CN105393843A

CN105393843A - Automatic intelligent greenhouse

Info

Publication number: CN105393843A
Application number: CN201510720359.0A
Authority: CN
Inventors: 陈彦卿; 陈夏生; 林少平; 唐志华
Original assignee: Xinsheng (changtai) Greenhouse Science & Technology Co Ltd
Current assignee: Xinsheng (changtai) Greenhouse Science & Technology Co Ltd
Priority date: 2015-10-30
Filing date: 2015-10-30
Publication date: 2016-03-16

Abstract

Provided is an automatic intelligent greenhouse, comprising a greenhouse, a temperature-control system, a humidity control system, and an auxiliary illumination control system. The greenhouse is built on a planting region. The temperature-control system, the humidity control system, and the auxiliary illumination control system are arranged on the greenhouse. Through the arrangement of the temperature-control system, the humidity control system, and the auxiliary illumination control system, the temperature-control system is used to adjust temperature in the greenhouse, to meet optimal temperature in different growing periods of peanuts, the humidity control system is used to adjust humidity in the greenhouse, to meet optimal humidity in different growing periods of peanuts, and the auxiliary illumination control system is used to adjust illumination intensity in the greenhouse, to meet optimal illumination intensity in different growing periods of peanuts. Thus, planting of peanuts is realized, and peanut yield and quality are improved. Through experimental calculation, compared with the prior art, yield of peanuts planted by the greenhouse is improved by 20-26%.

Description

A kind of automatic intelligent green house

Technical field

The present invention relates to agricultural greenhouse field, particularly relate to a kind of automatic intelligent green house.

Background technology

Green house, also known as greenhouse.Can printing opacity, insulation (or heating), be used for the facility of cultivated plant.In the season being not suitable for plant growth, breeding time and increase yield can be provided, be used for plant cultivation or the nursery etc. such as low temperature season warm season vegetable, flowers, forest.The kind in greenhouse is many, can be divided into again many types, as glass greenhouse, plastic green house according to different roof truss materials, lighting material, profile and condition etc. of heating; Single-ridgepole glasshouse, attached-greenhouse; Single roof greenhouse, two roof greenhouse; To heat greenhouse, unheating hothouse etc.Greenhouse structure answers sealing thermal insulation, but should be convenient to aeration-cooling.There is in modern greenhouse the equipment controlling the condition such as temp. and humidity, illumination, automatically control to create the optimal environmental condition needed for plant with computer.

And existing green house, few for the plantation to peanut, main cause is because not obvious to the lifting of peanut yield, so economic input and output ratio are not high, as application number a kind of Intelligent Greenhouse system that to be 201410771390.2 provide, this green house generally can reach 5-10% to the lifting of peanut yield.

Summary of the invention

In order to overcome the problems referred to above, the invention provides a kind of for peanut cultivation, and the automatic intelligent green house of peanut yield can be improved.

For achieving the above object, technical scheme provided by the invention is:

A kind of automatic intelligent green house, comprises booth, temperature control system, moisture control system and supplementary illumination control system; Described booth lid is located at above growing area; Described temperature control system, moisture control system and supplementary illumination control system are all arranged on booth, it is characterized in that: described temperature control system is provided with temperature detecting module; Wherein:

Described temperature control system also comprises temperature indicator, temperature controller, some heating plates and some condenser pipes; Described temperature detecting module comprises DTU, power amplifier, high-gain aerial, Zigbee communication system module, electric power system, power carrier controller and several device for monitoring temperature; Described power amplifier is connected with power carrier controller by circuit, high-gain aerial is connected with power carrier controller by circuit, Zigbee communication system module is connected with power carrier controller by circuit, electric power system is connected with power carrier controller by circuit, and device for monitoring temperature is connected with power carrier controller and DTU by circuit; The end face of described booth is divided into several detection zones, and each device for monitoring temperature is provided with a temperature sensor, and each detection zone is provided with a temperature sensor; The end face of described booth is divided into some temperature controlled region, each temperature controlled region includes at least 3 detection zones, a detection zone in each temperature controlled region is provided with heating plate and condenser pipe, 2 detection zones are separated with mutually between the heating plate of different temperature controlled region, condenser pipe is connected with cold gas system, and start-up circuit and the shut-off circuit of described heating plate are connected with temperature controller by circuit;

