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Novel greenhouse under real-time control

A new type of real-time control technology, applied in greenhouse cultivation, agricultural machinery and equipment, climate change adaptation, etc., can solve the problems of manpower and material resources, high cost of greenhouses, low efficiency, etc., and achieve cost saving, manpower and material resources saving, and low cost Effect

Active Publication Date: 2015-11-04
KUNMING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Traditional environmental control needs to install a thermometer and hygrometer in the greenhouse to understand the actual temperature and humidity in the greenhouse through manual reading, and perform corresponding manual operations, which consumes a lot of manpower and material resources, is inefficient and changes with the seasons. Greenhouses need to be remodeled frequently, poor adaptability, and the cost is too high for a large number of greenhouses

Method used

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  • Novel greenhouse under real-time control

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Embodiment 1: as Figure 1-8 As shown, a new type of greenhouse with real-time control, including wall 1, outer scaffolding 2, inner scaffolding 3, light-transmitting film 4, top beam 5, unpowered fan 6, slide rail 7, stepping motor 8, heat preservation quilt 9, solar collector plate 10, reservoir 11, water pump Ⅰ 12, water inlet pipe 13, water outlet pipe 14, heat collecting pool 15, water pump Ⅱ 16, radiator 17, soil moisture sensor 18, water pump Ⅲ 19, irrigation conduit 20 , control module 21, temperature and humidity sensor 22, solar photovoltaic panel 23, bracket 24, battery 25, light sensor I26, LED grow light 27, fog maker 28, fog outlet 29, liquid level sensor I50, liquid level sensor II51; The wall body 1 is made of high thermal insulation material, and its top adopts two layers of scaffolding, namely the outer scaffolding 2 and the inner scaffolding 3, the outer scaffolding 2 and the inner scaffolding 3 are connected to the top beam 5, and the light-transmitt...

Embodiment 2

[0030] Embodiment 2: as Figure 1-8 As shown, a novel greenhouse with real-time control, this embodiment is the same as Embodiment 1, wherein:

[0031] The solar heat collecting plate 10 includes a stainless steel shell 30, a transparent glass 31, a water inlet 32, a heat collecting conduit 33, a U-shaped heat collecting plate 34, a water outlet 35, and a light sensor II 36; wherein the water inlet 32 ​​and the water outlet 35 are installed on On the outside of the stainless steel shell 30, the heat collecting pipe 33 and the U-shaped heat collecting plate 34 are installed inside the stainless steel shell 30, the heat collecting pipe 33 is connected with the water inlet 32 ​​and the water outlet 35, and the heat collecting pipe 33 is located at the focus of the U-shaped heat collecting plate 34 Above, the light sensor II 36 is installed on the lower part of the stainless steel casing 30 and connected to the control module 21 , the water inlet 32 ​​and the water outlet 35 are c...

Embodiment 3

[0032] Embodiment 3: as Figure 1-8 As shown, a novel greenhouse of real-time control, this embodiment is the same as Embodiment 2, wherein:

[0033] The control module 21 includes a single-chip microcomputer module 37, a temperature and humidity detection module 38, a light intensity detection module I39, a light intensity detection module II40, a soil moisture detection module 41, a liquid level detection module 42, a heat collection control module 43, and a heat dissipation control module 44 , watering control module 45, heat preservation control module 46, humidification control module 47, LED growth lamp control module 48, storage battery 49, liquid level detection module II 52; among them, single chip microcomputer module 37, temperature and humidity detection module 38, light intensity detection module I 39, light Strong detection module II40, soil moisture detection module 41, liquid level detection module 42, heat collection control module 43, heat dissipation control...

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Abstract

The invention relates to a novel greenhouse under real-time control, and belongs to the field of intelligent control. The greenhouse comprises a wall body, an external greenhouse frame, an internal greenhouse frame, a non-opaque film, a top beam, a no-power fan, a sliding rail, a stepping motor, a thermal-insulation quilt, a solar energy heat collection plate, a water tank, a water pump I, a water incoming tube, a water outgoing tube, a heat collection pool, a water pump II, a heat radiator, a soil moisture sensor, a water pump III, an irrigating guide pipe, a control module, a temperature and moisture sensor, a solar photoelectric board, a support, a storage battery, an illumination sensor I, an LED growth lamp, a fog making machine, a fog outlet, a liquid level sensor I, and a liquid level sensor II. The greenhouse is low in cost, is simple in structure, is high in adaptability, saves energy, is environment-friendly, can achieve the automatic adjustment of the internal environment through the control module according to the temperature and moisture sensor, the soil moisture sensor and the illumination sensor I, makes the most of solar energy, saves manpower and material resources, reduces the repeated reconstruction according to different seasons, and greatly saves the cost.

Description

technical field [0001] The invention relates to a novel greenhouse with real-time control, belonging to the technical field of intelligent control. Background technique [0002] With the widespread application of greenhouse technology, the number of greenhouses continues to increase, and environmental control in greenhouses has become a key issue. Traditional environmental control needs to install a thermometer and hygrometer in the greenhouse to understand the actual temperature and humidity in the greenhouse through manual reading, and perform corresponding manual operations, which consumes a lot of manpower and material resources, is inefficient and changes with the seasons. Greenhouses need to be remodeled frequently, poor adaptability, and the cost is too high for a large number of greenhouses. Contents of the invention [0003] The technical problem to be solved by the present invention is: the present invention provides a new type of greenhouse with real-time contr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G9/24A01G7/04
CPCA01G7/04A01G9/24Y02A40/25Y02P60/12Y02P60/14
Inventor 张晶肖智斌范洪博容会崔毅李润鑫汤守国潘晟旻孙俊
Owner KUNMING UNIV OF SCI & TECH