CN112504334A

CN112504334A - Flower growth condition detection method

Info

Publication number: CN112504334A
Application number: CN202011318604.2A
Authority: CN
Inventors: 于永军
Original assignee: Wuxi Nancun Flower & Nursery Stock Professional Cooperatives
Current assignee: Wuxi Nancun Flower & Nursery Stock Professional Cooperatives
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-16

Abstract

The invention discloses a flower growth condition detection method, which comprises the steps of monitoring soil by a soil detector at different time intervals, shooting flowers by a shooting device at different time intervals, and realizing the optimization of the flowers by comparing soil parameters and flower growth conditions. Through the way, the flower growth condition detection method can accurately detect the soil condition and the flower growth condition, reduce the uncontrollable factors of planting and improve the quality and the yield of flowers.

Description

Flower growth condition detection method

Technical Field

The invention relates to the field of flower planting, in particular to a method for detecting the growth condition of flowers.

Background

The mode that can carry out soil culture or water planting when carrying out big-arch shelter flower planting goes on, what present most adopted is the mode of soil culture, traditional big-arch shelter planting method directly selects the land to carry out the construction of big-arch shelter, then carry out the seeding fertilization of flowers, wait to flowers grow to sell in the flowerpot directly when certain, the growth condition of this kind of mode flowers not only can not be controlled, and produce the dead condition of flowers large tracts of land easily when carrying out flowers polyculture, and a large amount of manpower and material resources are wasted in the mode of adopting the watering at flower planting's in-process, and the effect is not good, traditional big-arch shelter is planted and is made a lot of controllable factors become uncontrollable, and then influence the quality of flowers.

Disclosure of Invention

The invention mainly solves the technical problem of providing a flower growth condition detection method, which can accurately detect the soil condition and the flower growth condition, reduce the uncontrollable factors of planting and improve the quality and the yield of flowers.

In order to solve the technical problems, the invention adopts a technical scheme that: the flower growth condition detection method comprises the following steps: a. selecting the plot that soil property is fit for planting, evenly dividing a plurality of planting regions on the plot, to soil physique to the state that is fit for planting, set up soil detector in planting the region, select three different periods at least and pass through soil detector and detect soil parameter in advance to with the numerical value of above-mentioned survey as the soil preset parameter for different periods, soil detector will predetermine data transmission to control center: b. correspondingly planting flowers in the planting area, numbering each flower, detecting soil parameters by a soil detector every day after planting in the same time period as the time period in the step a, shooting all flowers by a camera device, and sending the soil parameters and the shooting video to a control center; c. the control center records and stores photos of the flowers classified according to dates and time periods and soil parameters, compares the soil parameters with preset soil parameters, compares the same flowers according to time arrangement, and acquires the growth states of the flowers within a period of time; d. b, comparing the measured soil parameters with preset soil parameters, and adding conditioning elements and microorganisms into the soil to condition the soil so that the conditioned soil is close to the soil parameters before planting in the step a; e. after flowers are planted for 5-10 days, comparing the growth conditions of the flowers, selecting the flowers with poor growth conditions, and transferring the flowers from the planting area to a pot plant for independent cultivation; f. and (e) repeating the steps b to e, and transferring the grown flowers to pots for packaging, transporting and selling.

In a preferred embodiment of the present invention, in step a, soil parameter detection is performed by a soil detector at least in 3 different time periods selected from morning, noon and evening.

In a preferred embodiment of the invention, the soil parameter measurements include the composition of various chemicals within the soil, the temperature of the soil, the P H value of the soil, and the moisture content of the soil.

In a preferred embodiment of the invention, in the step b, a plurality of unmanned aerial vehicles shoot a plurality of planting areas in a saturation mode at the same time, so that all flowers can obtain cleaned shooting videos.

In a preferred embodiment of the invention, the control center analyzes the shot video frame by frame through the video processing system, processes and synthesizes a picture which can show the growth condition of the flowers most.

