CN201837884U - Automatic agricultural production control system for intelligent high-efficiency greenhouse - Google Patents

Abstract

The utility model relates to an automatic agricultural production control system for an intelligent high-efficiency greenhouse, which comprises a central processing module, a detecting module, a keyboard input module, a display module, a communication module and an executing module. The detecting module, the keyboard input module, the display module, the communication module and the executing module are connected with the central processing module; the detecting module comprises a temperature sensor, a humidity sensor, an illumination sensor, a carbon dioxide concentration sensor, an oxygen concentration sensor, a sedimentation tank water volume sensor, a wind speed sensor, a rain-snow sensor and a shed outside temperature-humidity sensor; the temperature sensor, the humidity sensor, the illumination sensor, the carbon dioxide concentration sensor, the oxygen concentration sensor and the sedimentation tank water volume sensor are arranged in a shed; the wind speed sensor, the rain-snow sensor and the shed outside temperature-humidity sensor are arranged outside the shed; the executing module comprises a temperature reducing unit, a temperature rising unit, a ventilating unit, a light supplementing unit and a deep well pump; and the communication module is connected with an upper computer far away from the shed by a cable. The automatic agricultural production control system can carry out real-time detection on the growing environment in the shed; as intelligent supply, regulation and control are carried out on the moisture, other nutrients and the growing environment needed by plants, animals and the plants can efficiently, rapidly and nutritionally grow in an ideal environment; moreover, the labor cost is reduced and the output efficiency is increased.

Description

Intelligent and high-efficiency agriculture in greenhouse production automatic control system

Technical field

The utility model relates to the agricultural production automatic field, relate in particular to and a kind ofly can carry out intellectuality, integrated, automatic regulation, make the intelligent and high-efficiency agriculture in greenhouse production automatic control system that animals and plants can efficient, quick, high nutrition ground growth the animal and plant growth environment in the warmhouse booth, growth conditions.

Background technology

Since ancient times, agricultural production just has the fact of " living at the mercy of the elements " this cruelty to exist, and that is because the traditional agriculture mode of production depending on unduly and helpless result physical environment.Though, hot house had appearred afterwards, and the heat insulation effect of this agricultural greenhouse is bad, and temperature controlling still is subjected to the influence of physical environment, and moisturizing, fertilising, temperature adjustment also still rely on manually-operated, and labour intensity is big, and efficient is low.Because booth ventilation equipment imperfection, the air of booth the inside can not satisfy the required desired proportions of animal and plant growth.Night, can not provide illumination, so can not shorten vegeto-animal growth cycle, and then influence output and the efficient of crop, the soil also can not get high efficiency utilization.And present agricultural greenhouse does not generally all have the pick-up unit of growth such as the required nutrient of temperature, humidity, illuminance, gas concentration lwevel, oxygen concentration and animal and plant growth key element, judge with artificial perception and experience entirely, very inaccurate, can not regulate and control the environment of booth effectively, quite limited to the Growth Control of crop.

Summary of the invention

The utility model mainly solves the influence that the traditional agriculture booth still is subjected to physical environment, thermoregulation effect is undesirable, the ventilation equipment imperfection, can not regulate and control illuminance, air in the booth can not satisfy the required desired proportions of animal and plant growth, can not shorten vegeto-animal growth cycle, and then influence output and the efficient of crop, and there is not a pick-up unit of the required key element of animal and plant growth, judge with artificial perception and experience entirely, very inaccurate, can not regulate and control the environment of booth effectively, to the quite limited technical matters of the Growth Control of crop; Providing a kind of can detect in real time to the required key element of animal and plant growth in the booth, required growing environment, the growth conditionss of animal and plant growth such as the temperature intelligent, that regulation and control booth in robotization ground is interior, humidity, illuminance, air, moisture content, common booth is transformed into the constant temperature agricultural canopy that it's like spring all the year round, be not subjected to the restriction in season, optimized ecologic environment, animals and plants can be grown fast, improve the intelligent and high-efficiency agriculture in greenhouse production automatic control system of output efficiency.

