 minimum system is easily extensible system, therefore, the quantity of the sensor in sensor unit 16 can be increased as required, gather more fully ambient parameter information.

As shown in Figure 5, large data server 31 comprises second communication unit 311, CPU (central processing unit) 312 and storage unit 313, second communication unit 311 respectively with data acquisition and communication module 2, control module 4 and display are connected with administration module 5, CPU (central processing unit) 312 is connected with second communication unit 311 and storage unit 313 respectively, concrete, second communication unit 311 receives the data message of this locality cultivation module 1 that the first communication unit 22 is uploaded, and these data are sent to CPU (central processing unit) 312, CPU (central processing unit) 312 is resolved the data message received, obtain the status data of each environmental parameter, specifically comprise humiture, the water level information of the plant growth state information such as light intensity and tank 13, and status data is compared to the corresponding reference value set in system, provide control information, simultaneously, the data stored in storage unit 313 are managed and analyzed, the more reference value of new state data, and export control information and the reference value after upgrading to storage unit 313 and second communication unit 311, it should be noted that, this control information comprise provide after the current status data of plant resolves contrast with through the CPU (central processing unit) 312 pairs of status datas be connected with lighting unit 17 operation information carrying out corresponding operating for control module 4 pairs of drip irrigation unit 15, control information is sent to control module 4 and shows and administration module 5 by second communication unit 311 respectively, by control module 4, the growing environment that module 1 implants is cultivated in this locality is controlled, by display and administration module 5, Dynamic Announce is carried out to this control information simultaneously.

Continue referring to Fig. 5, display and administration module 5 comprise data display unit 51 and labor management unit 52, wherein display unit 51 comprises mobile phone display end and computer display end, Real time dynamic display is carried out to the control information received, meanwhile, user carries out manual control by labor management unit 52 to this locality cultivation module 1 implants growing environment.

A control method for kitchen garden intelligent control system, as shown in Figure 6, comprises the following steps:

S1: the data message of module 1 implants growing environment is cultivated in data acquisition and communication module 2 Real-time Collection this locality, and the large data server 31 data message is uploaded in data processing module 3, concrete, the local Temperature Humidity Sensor 161 cultivated in module 1, optical sensor 162 and level sensor 163 detect the growing environment parameter of plant and the water level information of tank 13 respectively, ESP8266 minimum system 212 collects above-mentioned data message, the growth conditions of image capture module 211 to local culture system 1 implants is monitored in real time simultaneously, and BR photo, form image data information, then the data message that image capture module 211 and ESP8266 minimum system 212 collect is uploaded to the large data server 31 in data processing module 3 by ESP8266 wireless module.

S2: large data server 31 carries out process to the data message received and obtains control information, is sent to control module 4 respectively and shows and administration module 5 by control information; Concrete, comprise the following steps:

S21: second communication unit 311 receives data message that data acquisition and communication module 2 upload and is sent to CPU (central processing unit) 312;

S22: CPU (central processing unit) 312 is resolved the data message received, obtain the status data of each environmental parameter, the concrete water level information comprising the plant growth state such as humiture and light intensity information and tank 13, and status data is compared to the corresponding reference value set in system, provide control information, as when intensity of illumination is lower than reference value, send the operation information starting lighting unit 17, simultaneously, the data stored in storage unit 313 are managed and analyzed, the more reference value of new state data, and export control information and the reference value after upgrading to storage unit 313 and second communication unit 311, it should be noted that, the operation information carrying out corresponding operating for control module 4 pairs of drip irrigation unit 15, lighting unit 17 and the second water pump that this control information comprises the current status data of plant and provides after CPU (central processing unit) 312 pairs of status datas resolve contrast,

S23: control information is sent to control module 4 and shows and administration module 5 by second communication unit 311 respectively, by control module 4, the growing environment that module 1 implants is cultivated in this locality is controlled, by display and administration module 5, Dynamic Announce is carried out to this control information simultaneously.