The invention has the beneficial effects that: the flower growth condition detection method can accurately detect the soil condition and the flower growth condition, reduce the uncontrollable factors of planting and improve the quality and the yield of flowers.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A flower growth condition detection method comprises the following steps: a. selecting a land parcel with soil properties suitable for planting, uniformly dividing a plurality of planting areas on the land parcel, setting a soil detector in the planting area to the state suitable for planting, at least selecting 3 different periods in the morning, at noon and at evening to detect soil parameters in advance through the soil detector, detecting the soil parameters including chemical compositions in the soil, soil temperature, soil P H value and soil humidity, and taking the measured values as the preset parameters of the soil in the different periods, and sending the preset data to a control center by the soil detector: b. correspondingly planting flowers in the planting area, numbering each flower, detecting soil parameters by a soil detector every day after planting in the same time period as the time period in the step a, simultaneously carrying out saturation type shooting on a plurality of planting areas by a plurality of unmanned aerial vehicles, ensuring that all flowers can obtain cleaned shooting videos, and sending the soil parameters and the shooting videos to a control center; c. the control center records and stores photos of flowers classified according to dates and time periods and soil parameters, compares the soil parameters with preset soil parameters, analyzes the shot videos frame by frame through the video processing system, processes and synthesizes photos capable of displaying the growth conditions of the flowers, compares the same flowers according to time arrangement, and obtains the growth states of the flowers within a period of time; d. b, comparing the measured soil parameters with preset soil parameters, and adding conditioning elements and microorganisms into the soil to condition the soil so that the conditioned soil is close to the soil parameters before planting in the step a; e. after flowers are planted for 5-10 days, comparing the growth conditions of the flowers, selecting the flowers with poor growth conditions, and transferring the flowers from the planting area to a pot plant for independent cultivation; f. and (e) repeating the steps b to e, and transferring the grown flowers to pots for packaging, transporting and selling.

Different from the prior art, the flower growth condition detection method can accurately detect the soil condition and the flower growth condition, reduce the uncontrollable factors of planting and improve the quality and the yield of flowers.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A flower growth condition detection method is characterized by comprising the following steps:

a. selecting the plot that soil property is fit for planting, evenly dividing a plurality of planting regions on the plot, to soil physique to the state that is fit for planting, set up soil detector in planting the region, select three different periods at least and pass through soil detector and detect soil parameter in advance to with the numerical value of above-mentioned survey as the soil preset parameter for different periods, soil detector will predetermine data transmission to control center:

b. correspondingly planting flowers in the planting area, numbering each flower, detecting soil parameters by a soil detector every day after planting in the same time period as the time period in the step a, shooting all flowers by a camera device, and sending the soil parameters and the shooting video to a control center;

c. the control center records and stores photos of the flowers classified according to dates and time periods and soil parameters, compares the soil parameters with preset soil parameters, compares the same flowers according to time arrangement, and acquires the growth states of the flowers within a period of time;

d. b, comparing the measured soil parameters with preset soil parameters, and adding conditioning elements and microorganisms into the soil to condition the soil so that the conditioned soil is close to the soil parameters before planting in the step a;

e. after flowers are planted for 5-10 days, comparing the growth conditions of the flowers, selecting the flowers with poor growth conditions, and transferring the flowers from the planting area to a pot plant for independent cultivation;

f. and (e) repeating the steps b to e, and transferring the grown flowers to pots for packaging, transporting and selling.

2. A flower growth status detection method according to claim 1, wherein in the step a, soil parameters are detected by a soil detector at least in 3 different time periods selected in the morning, at noon and at evening.

3. A flower growth status detection method according to claim 2, wherein the soil parameter detection includes each chemical composition in soil, soil temperature, soil P H value and soil moisture.

4. A flower growth detection method according to claim 1, wherein in the step b, a plurality of unmanned aerial vehicles shoot a plurality of planting areas in a saturation mode at the same time, so that all flowers can obtain clean shot videos.

5. A flower growth status detection method according to claim 4, wherein the control center processes and synthesizes the picture which can show the flower growth status most through the frame-by-frame analysis of the shot video by the video processing system.