CN111406607A - An underground irrigation method and system controlled by a handheld APP - Google Patents

Abstract

The invention relates to an underground irrigation method and system controlled by a handheld APP. The method comprises the following steps: acquiring crop growth stage information; collecting temperature and humidity information of soil according to the crop growth stage information; sending the temperature and humidity information to a handheld client; and controlling the time and the irrigation amount of soil irrigation through the handheld client. The invention can improve the utilization rate of irrigation water.

Description

An underground irrigation method and system controlled by a handheld APP

technical field

The invention relates to the field of underground irrigation, in particular to an underground irrigation method and system controlled by a handheld APP.

Background technique

At present, the growth of crops is inseparable from irrigation, and the existing irrigation method mainly uses the ground flood irrigation of ditches. Under the condition that the farmland soil is not cracked, the use of ditch ground flood irrigation due to the dense plough bottom of the paddy field, the amount of water leakage and seepage in the paddy field is not large. However, when seasonal drought occurs during crop production, the farmland cracks, and the cracks penetrate the bottom of the plow. When flood irrigation is used, a large amount of irrigation water flows out from the bottom of the plow, and the utilization rate of irrigation water is very low. Moreover, the existing irrigation technology mostly adopts fixed irrigation time and irrigation amount, but the natural precipitation and soil moisture do not match, so it is difficult to achieve high irrigation water utilization rate.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an underground irrigation method and system controlled by a handheld APP, which can improve the utilization rate of irrigation water.

For achieving the above object, the present invention provides the following scheme:

An underground irrigation method controlled by a handheld APP, comprising:

Obtain information on crop growth stages;

Collect soil temperature and humidity information according to the crop growth stage information;

sending the temperature and humidity information to the handheld client;

Through the handheld client, the time and amount of soil irrigation can be controlled.

Optionally, the acquiring information on the growth stage of the crops specifically includes:

Acquire information on the growth stage of the crop, where the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage.

Optionally, the collection of soil temperature and humidity information according to the crop growth stage information specifically includes:

According to the crop growth stage information, determine the depth of the temperature and humidity sensor buried underground;

Burying the temperature and humidity sensor underground according to the depth;

The temperature and humidity information of the farmland soil is collected through the buried temperature and humidity sensor.

Optionally, the controlling the time and amount of underground irrigation through the handheld client specifically includes:

The start time, end time, irrigation speed and irrigation amount of the underground irrigation of the pipeline are controlled by the handheld client.

An underground irrigation system controlled by a handheld APP, comprising:

The growth stage acquisition module is used to obtain the information of the growth stage of crops;

a temperature and humidity information collection module, configured to collect soil temperature and humidity information according to the crop growth stage information;

an information sending module for sending the temperature and humidity information to the handheld client;

The irrigation control module is used to control the time and amount of soil irrigation through the handheld client.

Optionally, the growth stage acquisition module specifically includes:

The growth stage acquisition unit is used for acquiring the growth stage information of the crop, and the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage.

Optionally, the temperature and humidity information collection module specifically includes:

The burial depth determination unit is used to determine the depth of the temperature and humidity sensor buried underground according to the information of the crop growth stage;

a sensor burying unit for burying the temperature and humidity sensor underground according to the depth;

The temperature and humidity information collection unit is used to collect the temperature and humidity information of the farmland soil through the buried temperature and humidity sensor.

Optionally, the irrigation control module specifically includes:

The irrigation control unit is used for controlling the start time, end time, irrigation speed and irrigation amount of underground irrigation of the pipeline through the hand-held client.

According to the specific embodiments provided by the present invention, the present invention discloses the following technical effects:

The invention provides an underground irrigation method and system controlled by a handheld APP. By acquiring the information of the growth stage of crops; collecting the temperature and humidity information of the soil according to the information of the growth stage of the crops; sending the temperature and humidity information to the handheld client; Control the timing and amount of soil irrigation. The above method can not only meet the water demand of crops in different growth stages, but also realize real-time adjustment of crop irrigation, improve the utilization rate of irrigation water, and ensure the normal growth of crops.

Description of drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the accompanying drawings required in the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some of the present invention. In the embodiments, for those of ordinary skill in the art, other drawings can also be obtained according to these drawings without creative labor.