The utility model solves the traditional agriculture booth simultaneously moisturizing, fertilising, the temperature adjustment of crop is still relied on manually-operated, and labour intensity is big, inefficient technical matters; Provide a kind of moisturizing, fertilising, temperature adjustment etc. all by finishing automatically by the electromechanical equipment of computer intelligence control to crop, time saving and energy saving, effectively reduce labour's outfit, reduced labour intensity, the intelligent and high-efficiency agriculture in greenhouse production automatic control system of enhancing productivity.

Above-mentioned technical matters of the present utility model is mainly solved by following technical proposals: the utility model comprises central processing module and the detection module, keyboard load module, display module and the execution module that link to each other with central processing module, described detection module comprises some temperature sensors, humidity sensor, optical sensor, gas concentration lwevel sensor, oxygen concentration sensor and the settling basin water sensor of being located in the booth, and described execution module comprises cooling unit, intensification unit, unit ventilators, light filling unit and deep-well pump.Detection module of the present utility model is finished the detection to animal and plant growth key elements such as temperature, humidity, illuminance, gas concentration lwevel, oxygen concentration, moisture content, detected data are sent central processing module, central processing module is handled through internal processes, send on the one hand control signal to execution module lower the temperature, operations such as intensification, ventilation, light filling, irrigation, related data send display module to show on the other hand.Realize the intellectuality control of growing environment, growth conditions in the booth, be convenient to the staff and make and judge accurately and operate.Wherein, the value volume and range of product of sensor can increase or reduce according to actual needs.Their solids are distributed in the zones of different in the booth, constitute the detection system of a solid, for central processing module provides the data foundation.

As preferably, described cooling unit comprises S type circulating water pipe and the steel construction circulating water pipe of being located in the booth, be connected with S type circulating water pipe water pump on the S type circulating water pipe, be connected with steel construction circulating water pipe water pump on the steel construction circulating water pipe, S type circulating water pipe water pump, steel construction circulating water pipe water pump all link to each other with described deep-well pump by pipeline.S type circulating water pipe and steel construction circulating water pipe constitute the heat exchanging pipe system in the booth, by starting S type circulating water pipe water pump, steel construction circulating water pipe water pump and deep-well pump, making is flowing in these pipelines stamps next phreatic water from deep-well, contact with air in the booth again, finish heat interchange, realize the cooling function.Both independent operatings of steel construction circulating water pipe system but S type circulating water piping is unified, but also cooperating operation make full use of existing water resource around the booth, geothermal energy resources, allow their efficient utilizations that obtain circulating under the control of native system.

As preferably, described cooling unit comprises the spray piping of being located at the booth top, is connected with high-pressure hydraulic pump on the spray piping, and high-pressure hydraulic pump links to each other with described deep-well pump by pipeline.Draw up by the phreatic water of deep-well pump,, the spray piping of water pressurization back by the roof ejected, form water smoke, be sprayed at the booth roof surface, form water curtain, finish heat interchange, realize cooling by high-pressure hydraulic pump with low temperature.Also can load onto this injection pipe in the booth, the hot-air in the water smoke that gushes out and the booth fully mixes, stirs, thereby takes away airborne heat, reaches the purpose of cooling.

As preferably, described intensification unit comprises electric heater, and the supply line of electric heater links to each other with the Chang Kaiduan of relay J 1, and the drive end of relay J 1 links to each other with the output terminal of described central processing module.When temperature sensor detects temperature of shed when not enough, central processing module can output signal drive the relay J 1 that is connected in the electric heater supply line, makes its Chang Kaiduan adhesive, and then electric heater energising begins heating, reaches the purpose of intensification.

As preferably, described intensification unit comprises the cavitation machine of being located in the booth, and the cavitation machine links to each other with described deep-well pump by pipeline.Utilize underground water warm characteristic in winter, by coming warm water on the deep well pump, give the cavitation machine, the cavitation machine is because of its particular structure, can be broken into micromolecular water to big molecular water, feedwater has simultaneously increased heat, and has avoided big molecular water to form the shortcoming of incrustation scale easily, thereby realize intensification control, to provide animals and plants required heat to booth.