Described supplementary illumination control system comprises light intensity controller, some LED and some optical sensors; Each temperature controlled region is provided with a LED and an optical sensor, and some optical sensors are connected with light intensity controller by DTU equally, and startup and the shut-off circuit of some LED are all connected with light intensity controller;

Described moisture control system comprises humidity controller, some waterfog heads and some humidity sensors; Each temperature controlled region is provided with a waterfog head and a humidity sensor, humidity sensor is connected with humidity sensor by DTU equally, the start-up circuit of waterfog head is all connected with humidity controller with shut-off circuit, and humidity controller is by the start-up circuit of heating plate and being connected with temperature controller by circuit of shut-off circuit.

The scope of described each detection zone is 1.5m × 1.5m-3m × 3m.

The scope of described each detection zone is 2.2m × 2.2m.

Described some condenser pipes are by the first pipeline communication, and the import of the first pipeline is connected with thermantidote, and the junction of each condenser pipe and the first pipeline is provided with butterfly valve, and the start-up circuit of butterfly valve is connected with temperature controller.

The first pipeline outer race between described adjacent condenser pipe is provided with muff.

Described temperature indicator is provided with several Temperature displaying regions, the corresponding device for monitoring temperature in each Temperature displaying region.

The LED of described each temperature controlled region includes the photochromic LED of multiple difference.

Be provided with one deck grass curtain in the LED periphery of described each temperature controlled region, careless curtain is made up of internal layer and skin, and internal layer is woven by wheat straw and forms, and skin is woven and layer by straw; One deck waterproof membrane is also provided with at the skin of careless curtain.

Be communicated with by second pipe between described some waterfog heads, the junction of each waterfog head and second pipe is provided with butterfly valve, start-up circuit and the shut-off circuit of butterfly valve are connected with humidity controller; One end of described waterfog head is water side, and water side is provided with water cover, water cover is provided with some first apopores and the second apopore, and the first apopore is distributed in side and the bottom surface of water cover, and the second apopore is distributed in the side of water cover.

Described second apopore is reducing hole, and inner diameter is greater than the diameter of outer end.

the usefulness of technique scheme is:

The invention provides a kind of automatic intelligent green house, by temperature control system of the present invention, the setting of moisture control system and supplementary illumination control system, utilize temperature control system to warm indoor temperature control, to meet the optimum temperature of peanut different growth periods, moisture control system is utilized to regulate greenhouse humidity, to meet the optimum humidity of peanut different growth periods, supplementary illumination control system is utilized to regulate warm indoor illumination intensity, to meet different time, the optimal light illumination of peanut different growth periods, realize the plantation to peanut, peanut yield and quality can be improved, through experiment calculation, the peanut yield of being planted by green house of the present invention compared with prior art improves 20-26%.

Below in conjunction with the drawings and specific embodiments, the present invention is further illustrated.

Accompanying drawing explanation

Fig. 1 is the embodiment of the present invention 1 frame structure schematic diagram;

Fig. 2 is the block diagram of temperature detecting module of the present invention;

Fig. 3 is booth plan structure schematic diagram of the present invention;

Fig. 4 is the structural representation of the waterfog head of moisture control system of the present invention;

Fig. 5 is the generalized section of waterfog head first apopore of the present invention;

Fig. 6 is the generalized section of waterfog head second apopore of the present invention.

Embodiment

embodiment 1

A kind of automatic intelligent green house as shown in Figure 1, comprises booth 1, temperature control system 2, moisture control system 3 and supplementary illumination control system 4; Described booth 1 lid is located at above growing area, and temperature control system 2, moisture control system 3 and supplementary illumination control system 4 are all arranged on booth 1, and temperature control system 2 is provided with temperature detecting module, wherein:

Described temperature control system also comprises temperature indicator, temperature controller, some heating plates 20 and some condenser pipes 21; As shown in Figure 2, described temperature detecting module comprises DTU, power amplifier 23, high-gain aerial 24, Zigbee communication system module 25, electric power system 26, power carrier controller 27 and several device for monitoring temperature 28; Described power amplifier 23 is connected with power carrier controller 27 by circuit, high-gain aerial 24 is connected with power carrier controller 27 by circuit, Zigbee communication system module 25 is connected with power carrier controller 27 by circuit, electric power system 26 is connected with power carrier controller 27 by circuit, and device for monitoring temperature 28 is connected with power carrier controller 27 and DTU by circuit.

