CN208080018U - A kind of intelligent agricultural greenhouse monitoring device - Google Patents

Abstract

The utility model discloses a kind of intelligent agricultural greenhouse monitoring devices, including greenhouse, communication port there are two being opened up on the side wall of the greenhouse side, and two communication ports are symmetrically distributed in the both ends of greenhouse, it is respectively communicated with discharge pipe and blast pipe in two communication ports, it is communicated with regulation pipe between the discharge pipe and blast pipe, it is enclosed with heat barrier foam on the lateral wall of the regulation pipe, the regulation pipe is equipped with humidity sensor on the madial wall of discharge pipe side, side of the humidity sensor far from discharge pipe is equipped with fog-spray nozzle, it is communicated with water inlet pipe on the water inlet of the fog-spray nozzle, solenoid valve is installed on the water inlet pipe.The utility model has the advantages of simple structure and easy realization, and is monitored to the air inside greenhouse by humidity sensor, and humidity is regulated and controled in time, make the humiture of greenhouse inner air more uniform by the way of circulation, improve the accuracy of detection data, degree of intelligence is higher.

Description

A kind of intelligent agricultural greenhouse monitoring device

Technical field

The utility model is related to intelligent Polyhouse technology field more particularly to a kind of intelligent agricultural greenhouse monitoring devices.

Background technology

Depth is managed with State-level to land intensification to promote, the greenhouse plantation of scale has become can not The trend of reverse.Greenhouse gardening refers to placing a plant into greenhouse, by artificially creating suitable for plant growth in greenhouse Ecological environment, to improve a kind of implantation methods of plant products and quality.Currently, the application of greenhouse is especially extensive, the winter is warm Xia Liang, larger income can be obtained by planting the vegetable melon and fruit of anti-season in this way, to promote greenhouse to obtain quick hair Exhibition, the market prospects of greenhouse are boundless.Plant growth needs suitable humiture, for the intelligentized control method skill of temperature Art is more mature at present, but the humidity in greenhouse is still not easy to control, different zones in greenhouse may humidity not yet It is identical, problem is proposed to intelligentized control method, needs to make exploration to this problem.

Utility model content

Purpose of the utility model is to solve the humidity inside agricultural greenhouse in the prior art to be not easy to be controlled The problem of, and a kind of intelligent agricultural greenhouse monitoring device proposed.

To achieve the goals above, the utility model uses following technical solution：

A kind of intelligent agricultural greenhouse monitoring device, including greenhouse, open up that there are two circulations on the side wall of the greenhouse side Mouthful, and two communication ports are symmetrically distributed in the both ends of greenhouse, and discharge pipe and blast pipe have been respectively communicated in two communication ports, It is communicated with regulation pipe between the discharge pipe and blast pipe, heat barrier foam, the tune are enclosed on the lateral wall of the regulation pipe Section pipe is equipped with humidity sensor on the madial wall of discharge pipe side, and side of the humidity sensor far from discharge pipe is set There is fog-spray nozzle, water inlet pipe is communicated on the water inlet of the fog-spray nozzle, and water inlet pipe runs through the roof of regulation pipe and extends to tune The outside of pipe to be saved, solenoid valve is installed on the water inlet pipe, side of the fog-spray nozzle far from humidity sensor is equipped with fixed bin, The inside of the fixed bin offers drying chamber, ventilation opening is offered on the madial wall of the drying chamber both sides, described in two First baffle and second baffle are inserted on the madial wall of ventilation opening respectively, and first baffle and second baffle extend through fixation Box and the upside for extending to regulation pipe are equipped with servo motor, the driving end of the servo motor on the roof of the regulation pipe On first gear is installed, the inside of the discharge pipe is equipped with exhaust fan.

Preferably, offered on the first baffle with the intermeshing tooth socket of first gear, the one of the first gear Side is engaged with second gear, is offered on the second baffle and the intermeshing tooth socket of second gear.

Preferably, the roof of the regulation pipe is equipped with fixed seat, and the servo motor is mounted in fixed seat, described solid The side of reservation is equipped with tooth rest, and the second gear is mounted on tooth rest.

Preferably, it is mounted on ventilative cotton on the madial wall of two ventilation opening opposite sides, the drying chamber Inside is filled with drier.