As preferably, described unit ventilators comprises the power sunroof of being located on the booth, power sunroof is provided with the skylight sensor, and the input end of skylight sensor and described central processing module links to each other, and the control motor of the output terminal of central processing module and power sunroof links to each other.The open and-shut mode in sensor skylight, skylight, central processing module is according to temperature value, gas concentration lwevel value and oxygen density value in the booth that receives, analyze, handle, can export the control motor that control signal is given power sunroof when being judged as not enough the ventilation, open the skylight and ventilate.

As preferably, described unit ventilators comprises the hot-water heating blower fan of being located on the booth, and the blade motor of hot-water heating blower fan links to each other with the output terminal of described central processing module, and the make-up pump of hot-water heating blower fan links to each other with described deep-well pump by pipeline.Central processing module finds also can export when booth ventilates inadequately the blade motor of control signal feedwater warm-air drier, finishes ventilation, the ventilation operation of booth.When needing, can start the make-up pump of deep-well pump and hot-water heating blower fan, booth is carried out moisturizing or intensification, guarantee that the basic natural conditions of growth and development of plants and animals are able to the scientific and effective guarantee.

As preferably, described light filling unit comprises some red-light LEDs and the blue-ray LED of being located in the booth, and red-light LED links to each other with described central processing module by relay respectively with blue-ray LED.At the growth characteristics of crops, specialized designs the light filling unit that carries out light filling control at night.According to only growing of crops to the characteristic of ruddiness, sensitive to blue light, adopted the red-light LED and the blue-ray LED of specific wavelength to come to provide illumination for vegetables, flowers and fruits as light source, allow it be able to day and night growth, this is the traditional agriculture distinct advantages that is beyond one's reach.Simultaneously, the LED light fixture has luminescence efficiency height, advantage such as energy-conservation.

As preferably, also be connected with communication module on the described central processing module, described communication module links to each other with host computer away from booth by communication cable.Communication module can adopt RS232 or RS485 communication interface circuit, can make native system and host computer set up both-way communication, by each sensor acquisition to various real time datas can pass to host computer, and the instruction of host computer also can be delivered to native system.Host computer can be selected the high-quality industrial PC for use, finishes alternating interface between man and computer and communication function by the application program of special use.

As preferably, described detection module comprises is located at the outer temperature sensor of booth outer air velocity transducer, sleet sensor and canopy, the outer humidity sensor of canopy.The also auxiliary sensing system that has outside the booth of the utility model, by air velocity transducer, sleet sensor, the outer temperature sensor of canopy, the outer humidity sensor of canopy etc. weather conditions such as the outer wind speed of canopy, rainwater, temperature, humidity are detected, and information is presented on the local display screen and the host computer display screen on, inform the staff, according to the variation of weather, make corresponding safeguard procedures.

The beneficial effects of the utility model are: broken the dependence of traditional booth to natural conditions, common booth is transformed into the constant temperature agricultural canopy that it's like spring all the year round, made it not be subjected to the restriction in season.Can detect in real time the required key element of animal and plant growth in the booth, required moisture, other nutrients and the growing environment of plant all carried out intelligent the supply and regulation and control, optimized growing environment, animals and plants can be grown on efficient, quick, high nutrition ground in an ideal environment.Crop 1 year 365 days, 24 hours every days in the booth are ceaselessly produced, realize the production of agriculture robotization, batch production, pipeline system.Reduce cost of labor simultaneously, improved output efficiency.

Description of drawings

Fig. 1 is that a kind of system of the present utility model connects block diagram.

Fig. 2 is a kind of circuit theory diagrams of central processing module and execution module in the utility model.

Fig. 3 is a kind of circuit theory diagrams of detection module in the utility model.

1. central processing modules among the figure, 2. detection module, 3. keyboard load module, 4. display module, 5. execution module, 6. communication module, 7. host computer, 21. temperature sensors, 22. humidity sensors, 23. optical sensor, 24. gas concentration lwevel sensors, 25. oxygen concentration sensors, 26. the settling basin water sensor, 27. skylight sensors, 28. air velocity transducers, 29. sleet sensor, 30. the outer temperature sensor of canopy, the outer humidity sensor of 31. canopies, 51. deep-well pumps, 52.S type circulating water pipe water pump, 53. steel construction circulating water pipe water pump, 54. high-pressure hydraulic pumps, 55. electric heaters, 56. cavitation machine, 57. the control motor of power sunroof, the blade motor of 58. hot-water heating blower fans, the make-up pump of 59. hot-water heating blower fans, 60. red-light LED, 61. blue-ray LEDs.