S3: control module 4 is cultivated module 1 implants growing environment according to the control information received to this locality and controlled, namely duty and the working time of drip irrigation unit 15, lighting unit 17 and the second water pump is controlled, start drip irrigation as controlled drip irrigation unit 15 pairs of plants and stop drip irrigation, or controlling the second water pump carries out clear water or nutrient solution supply and stopping supply to tank 13;

S4: display and administration module 5 show in real time to the control information received, simultaneously, user cultivates module 1 implants growing environment by display and administration module 5 to this locality and carries out manual control, concrete, display unit 51 carries out Real time dynamic display to the control information received, simultaneously, user cultivates module 1 implants growing environment by labor management unit 52 to this locality and carries out manual control, it should be noted that, user inputs manual control information by labor management unit 52, this manual control information is forwarded to control module 4 by second communication unit 311, corresponding control is completed by control module 4.

S5: repeat step S1 ~ S4, cultivates module 1 to this locality and controls in real time.

In sum, the kitchen garden intelligent control system that the utility model provides and control method thereof, by the growing environment parameter information of data acquisition and communication module 2 Real-time Collection plant, by large data server 31, crossing on the data message obtained is resolved, contrasted process, obtain control information, and control information exported to control module 4 and show and administration module 5, control in real time the growing environment of plant, user carries out real time inspection and manual control by display and the growing environment of administration module 5 pairs of plants.The utility model can collect the function of multiple parameter information simultaneously, improve the data analysis of plant and the comprehensive of cultivation, large data server is adopted to increase memory data output and data processing speed, carry out Based Intelligent Control according to the control information provided simultaneously, do not need human assistance, achieve the effect of complete intelligence, Aulomatizeted Detect and management; In addition, intelligent management and analysis are carried out to the data detected, provide more reasonably managerial integration to user, improve the survival rate of plant and the reliability of control system; The utility model achieves energy-saving and emission-reduction, the object of low-carbon environment-friendly, realizes the intelligent management of system to kitchen garden, provides good Consumer's Experience simultaneously, conscientiously meet the demand of user with lower economic input.

Although be illustrated embodiment of the present utility model in instructions, these embodiments just as prompting, should not limit protection domain of the present utility model.In the scope not departing from the utility model aim, carry out various omission, displacement and change all should be included in protection domain of the present utility model.

Claims (7)

1. a kitchen garden intelligent control system, it is characterized in that, comprise local cultivation module, data acquisition and communication module, data processing module, control module and display and administration module, model calling is cultivated in described data acquisition and communication module and control module and described this locality, and both all with described data processing module wireless connections, described data processing module is connected with administration module with control module and display respectively, and data processing module comprises large data server.

2. kitchen garden intelligent control system according to claim 1, it is characterized in that, described this locality is cultivated module and is provided with some culture layer and nursery layer from top to bottom, and described each culture layer comprises culture tank and is located at the cultivation pipeline on culture tank, and described nursery layer comprises tank and nursery groove; Described culture layer and nursery layer also comprise drip irrigation unit, sensor unit and lighting unit, and described drip irrigation unit is located in described culture tank and nursery groove, and described lighting unit is located at above culture tank and nursery groove; Drip irrigation unit is connected with described tank, and described control module is connected with drip irrigation unit and lighting unit respectively, and described data acquisition is connected with described sensor unit with communication module.

3. kitchen garden intelligent control system according to claim 2, is characterized in that, described lighting unit is LED illumination fluorescent tube.

4. kitchen garden intelligent control system according to claim 2, is characterized in that, described sensor unit comprises Temperature Humidity Sensor, optical sensor and level sensor.

5. kitchen garden intelligent control system according to claim 1, it is characterized in that, described data acquisition and communication module comprise data acquisition unit and the first communication unit, described data acquisition unit comprises image capture module and ESP8266 minimum system, for gathering the local data message cultivating module; Described first communication unit is ESP8266 wireless module, for described data message is uploaded to data processing module.

6. kitchen garden intelligent control system according to claim 1, it is characterized in that, described large data server comprises second communication unit, CPU (central processing unit) and storage unit, described second communication unit is connected with administration module with data acquisition and communication module, control module and showing respectively, and described CPU (central processing unit) is connected with second communication unit and storage unit respectively.

7. kitchen garden intelligent control system according to claim 1, is characterized in that, described display and administration module comprise data display unit and labor management unit.