Fig. 1 is the flow chart of the underground irrigation method controlled by handheld APP of the present invention;

FIG. 2 is a structural diagram of an underground irrigation system controlled by a handheld APP of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The purpose of the present invention is to provide an underground irrigation method and system controlled by a handheld APP, which can improve the utilization rate of irrigation water.

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

Example 1:

Fig. 1 is the flow chart of the underground irrigation method controlled by the handheld APP of the present invention. As shown in Figure 1, an underground irrigation method controlled by a handheld APP includes:

Step 101: Acquire crop growth stage information, specifically including:

Acquire information on the growth stage of the crop, where the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage.

Step 102: Collect soil temperature and humidity information according to the crop growth stage information, specifically including:

According to the information of the growth stage of the crops, the depth of the temperature and humidity sensor buried underground is determined.

The temperature and humidity sensors are buried underground according to the depth.

The temperature and humidity information of the farmland soil is collected through the buried temperature and humidity sensor.

Step 103: Send the temperature and humidity information to the handheld client.

Step 104: Control the time and amount of soil irrigation through the handheld client, specifically including:

The start time, end time, irrigation speed and irrigation amount of the underground irrigation of the pipeline are controlled by the handheld client.

The above method can not only meet the water demand of crops in different growth stages, but also realize real-time adjustment of crop irrigation, improve the utilization rate of irrigation water, and ensure the normal growth of crops.

Example 2:

The invention also provides an underground irrigation system controlled by a handheld APP. FIG. 2 is a structural diagram of an underground irrigation system controlled by a handheld APP of the present invention. As shown in Figure 2, an underground irrigation system controlled by a handheld APP includes:

The growth stage obtaining module 201 is used to obtain the information of the growth stage of the crops.

The temperature and humidity information collection module 202 is configured to collect soil temperature and humidity information according to the crop growth stage information.

The information sending module 203 is configured to send the temperature and humidity information to the handheld client.

The irrigation control module 204 is used to control the time and amount of soil irrigation through the handheld client.

The growth stage acquisition module 201 specifically includes:

The growth stage acquisition unit is used for acquiring the growth stage information of the crop, and the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage.

The temperature and humidity information collection module 202 specifically includes:

The burial depth determination unit is used to determine the depth of the temperature and humidity sensor buried underground according to the information of the growth stage of the crops.

The sensor burying unit is used for burying the temperature and humidity sensor underground according to the depth.

The temperature and humidity information collection unit is used to collect the temperature and humidity information of the farmland soil through the buried temperature and humidity sensor.

The irrigation control module 204 specifically includes:

The irrigation control unit is used for controlling the start time, end time, irrigation speed and irrigation amount of underground irrigation of the pipeline through the hand-held client.

Example 3:

In this example, potatoes are taken as an example. From planting in the ground to harvesting when mature, potatoes go through a total of seedling stage, growth stage (tuberous formation stage), flowering stage (tuberous growth stage), fruiting stage (starch accumulation stage) and withering stage , Horse bells in different growth periods, water requirements are also very different. details as follows:

1. In the seedling stage of potato, the seedling is small and the air temperature is low, so the water demand is relatively small, and the water demand accounts for about 15% of the whole growth period.

2. During the tuber formation period, the potato grows vigorously on the upper part of the land, and the air temperature is also rising, so the water demand of potatoes will continue to increase during this period. The water demand of potatoes at this stage accounts for more than 25% of the whole growth period.

3. During the tuber growth stage of potatoes, the growth and development of the plants on the upper part of the land and the tuber parts on the lower part of the land continue to accelerate. During this period, the demand for water by potatoes will continue to increase. During this period, the water requirement of potatoes accounts for 50% of the whole growth period, which is the full growth of potatoes. The period with the highest water demand.

4. Potatoes are in the starch accumulation period. During this period, the water demand of potatoes is small. At this stage, the potato locks water and precipitates starch. Too much water can easily cause the potato to rot or reduce the storage time. During this period, the water consumption of the potato accounts for about the whole growth period. 10% or so.

Based on the above analysis, it can be seen that the potato needs the most water during the tuber growth period, but the lack of water at the seedling stage also has a great influence on the yield of the potato in the current season; in the arid regions of northern my country, during the potato growth period, the natural rainfall generally cannot meet the needs of the potato growth process. The large demand for water, so the need to irrigate potatoes.