Embodiment

Below by embodiment, and in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.

Embodiment: the intelligent and high-efficiency agriculture in greenhouse production automatic control system of present embodiment, as shown in Figure 1, comprise central processing module 1 and the detection module 2, keyboard load module 3, display module 4, execution module 5 and the communication module 6 that link to each other with central processing module 1.Communication module 6 links to each other with host computer 7 away from booth by communication cable.Detection module 2 comprises and is installed on temperature sensor 21, humidity sensor 22, optical sensor 23, gas concentration lwevel sensor 24, oxygen concentration sensor 25, the settling basin water sensor 26 in the booth and is installed on the outer air velocity transducer 28 of booth, sleet sensor 29, the outer temperature sensor 30 of canopy, the outer humidity sensor 31 of canopy.Execution module 5 comprises cooling unit, intensification unit, unit ventilators, light filling unit and can extract the deep-well pump 51 of phreatic water.The cooling unit comprises the spray piping that is installed on S type circulating water pipe, the steel construction circulating water pipe in the booth and is installed on the booth top, be connected with S type circulating water pipe water pump 52 on the S type circulating water pipe, be connected with steel construction circulating water pipe water pump 53 on the steel construction circulating water pipe, be connected with high-pressure hydraulic pump 54 on the spray piping, S type circulating water pipe water pump 52, steel construction circulating water pipe water pump 53 and high-pressure hydraulic pump 54 link to each other with deep-well pump 51 by pipeline respectively.The intensification unit comprises cavitation machine 56 and the electric heater 55 that is installed in the booth, cavitation machine 56 links to each other with deep-well pump 51 by pipeline, the supply line of electric heater 55 links to each other with the Chang Kaiduan of relay J 1, and the drive end of relay J 1 links to each other with the output terminal of central processing module 1.Unit ventilators comprises power sunroof and the hot-water heating blower fan that is installed on the booth, skylight sensor 27 is installed on the power sunroof, skylight sensor 27 links to each other with the input end of central processing module 1, the control motor 57 of the output terminal of central processing module 1 and power sunroof links to each other, the blade motor 58 of hot-water heating blower fan links to each other with the output terminal of central processing module 1, and the make-up pump 59 of hot-water heating blower fan links to each other with deep-well pump 51 by pipeline.The light filling unit comprises a plurality of red-light LEDs 60 and the blue-ray LED 61 that is installed in the booth, and red-light LED 60 links to each other by relay J 2, relay J 3 and central processing module 1 respectively with blue-ray LED 61.

The circuit diagram that present embodiment is concrete such as Fig. 2, shown in Figure 3, the core component of system---central processing module 1, be U1, adopt the HW-S32Z220R Programmable Logic Controller, other is equipped with 8 tunnel analog input expansion module HW-S08AI024N, i.e. U2 among Fig. 2 and the U3 among Fig. 3, U4, and U2, U3, U4 link to each other with U1 by the RS485 bus, simple to operate, powerful.