As shown in Figure 3, described each device for monitoring temperature is provided with a temperature sensor 22, several temperature sensors 22 are evenly distributed on booth 1, concrete, the end face of described booth 1 is divided into several detection zones 10, the scope of each detection zone 10 is 1.5m × 1.5m-3m × 3m, and the central part of each detection zone 10 is provided with a temperature sensor 22.

Wherein, be divided into the testing result of detection zone the most accurate with the size of 1.5m × 1.5m, consider for ease of the best price/performance ratio, and through test, be divided into detection zone best with the size of 2.2m × 2.2m, the precision of its testing result is good, and error band is at about ± 2 DEG C.

Described temperature indicator is provided with several Temperature displaying regions, the corresponding device for monitoring temperature in each Temperature displaying region, for showing the temperature information of zones of different in booth.

The physical values of environmental parameter is converted into the analog signal of voltage or current forms by temperature sensor, and the analog signal that sensor sends is converted to data signal by device for monitoring temperature, sends temperature data by Zigbee communication module to DTU.DTU carries out data packing to the temperature information that device for monitoring temperature all in booth sends, and sends temperature datas all in booth by the GPRS data remote-transmission module of DTU to temperature controller; Each result after analyzing to the data analysis received, and is transferred to temperature indicator display by temperature controller successively.

As shown in Figure 3, the end face of described booth is divided into some temperature controlled region, each temperature controlled region includes at least 3 detection zones, a detection zone in each temperature controlled region is provided with heating plate 20 and condenser pipe 21, 2 detection zones 10 are separated with mutually between the heating plate 20 of different temperature controlled region, condenser pipe 21 is connected with cold gas system, start-up circuit and the shut-off circuit of described heating plate 20 are connected with temperature controller by circuit, start heating plate by temperature controller to the analysis of different temperatures supervising device signal to realize intensification or start cold gas system lowering the temperature, realize the control to constant temperature required in booth.

In the present invention, the scope of described detection zone determines according to the most accurate detection range of temperature sensor, and temperature controlled region determines according to maximum effect scope of heating plate and condenser pipe; Described heating plate and the coverage of condenser pipe can be increased by change heating plate size and condenser pipe size or be expanded, and specifically when implementing, according to the area of booth, can determine based on cost consideration.

More specifically, described some condenser pipes 21 are communicated with by the first pipeline 5, and the import of the first pipeline is connected with thermantidote, and the junction of each condenser pipe and the first pipeline is provided with butterfly valve, and the start-up circuit of butterfly valve is connected with temperature controller.

More preferably, the first pipeline outer race between described adjacent condenser pipe is provided with muff; To prevent cold air through the first pipeline, the situation causing the first Near Pipelines temperature to reduce occurs.

By the setting of temperature control system, booth is divided into some detection zones, each detection zone is provided with temperature sensor, heating plate and condenser pipe, temperature controller to temperature sensor transmit the analysis of data, judge whether that starting heating plate heats or start condenser pipe cooling, realizes with this object that accurately controls canopy temperature again; And owing to being booth is divided into some detection zones and some temperature controlled region, can accomplish to monitor accurately the temperature in region each in booth, for the temperature adjustment of temperature controller provides reference the most accurately, to guarantee temperature controlled precision.

As shown in Figure 3, described supplementary illumination control system 4 comprises light intensity controller, some LED 40 and some optical sensors 41; Each temperature controlled region is provided with LED 40 and an optical sensor 41, some optical sensors 41 are connected with light intensity controller by DTU equally, startup and the shut-off circuit of some LED 40 are all connected with light intensity controller, make optical sensor can control corresponding LED 40 by optical sensor 41 image data of different temperature controlled region and start or close.

The LED 40 of described each temperature controlled region includes the photochromic LED of multiple difference.