When irrigating potatoes, the steps are as follows:

1. First, obtain the information of the potato growth stage, that is, determine which stage the potato is in the seedling stage, the growth stage, the flowering stage, the fruiting stage and the withering stage.

2. Collect soil temperature and humidity information according to the current potato growth stage information. Specifically, according to the different growth stages of the potato: seedling stage, growth stage, flowering stage, fruiting stage and withering stage, the temperature and humidity sensors are buried underground at different depths, for example, 1-3 cm in the seedling stage, and the growth Buried 4-10cm during the flowering period, buried 11-16cm during the flowering period, buried 17-18cm during the fruiting period, and buried 17-18cm during the withering period. The temperature and humidity information of the farmland soil is collected through the buried temperature and humidity sensor.

3. Send the temperature and humidity information to the handheld client.

4. Through the handheld client, control the time and amount of soil irrigation, including the start time, end time, speed and amount of irrigation.

Through the above steps, it is possible to irrigate the potatoes with different water amounts at different growth stages, thereby improving the utilization rate of the irrigation water for the potatoes and increasing the yield of the potatoes.

The various embodiments in this specification are described in a progressive manner, and each embodiment focuses on the differences from other embodiments, and the same and similar parts between the various embodiments can be referred to each other. For the system disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant part can be referred to the description of the method.

The principles and implementations of the present invention are described herein using specific examples. The descriptions of the above embodiments are only used to help understand the method and the core idea of the present invention; meanwhile, for those skilled in the art, according to the present invention There will be changes in the specific implementation and application scope. In conclusion, the contents of this specification should not be construed as limiting the present invention.

Claims (8)

1. an underground irrigation method controlled by a handheld APP, is characterized in that, comprising: Obtain information on crop growth stages; Collect soil temperature and humidity information according to the crop growth stage information; sending the temperature and humidity information to the handheld client; Through the handheld client, the time and amount of soil irrigation can be controlled. 2. The underground irrigation method controlled by hand-held APP according to claim 1, is characterized in that, described obtaining crop growth stage information, specifically comprises: Acquire information on the growth stage of the crop, where the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage. 3. The underground irrigation method controlled by a handheld APP according to claim 1, characterized in that, according to the crop growth stage information, the temperature and humidity information of the soil is collected, specifically comprising: According to the crop growth stage information, determine the depth of the temperature and humidity sensor buried underground; Burying the temperature and humidity sensor underground according to the depth; The temperature and humidity information of the farmland soil is collected through the buried temperature and humidity sensor. 4. The method for underground irrigation controlled by a handheld APP according to claim 1, wherein the time and the amount of irrigation controlled by the handheld client terminal specifically include: The start time, end time, irrigation speed and irrigation amount of the underground irrigation of the pipeline are controlled by the handheld client. 5. An underground irrigation system controlled by a handheld APP, is characterized in that, comprising: The growth stage acquisition module is used to obtain the information of the growth stage of crops; a temperature and humidity information collection module, configured to collect soil temperature and humidity information according to the crop growth stage information; an information sending module for sending the temperature and humidity information to the handheld client; The irrigation control module is used to control the time and amount of soil irrigation through the handheld client. 6. The underground irrigation system controlled by a handheld APP according to claim 5, wherein the growth stage acquisition module specifically comprises: The growth stage acquisition unit is used for acquiring the growth stage information of the crop, and the growth stage information includes: seedling stage, growth stage, flowering stage, fruiting stage and withering stage. 7. The underground irrigation system controlled by a handheld APP according to claim 5, wherein the temperature and humidity information collection module specifically comprises: The burial depth determination unit is used to determine the depth of the temperature and humidity sensor buried underground according to the information of the crop growth stage; a sensor burying unit for burying the temperature and humidity sensor underground according to the depth; The temperature and humidity information collection unit is used to collect the temperature and humidity information of the farmland soil through the buried temperature and humidity sensor. 8. The underground irrigation system controlled by a handheld APP according to claim 5, wherein the irrigation control module specifically comprises: The irrigation control unit is used for controlling the start time, end time, irrigation speed and irrigation amount of underground irrigation of the pipeline through the hand-held client.

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