One. temperature, Humidity Detection and control

The outer temperature sensor 30 of temperature sensor 21, humidity sensor 22 and canopy, the outer humidity sensor 31 of canopy adopt the integrated humiture transmitter of JCJ100S integrated form in the present embodiment, the integrated humiture transmitter of JCJ100S integrated form is wall-hanging installation, humidity sensor adopts the humicap element of the solid polymer structure with patented technology, and temperature-sensing element (device) adopts import high-precision platinum resistor Pt100 as temperature-sensing element.This humiture transmitter adopts scientific and rational circuit design, can through conversion, amplification, convert the temperature that collects, moisture signal to the voltage signal of standard and the current signal output of standard at last.Present embodiment is selected its electric current output form, as the transmission mode of humiture detection signal, has prevented various interference better, has guaranteed the reliability that humiture detects.One has four humiture detecting devices in the present embodiment, i.e. sensor6 among Fig. 2, sensor8, sensor9, sensor10, and solid is distributed in the space of booth, has guaranteed the comprehensive and scientific of detection signal.Three humiture detecting device sensor8 wherein, sensor9, the output signal of sensor10 links to each other with expansion module U4, the output signal of another humiture detecting device sensor6 links to each other with expansion module U3, U3, U4 is through after the inner digital-to-analog conversion, data pass to Programmable Logic Controller U1 by the RS485 bus, Programmable Logic Controller U1 is through the processing of internal processes, relatively judge, the control signal of output correspondence then, control S type circulating water pipe water pump M52, steel construction circulating water pipe water pump M53, high-pressure hydraulic pump M54, deep-well pump M51, electric heater M55, the start and stop of cavitation machine M56 are to reach the purpose that heats up or lower the temperature.

Two. the illuminance Detection ﹠ Controling

Optical sensor 23 in the present embodiment, promptly the sensor7 among Fig. 2 adopts the integrated illuminance transmitter of integrated form RY-G/N, and the output signal of optical sensor sensor7 links to each other with expansion module U3.Illuminance transmitter RY-G/N can be converted to electric signal to the illumination situation, amplify conversion through internal circuit, the current signal of outputting standard then, pass to expansion module U3, change once more, after converting data to, pass to Programmable Logic Controller U1, Programmable Logic Controller U1 is through the processing of internal processes, relatively judge, the control signal of output correspondence then is by the relay J 2 in the expansion module U2 control light filling unit, relay J 3, thus open or close red-light LED, the blue LED lamp group, be the blue light-emitting diode D1 among Fig. 2, D2 and red light-emitting diode D3, D4 is to reach the purpose of regulating illumination.Concrete light filling time and duration, can set by host computer again, host computer sends instructions to Programmable Logic Controller U1 by communication cable, each sensor to data after the processing of Programmable Logic Controller U1, can be uploaded to host computer by communication cable again.

Three. the gas concentration lwevel Detection ﹠ Controling

Gas concentration lwevel sensor 24 in the present embodiment, promptly the sensor1 among Fig. 2 adopts the integrated gas concentration lwevel transmitter of integrated form VC1009, and the output signal of gas concentration lwevel transmitter VC1009 links to each other with expansion module U3.Gas concentration lwevel transmitter VC1009 can be converted to electric signal to the gas concentration lwevel situation, amplify conversion through internal circuit, the voltage and current signal of outputting standard passes to expansion module U3 then, changes once more, after converting data to, pass to Programmable Logic Controller U1, Programmable Logic Controller U1 is through the processing of internal processes, relatively judgement, the corresponding control signal of output then, open gas concentration lwevel solenoid valve J4 by expansion module U2 again, carry out carbon dioxide fertilization.

Four. Ventilation Control

In the present embodiment, oxygen concentration sensor 25, i.e. sensor5 among Fig. 2, this sensor links to each other with expansion module U3.Programmable Logic Controller U1 is according to the temperature value in the booth that receives, gas concentration lwevel value and oxygen density value, the output signal of skylight sensor sensor11 directly flows to Programmable Logic Controller U1, internal processes by Programmable Logic Controller carries out analysis-by-synthesis, handle and judgement, the blade motor M58 of output control signal corresponding feedwater warm-air drier, the make-up pump M59 of hot-water heating blower fan and the control motor M 57 of power sunroof, the perhaps timing setting by program, blade motor to the hot-water heating blower fan, the control motor of the make-up pump of hot-water heating blower fan and power sunroof carries out timing controlled, finishes the ventilation of booth, ventilation heat radiation operation.

Five. the Detection ﹠ Controling of the settling basin water yield

Settling basin water sensor 26 in the present embodiment, be the sensor12 among Fig. 2, adopt the ball float trigger sensor, this signal of sensor directly links to each other with Programmable Logic Controller U1, finish the settling basin water yield and detect, Programmable Logic Controller U1 is through the processing of internal processes, relatively judgement, and the corresponding control signal of output is given deep-well pump M51 and the motor M 60 of spraying then, crop in the booth is carried out moisturizing and irrigation, thereby realize the automatic supply control of crop required water amount in the booth.