As shown in Figure 3, described moisture control system 3 comprises humidity controller, some waterfog heads 30 and some humidity sensors 31, each temperature controlled region is provided with waterfog head 30 and a humidity sensor 31, some humidity sensors 31 are connected with humidity sensor by DTU equally, the start-up circuit of some waterfog heads 30 is all connected with humidity controller with shut-off circuit, humidity controller is also connected with temperature controller by circuit with the start-up circuit of heating plate 20 and shut-off circuit, make humidity sensor can control corresponding waterfog head 30 by humidity sensor institute's image data of different temperature controlled region and heating plate 20 is opened or closed, the water smoke heating utilizing heating plate to spray waterfog head and the humidity improved in greenhouse, guarantee that greenhouse humidity meets crop demand, to promote the growth of crop.

Be communicated with by second pipe between described some waterfog heads 30, the setting of second pipe is consistent with the first pipeline 5, and at each waterfog head 30, the junction of second pipe is provided with butterfly valve, start-up circuit and the shut-off circuit of butterfly valve are connected with humidity controller; As Figure 4-Figure 6, one end of described waterfog head 30 is water side, water side is provided with water cover 300, water cover 300 is provided with some first apopore 301 and the second apopores 302, first apopore 301 is distributed in side and the bottom surface of water cover 300, and the second apopore 302 is distributed in the side of water cover 300.

Described second apopore 302 is reducing hole, and inner diameter is greater than the diameter of outer end; By such setting, the sprinkling distance of waterfog head can be increased, improve coverage, namely can realize the effect that crop is watered simultaneously.

Claims

1. an automatic intelligent green house, is characterized in that: comprise booth, temperature control system, moisture control system and supplementary illumination control system; Described booth lid is located at above growing area; Described temperature control system, moisture control system and supplementary illumination control system are all arranged on booth, it is characterized in that: described temperature control system is provided with temperature detecting module; Wherein:

Described temperature control system also comprises temperature indicator, temperature controller, some heating plates and some condenser pipes; The end face of described booth is divided into several detection zones, and each device for monitoring temperature is provided with a temperature sensor, and each detection zone is provided with a temperature sensor; The end face of described booth is divided into some temperature controlled region, each temperature controlled region includes at least 3 detection zones, a detection zone in each temperature controlled region is provided with heating plate and condenser pipe, 2 detection zones are separated with mutually between the heating plate of different temperature controlled region, condenser pipe is connected with cold gas system, and start-up circuit and the shut-off circuit of described heating plate are connected with temperature controller by circuit;

Described supplementary illumination control system comprises light intensity controller, some LED and some optical sensors; Each temperature controlled region is provided with a LED and an optical sensor, and optical sensor is all connected with light intensity controller by DTU, and startup and the shut-off circuit of LED are all connected with light intensity controller.

2. a kind of automatic intelligent green house as claimed in claim 1, is characterized in that: the scope of described each detection zone is 1.5m × 1.5m-3m × 3m.

3. a kind of automatic intelligent green house as claimed in claim 2, is characterized in that: the scope of described each detection zone is 2.2m × 2.2m.

4. a kind of automatic intelligent green house as claimed in claim 1, it is characterized in that: described some condenser pipes are by the first pipeline communication, the import of the first pipeline is connected with thermantidote, the junction of each condenser pipe and the first pipeline is provided with butterfly valve, and the start-up circuit of butterfly valve is connected with temperature controller.

5. a kind of automatic intelligent green house as claimed in claim 4, is characterized in that: the first pipeline outer race between described adjacent condenser pipe is provided with muff.

6. a kind of automatic intelligent green house as claimed in claim 1, is characterized in that: described temperature indicator is provided with several Temperature displaying regions, the corresponding device for monitoring temperature in each Temperature displaying region.

7. a kind of automatic intelligent green house as claimed in claim 1, is characterized in that: the LED of described each temperature controlled region includes the photochromic LED of multiple difference.

8. a kind of automatic intelligent green house as claimed in claim 7, is characterized in that: be provided with one deck grass curtain in the LED periphery of described each temperature controlled region, careless curtain is made up of internal layer and skin, and internal layer is woven by wheat straw and forms, and skin is woven and layer by straw; One deck waterproof membrane is also provided with at the skin of careless curtain.