CN111418423A - Local climate adjusting method and adjusting system thereof - Google Patents

Abstract

The invention relates to a local climate adjustment method and an adjustment system thereof, belonging to the technical field of climate adjustment systems. Solve the technical problem that the existing technology cannot adjust regional precipitation, resulting in uneven regional precipitation and uneven drought and flood. The local climate adjustment method of the present invention manually adjusts the precipitation cloud clusters precisely according to the location distribution of the precipitation cloud clusters, thereby realizing air transportation of the water system. The local climate adjustment system of the present invention includes: a central processing system, a monitoring system, a power system, and an air pipeline; the central processing system is responsible for the intelligent processing of the entire adjustment system; the monitoring system is used for water vapor transmission power and pressure monitoring, and the energy of the power system Monitoring, and state monitoring of air pipelines; power system is used to provide water vapor transmission power, and air pipeline lifting power; air pipelines are used to transport clouds from one end of the precipitation cloud to the target area. Each system cooperates with each other to precisely control the precipitation cloud, and then realize the air transportation of the water system.

Description

A kind of local climate regulation method and its regulation system

technical field

The invention relates to the technical field of climate adjustment systems, in particular to a local climate adjustment method and an adjustment system thereof.

Background technique

At present, in various regions, due to the uncertainty of climate, the precipitation of different regions and different regions has great differences, resulting in water shortage in some regions and frequent occurrence of drought and flood disasters in the basin. Therefore, it plays an important role in climate regulation of water resources in the process of regional and agricultural production. However, there is currently no method and system for adjusting regional precipitation through a certain method in the prior art, and a new method and system need to be developed urgently to adjust the imbalance of regional precipitation.

SUMMARY OF THE INVENTION

The invention aims to solve the technical problems that the prior art cannot adjust regional precipitation, resulting in uneven regional precipitation and uneven droughts and floods, and provides a local climate adjustment method and an adjustment system.

In order to solve the above-mentioned technical problems, the technical scheme of the present invention is as follows:

The present invention provides a local climate adjustment method, comprising the following steps:

According to the location distribution of the precipitation cloud clusters, the precipitation cloud clusters can be precisely adjusted manually, and then the air transportation of the water system can be realized.

In the above technical solution, a specific embodiment of the local climate adjustment method is:

Step 1. After the central processing system processes the collected positions of the precipitation cloud clusters and the water vapor transmission power and pressure monitored by the monitoring system, the power required by the power system is determined;

Step 2. Lift the aerial pipeline to the air with the power provided by the power system, so that one end of the aerial pipeline is close to the precipitation cloud;

Step 3. Provide transportation power through the power system arranged in the air pipeline, so that the cloud is transmitted in the air pipeline;

Step 4: Adjust the length and direction of the aerial pipeline according to the state of the aerial pipeline monitored by the monitoring system, so that the other end of the aerial pipeline exit is in the target area, thereby realizing air transportation of the water system.

The present invention also provides a local climate adjustment system, comprising: a central processing system, a monitoring system, a power system, and an air pipeline;

The central processing system is responsible for the intelligent processing of the entire adjustment system, including information collection and processing;

The monitoring system is used for water vapor transmission power and pressure monitoring, energy monitoring of power systems, and condition monitoring of air pipelines;

The power system is used to provide water vapor transmission power and aerial pipeline lifting power;

The aerial conduit is used to transport clouds from one end of the precipitation cloud to the target area.

In the above technical solution, the power system includes a plurality of hot air balloons and fans, and the power provided by the hot air balloons can lift the air pipe; the power provided by the fans can make the cloud transport to the target area in the air pipe.

In the above technical solution, a plurality of hot air balloons are arranged outside the air duct, and a plurality of fans corresponding to the positions of the hot air balloons are arranged in the air duct.

In the above technical solution, the aerial pipeline is a detachable and assembled pipeline, and its length can be adjusted according to the distance between the precipitation cloud and the target area.

In the above technical solution, the material of the air pipeline is a light-weight and high-strength material.

In the above technical solution, the local climate adjustment system is classified into a mobile type or a semi-fixed type.

The beneficial effects of the present invention are:

The local climate adjustment method provided by the present invention is aimed at the climate of the target area, according to the position distribution of the precipitation cloud clusters, the precise regulation of the precipitation cloud clusters is performed manually, and the artificial climate intervention is realized, thereby solving the climate problem of uneven precipitation.