Six. be installed on the outer air velocity transducer 28 of booth in the present embodiment, sleet sensor 29, be the sensor2 among Fig. 2, sensor3, adopt KA11 air velocity transducer and RY-G/W sleet sensor respectively, finish outdoor wind speed, natural meteorology such as sleet detects, sensor2, sensor3 links to each other with expansion module U3, the wind speed that records, the sleet signal is passed to Programmable Logic Controller U1 through expansion module U3, handle by Programmable Logic Controller again, output correlation signal is uploaded to host computer to display module and through communication module, reminds the staff to note taking precautions against disaster.

In addition, be separately installed with moisturizing solenoid valve J5, J6, sprinkling irrigation solenoid valve J7, J8, spraying electromagnetic valve J9～J12, S type circulating water pipe solenoid valve J13～J16, steel construction circulating water pipe solenoid valve J17～J20 on moisturizing pipeline, irrigation pipe, spray piping, S type circulating water pipe and the steel construction circulating water pipe in the booth, the control end of a part of solenoid valve directly links to each other with Programmable Logic Controller U1 in these solenoid valves, and the control end of another part solenoid valve links to each other with expansion module U2.The open and-shut mode of these solenoid valves is all controlled automatically by Programmable Logic Controller.

In a word, intelligent and high-efficiency agriculture in greenhouse production automatic control system of the present utility model once startup, promptly enters duty, does not stop to scan the signal of each sensor and the data of setting.

1) when the detected temperature of any one temperature sensor is higher than setting range, system start-up cooling unit then.The order that starts the cooling unit is: the first, start the skylight ventilating system; The second, start S type circulating water pipe system, this system divides 4 subsystems again, and each subsystem is start and stop in turn in 15 minutes at interval; The 3rd, start spray piping, this system divides 4 subsystems again, and each subsystem is start and stop in turn in 15 minutes at interval; The 4th, start steel construction circulating water pipe, atomized water system, this system divides 4 subsystems again, and each subsystem is start and stop in turn in 15 minutes at interval; The 5th, start the hot-water heating blower fan, carry out the air intake circulation from the bottom of booth.Every kind of system start-up can be set arbitrarily by keyboard interval time.

2) when the detected temperature of any one temperature sensor is lower than setting range, system start-up intensification unit then.The order that starts the intensification unit is: the first, start the cavitation machine; The second, the make-up pump of startup hot-water heating blower fan; The 3rd, the blade motor of startup hot-water heating blower fan; The 4th, start electric heater.Every kind of startup can be set arbitrarily by keyboard interval time.

3) when the detected humidity of any one humidity sensor is lower than setting value, then starting the moisturizing unit, as starting deep-well pump, sprinkling irrigation motor etc., can be regularly Starting mode by keyboard to set up also, and two kinds of Starting mode can exist simultaneously.

4) when any one optical sensor detects the illumination deficiency, then open the light filling unit, opening sequence and opening time can be by the keyboard adjustment, acquiescence light filling two hours, also can be by keyboard to set up for regularly starting the light filling unit, two kinds of Starting mode can exist simultaneously.

5) when the settling basin water sensor detects the cistern water shortage, then start deep-well pump, sprinkling irrigation motor etc. and carry out moisturizing and irrigation.

6) wherein, the startup of the blade motor of hot-water heating blower fan can independently be set startup, be closed the cycle, so that regulate the temperature in the booth, the homogeneity of humidity.The startup rank of this setting is better than other settings.

In addition, the host computer in the utility model is finished alternating interface between man and computer and communication function by the application program of special use:

(1) show environmental parameter inside and outside the booth in real time with data and curve form, but and the query history record;

(2) realization is to the data storage of 24 tunnel analog quantitys such as temperature, humidity, intensity of illumination, gas concentration lwevel, pH value, EC value, liquid level, and the state of 21 way switch amounts such as skylight, sunshade net, ventilation blower, light filling lamp shows, and deposits 24 hour datas in database;

(3) staff realizes that by the human-computer interaction interface on the host computer " soft switch " opens and closes each topworks;

(4) have more complete greenhouse crops knowledge base and expert system;

(5) has open design platform, inquiry in real time, modification, increase and deletion greenhouse crops knowledge base content;

(6) carry out the intelligent management and the control of booth according to greenhouse crops knowledge base content;

(7) set each equipment by human-computer interaction interface and open and close the time, the booth internal unit is implemented control automatically.