Preferably, the fog-spray nozzle and fixed bin are installed on the madial wall of regulation pipe.

Preferably, microcontroller, the output end and monolithic of the humidity sensor are installed on the lateral wall of the regulation pipe The input terminal of machine is electrically connected, and the output end of the microcontroller is electrically connected with the driving end of solenoid valve and servo motor respectively, described Microcontroller is programmable 89S51 microcontrollers, and the humidity sensor is HM1500LF humidity sensors.

In the utility model, power supply is opened, is powered to whole system, the air inside greenhouse is extracted out and passed through by exhaust fan Regulation pipe and blast pipe reenter in greenhouse, are that humidity sensor first carries out Humidity Detection to air, and sends the data to Microcontroller, if being found after microcontroller contrast number, humidity is relatively low, opens solenoid valve and is humidified to air by fog-spray nozzle, if It was found that humidity is higher, then drives servo motor rotation by two baffle pull-ups, pass air through drier and simply dried.This reality It is simple with new structure, it is easy to accomplish, the air inside greenhouse is monitored by humidity sensor, and in time to humidity into Row regulation and control, are made the humiture of greenhouse inner air more uniform by the way of circulation, improve the accuracy of detection data, Degree of intelligence is higher.

Description of the drawings

Fig. 1 be the utility model proposes a kind of intelligent agricultural greenhouse monitoring device positive structure schematic；

Fig. 2 be the utility model proposes a kind of intelligent agricultural greenhouse monitoring device side structure schematic diagram；

Fig. 3 be the utility model proposes a kind of intelligent agricultural greenhouse monitoring device part A structure enlarged drawing.

In figure：1 greenhouse, 2 discharge pipes, 3 blast pipes, 4 humidity sensors, 5 fog-spray nozzles, 6 solenoid valves, 7 water inlet pipes, 8 are fixed Box, 9 drying chambers, 10 first baffles, 11 second baffles, 12 servo motors, 13 first gears, 14 fixed seats, 15 second gears, 16 Exhaust fan.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term "upper", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-3, a kind of intelligent agricultural greenhouse monitoring device, including greenhouse 1 offer on the side wall of 1 side of greenhouse Two communication ports, and two communication ports are symmetrically distributed in the both ends of greenhouse 1, and 2 He of discharge pipe has been respectively communicated in two communication ports Blast pipe 3 is communicated with regulation pipe, is enclosed with heat barrier foam on the lateral wall of regulation pipe, avoids between discharge pipe 2 and blast pipe 3 Heat loss causes the reduction of greenhouse internal temperature, regulation pipe to be equipped with humidity sensor on the madial wall of 2 side of discharge pipe 4, side of the humidity sensor 4 far from discharge pipe 2 is equipped with fog-spray nozzle 5, is communicated with water inlet pipe 7 on the water inlet of fog-spray nozzle 5, and into Water pipe 7 runs through the roof of regulation pipe and extends to the outside of regulation pipe, is equipped with solenoid valve 6 on water inlet pipe 7, fog-spray nozzle 5 is separate The side of humidity sensor 4 is equipped with fixed bin 8, and fog-spray nozzle 5 and fixed bin 8 are installed on the madial wall of regulation pipe, fixed bin 8 Inside offer drying chamber 9, offer ventilation opening on the madial wall of 9 both sides of drying chamber, two ventilation opening opposite sides Ventilative cotton is mounted on madial wall, the inside of drying chamber 9 is filled with drier, is inserted respectively on the madial wall of two ventilation openings Equipped with first baffle 10 and second baffle 11, and first baffle 10 and second baffle 11 extend through fixed bin 8 and extend to tune The upside of pipe is saved, servo motor 12 is installed on the roof of regulation pipe, first gear is installed on the driving end of servo motor 12 13, offer on first baffle 10 with 13 intermeshing tooth socket of first gear, the side of first gear 13 is engaged with the second tooth Wheel 15, offer on second baffle 11 with 15 intermeshing tooth socket of second gear, first gear 13 rotates clockwise can band Dynamic first baffle 10 moves up, while by driving the rotation pull-up second baffle 11 counterclockwise of second gear 15, the roof of regulation pipe It is equipped with fixed seat 14, servo motor 12 is mounted in fixed seat 14, and the side of fixed seat 14 is equipped with tooth rest, second gear 15 On tooth rest, the inside of discharge pipe 2 is equipped with exhaust fan 16.