The local climate adjustment system provided by the invention can precisely control the precipitation cloud clusters through the cooperation of the central processing system, the monitoring system, the power system and the aerial pipeline, thereby realizing the air transportation of the water system.

Description of drawings

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of the mobile local climate adjustment system of the present invention.

FIG. 2 is a schematic structural diagram of the semi-fixed local climate adjustment system of the present invention.

FIG. 3 is a schematic diagram of the structure of the central processing system of the present invention.

FIG. 4 is a schematic diagram of the structure of the monitoring system of the present invention.

The reference numbers in the figures are indicated as:

1-central processing system, 2-monitoring system, 3-power system, 4-air pipeline;

31 - hot air balloon, 32 - fan;

41 - the first air pipe, 42 - the second air pipe.

Detailed ways

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The mobile local climate adjustment system of the present invention will be described in detail with reference to FIG. 1, including: a central processing system 1, a monitoring system 2, a power system 3, and an air pipeline 4; the power system 3 is composed of three hot air balloons 31 and three A fan 32 is formed, a hot air balloon 31 is respectively set at the left end, the left end of the middle and the right end outside the air duct 4, and a fan 32 is respectively set in the air duct 4 corresponding to the setting position of the hot air balloon 31; disassembled and assembled lightweight pipes, the length of which can be adjusted;

The central processing system 1 is responsible for the intelligent processing of the entire regulation system, including information collection and processing; the monitoring system 2 is used for water vapor transmission power and pressure monitoring, energy monitoring of the power system 3, and state monitoring of the air pipeline 4; The power provided by the hot air balloon 31 can lift the air pipeline 4; the power provided by the fan 32 can make the cloud transported in the air pipeline 4 to the target area, thereby realizing the air transportation of the water system.

The mobile local climate adjustment method of the present invention includes:

Step 1. When there is too much precipitation in a certain area and flood disaster occurs, the central processing system 1 processes the collected location of the precipitation cloud cluster and the water vapor transmission power and pressure monitored by the monitoring system 2, and determines the power system 4. the power required to be provided;

Step 2, lift the air pipe 4 to the air by the power provided by the hot air balloon 31 arranged outside the air pipe 4, so that one end of the air pipe 4 is close to the precipitation cloud;

Step 3, providing the conveying power through the fan 32 arranged in the air duct 4, so that the cloud is transmitted in the air duct 4;

Step 4: Adjust the length and direction of the aerial pipeline 4 according to the state of the aerial pipeline 4 monitored by the monitoring system 2 so that the other end outlet of the aerial pipeline 4 is in the target area, thereby realizing air transportation of the water system.

Example 2

The semi-fixed local climate adjustment system of the present invention is described in detail with reference to FIG. 2 , including a central processing system 1, a monitoring system 2, a power system 3, and an air pipeline 4; the air pipeline 4 is two detachable and assembled lightweight pipelines , its length can be adjusted; the power system 3 is composed of 5 hot air balloons 31 and 5 fans 32; a hot air balloon 31 is set at the left end, the middle left and the right end outside the first air duct 41, respectively. A fan 32 is respectively arranged in the air duct 41 corresponding to the setting position of the hot air balloon 31 ; Correspondingly, a fan 32 is respectively provided;

The central processing system 1 is responsible for the intelligent processing of the entire regulation system, including information collection and processing; the monitoring system 2 is used for water vapor transmission power and pressure monitoring, energy monitoring of the power system 3, and state monitoring of the air pipeline 4; The power provided by the hot air balloon 31 can lift the air pipeline 4; the power provided by the fan 32 can make the cloud transported in the air pipeline 4 to the target area, thereby realizing the air transportation of the water system.

For rainy areas, rainy weather often affects people's travel. With the help of the current urban high-rise buildings, a column is built on the top of the high-rise building, and a fixed pipeline is erected on the column. In the rainy season, the semi-fixed local climate adjustment method of the present invention is used to transport the inlet end of the air pipeline 4 to the precipitation through the hot air balloon 31. Near the cloud cluster, the outlet end of the air pipeline 4 is transported to the fixed pipeline port and connected to the fixed pipeline, and the precipitation cloud cluster is transported to the reservoir through the semi-fixed local climate adjustment system.