Claims (10)

1. intelligent and high-efficiency agriculture in greenhouse production automatic control system, it is characterized in that comprising central processing module (1) and the detection module (2) that links to each other with central processing module (1), keyboard load module (3), display module (4) and execution module (5), described detection module (2) comprises some temperature sensors (21) of being located in the booth, humidity sensor (22), optical sensor (23), gas concentration lwevel sensor (24), oxygen concentration sensor (25) and settling basin water sensor (26), described execution module (5) comprises the cooling unit, the intensification unit, unit ventilators, light filling unit and deep-well pump (51).

2. intelligent and high-efficiency agriculture in greenhouse production automatic control system according to claim 1, it is characterized in that described cooling unit comprises S type circulating water pipe and the steel construction circulating water pipe of being located in the booth, be connected with S type circulating water pipe water pump (52) on the S type circulating water pipe, be connected with steel construction circulating water pipe water pump (53) on the steel construction circulating water pipe, S type circulating water pipe water pump (52), steel construction circulating water pipe water pump (53) all link to each other with described deep-well pump (51) by pipeline.

3. intelligent and high-efficiency agriculture in greenhouse production automatic control system according to claim 1 and 2, it is characterized in that described cooling unit comprises the spray piping of being located at the booth top, be connected with high-pressure hydraulic pump (54) on the spray piping, high-pressure hydraulic pump (54) links to each other with described deep-well pump (51) by pipeline.

4. intelligent and high-efficiency agriculture in greenhouse production automatic control system according to claim 1, it is characterized in that described intensification unit comprises electric heater (55), the supply line of electric heater (55) links to each other with the Chang Kaiduan of relay J 1, and the drive end of relay J 1 links to each other with the output terminal of described central processing module (1).

5. according to claim 1 or 4 described intelligent and high-efficiency agriculture in greenhouse production automatic control systems, it is characterized in that described intensification unit comprises the cavitation machine of being located in the booth (56), cavitation machine (56) links to each other with described deep-well pump (51) by pipeline.

6. intelligent and high-efficiency agriculture in greenhouse production automatic control system according to claim 1, it is characterized in that described unit ventilators comprises the power sunroof of being located on the booth, power sunroof is provided with skylight sensor (27), skylight sensor (27) links to each other with the input end of described central processing module (1), and the control motor (57) of the output terminal of central processing module (1) and power sunroof links to each other.

7. according to claim 1 or 6 described intelligent and high-efficiency agriculture in greenhouse production automatic control systems, it is characterized in that described unit ventilators comprises the hot-water heating blower fan of being located on the booth, the blade motor of hot-water heating blower fan (58) links to each other with the output terminal of described central processing module (1), and the make-up pump of hot-water heating blower fan (59) links to each other with described deep-well pump (51) by pipeline.

8. intelligent and high-efficiency agriculture in greenhouse production automatic control system according to claim 1, it is characterized in that described light filling unit comprises some red-light LEDs (60) and the blue-ray LED of being located in the booth (61), red-light LED (60) links to each other by relay J 2, relay J 3 and described central processing module (1) respectively with blue-ray LED (61).

9. according to claim 1 or 2 or 4 or 6 or 8 described intelligent and high-efficiency agriculture in greenhouse production automatic control systems, it is characterized in that also being connected with on the described central processing module (1) communication module (6), described communication module (6) links to each other with host computer (7) away from booth by communication cable.

10. according to claim 1 or 2 or 4 or 6 or 8 described intelligent and high-efficiency agriculture in greenhouse production automatic control systems, it is characterized in that described detection module (2) comprises the outer temperature sensor (30) of air velocity transducer (28), sleet sensor (29) and the canopy be located at outside the booth, the outer humidity sensor (31) of canopy.

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