In the utility model, microcontroller, the output end and microcontroller of humidity sensor 4 are installed on the lateral wall of regulation pipe Input terminal electrical connection, the output end of microcontroller is electrically connected with the driving end of solenoid valve 6 and servo motor 12 respectively, and microcontroller is Programmable 89S51 microcontrollers, humidity sensor 4 are HM1500LF humidity sensors.

In the utility model, power supply is opened, is powered to whole system, exhaust fan 16 extracts the air inside greenhouse 1 simultaneously out It is reentered in greenhouse 1 by regulation pipe and blast pipe 3, humidity sensor 4 first carries out Humidity Detection to air, and data are sent out Microcontroller is given, humidity is relatively low if being found after microcontroller contrast number, opens solenoid valve 6 and is carried out to air by fog-spray nozzle 5 Humidification, if finding, humidity is higher, drives the rotation of servo motor 12 by two baffle pull-ups, it is simple to pass air through drier It is dry.

The preferable specific implementation mode of the above, only the utility model, but the scope of protection of the utility model is not Be confined to this, any one skilled in the art within the technical scope disclosed by the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of intelligent agricultural greenhouse monitoring device, including greenhouse（1）, it is characterised in that：The greenhouse（1）On the side wall of side Communication port there are two opening up, and two communication ports are symmetrically distributed in greenhouse（1）Both ends, be respectively communicated in two communication ports There is discharge pipe（2）And blast pipe（3）, the discharge pipe（2）And blast pipe（3）Between be communicated with regulation pipe, the regulation pipe Heat barrier foam is enclosed on lateral wall, the regulation pipe is close to discharge pipe（2）Humidity sensor is installed on the madial wall of side （4）, the humidity sensor（4）Far from discharge pipe（2）Side be equipped with fog-spray nozzle（5）, the fog-spray nozzle（5）Water inlet on It is communicated with water inlet pipe（7）, and water inlet pipe（7）Through regulation pipe roof and extend to the outside of regulation pipe, the water inlet pipe（7） On solenoid valve is installed（6）, the fog-spray nozzle（5）Far from humidity sensor（4）Side be equipped with fixed bin（8）, the fixation Box（8）Inside offer drying chamber（9）, the drying chamber（9）Ventilation opening is offered on the madial wall of both sides, described in two It is inserted with first baffle respectively on the madial wall of ventilation opening（10）And second baffle（11）, and first baffle（10）And second baffle （11）Extend through fixed bin（8）And the upside of regulation pipe is extended to, servo motor is installed on the roof of the regulation pipe （12）, the servo motor（12）Driving end on first gear is installed（13）, the discharge pipe（2）Inside pumping is installed Wind turbine（16）.

2. a kind of intelligent agricultural greenhouse monitoring device according to claim 1, it is characterised in that：The first baffle（10） On offer and first gear（13）Intermeshing tooth socket, the first gear（13）Side be engaged with second gear （15）, the second baffle（11）On offer and second gear（15）Intermeshing tooth socket.

3. a kind of intelligent agricultural greenhouse monitoring device according to claim 2, it is characterised in that：The roof of the regulation pipe It is equipped with fixed seat（14）, the servo motor（12）Mounted on fixed seat（14）On, the fixed seat（14）Side be equipped with Tooth rest, the second gear（15）On tooth rest.

4. a kind of intelligent agricultural greenhouse monitoring device according to claim 1, it is characterised in that：Two ventilation opening phases To being mounted on ventilative cotton, the drying chamber on the madial wall of side（9）Inside be filled with drier.

5. a kind of intelligent agricultural greenhouse monitoring device according to claim 1, it is characterised in that：The fog-spray nozzle（5）With Fixed bin（8）It is installed on the madial wall of regulation pipe.

6. a kind of intelligent agricultural greenhouse monitoring device according to claim 1, it is characterised in that：The outside of the regulation pipe Microcontroller, the humidity sensor are installed on wall（4）Output end be electrically connected with the input terminal of microcontroller, the microcontroller Output end respectively with solenoid valve（6）And servo motor（12）The electrical connection of driving end, the microcontroller is programmable 89S51 monolithics Machine, the humidity sensor（4）For HM1500LF humidity sensors.