Specifically include the following steps:

Step 1. After the central processing system 1 processes the collected positions of the precipitation clouds and the water vapor transmission power and pressure monitored by the monitoring system 2, the power required by the power system 3 is determined;

Step 2, lift the two pipes into the air by the power provided by the hot air balloon 31 provided outside the first air pipe 41 and the second air pipe 42, so that one end of each pipe is close to the precipitation cloud;

Step 3. Provide conveying power through the fans 32 arranged in the first air duct 41 and the second air duct 42, so that the clouds are transported in the first air duct 41 and the second air duct 42 respectively;

Step 4. According to the state of the air pipeline 4 monitored by the monitoring system 2, adjust the length and direction of the first and second air pipelines 41 and 42 so that the other ends of the first air pipeline 41 and the second air pipeline 42 exit. In the target area, the water system can be transported by air to the reservoir.

The central processing system 1 and the monitoring system 2 in the above-mentioned embodiments only need to be existing systems capable of realizing their respective functions, and the present invention has no special requirements for these two systems.

As shown in FIG. 3, the central processing system 1 includes:

Signal transceiver unit: It is a wireless signal receiving and transmitting device, responsible for collecting and sending signals. Send the collected signal to the signal processing unit, and then receive the feedback signal from the signal processing unit, and send it to the signal execution unit.

Signal processing unit: It is an electronic module such as a CPU processor, which is responsible for comprehensive signal processing.

Signal execution unit: It is a signal conversion device, which converts the signal into a controllable driving force and controls each power system.

Referring to Figure 4, the monitoring system 2 includes:

Signal detection unit: including pressure, temperature, speed and other sensors to detect the real-time status of each system.

Signal transceiver unit: it is a wireless signal receiving and transmitting device, which collects the signals of each sensor and sends signals to the central processing system 1 .

Obviously, the above-mentioned embodiments are only examples for clear description, and are not intended to limit the implementation manner. For those of ordinary skill in the art, changes or modifications in other different forms can also be made on the basis of the above description. There is no need and cannot be exhaustive of all implementations here. And the obvious changes or changes derived from this are still within the protection scope of the present invention.

Claims (8)

1. A method of local climate conditioning, comprising the steps of:

according to the position distribution of the precipitation cloud cluster, the precipitation cloud cluster is manually and accurately regulated and controlled, and further the water system air transportation is realized.

2. The method of local climate control according to claim 1, wherein one embodiment is:

step 1, after the central processing system processes the collected position of the precipitation cloud cluster and the water vapor transmission power and pressure monitored by the monitoring system, determining the power required by the power system;

step 2, lifting the aerial pipeline to the air by power provided by the power system, and enabling one end of the aerial pipeline to be close to the precipitation cloud cluster;

step 3, providing conveying power through a power system arranged in the aerial pipeline, and enabling the cloud to be transmitted in the aerial pipeline;

and 4, adjusting the length and the direction of the aerial pipeline according to the state of the aerial pipeline monitored by the monitoring system to enable an outlet at the other end of the aerial pipeline to be positioned in a target area, and further realizing water system aerial transportation.

3. A local climate conditioning system, comprising: the system comprises a central processing system, a monitoring system, a power system and an aerial pipeline;

the central processing system is responsible for the intelligent processing of the whole adjusting system, including information collection and processing;

the monitoring system is used for monitoring water vapor transmission power and pressure, monitoring energy of a power system and monitoring the state of an aerial pipeline;

the power system is used for providing water vapor transmission power and air pipeline lifting power;

the aerial pipes are used to transport the cloud from one end of the precipitation cloud to the target area.

4. The local climate control system according to claim 3, wherein the powered system comprises a plurality of hot air balloons and fans, the power provided by the hot air balloons being capable of lifting the aerial pipes; the power provided by the fan may cause the cloud to be transported in an aerial duct to a target area.

5. The local climate control system according to claim 4 wherein a plurality of hot air balloons are disposed outside the air duct and a plurality of fans are disposed within the air duct corresponding to the location of the hot air balloons.

6. The local climate control system of claim 3, wherein the aerial pipes are detachably assembled pipes, and the length of the aerial pipes is adjustable according to the distance between the precipitation cloud and the target area.

7. The local climate conditioning system according to claim 3, wherein the aerial conduit material is a lightweight high strength material.

8. The local climate control system according to any of claims 3-7, wherein the local climate control system is of the mobile or semi-fixed type.

Images