CN110679446A

CN110679446A - Water diversion irrigation system for hilly area

Info

Publication number: CN110679446A
Application number: CN201911133582.XA
Authority: CN
Inventors: 胡玉松; 周弋丁
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-01-14

Abstract

The invention belongs to the technical field of irrigation, and discloses a water diversion irrigation system for hilly areas, which comprises a control system, a reaction system for treating water, a field irrigation system for conveying water to irrigate fields and a mountain land irrigation system for irrigating the fields on hillsides, wherein the field irrigation system and the mountain land irrigation system are connected with the reaction system, and the reaction system, the field irrigation system and the mountain land irrigation system are connected with the control system. According to the irrigation system, the water pipe is connected to the mountain top with high forest coverage rate, the water pipe is pressurized by the pressurization station and conveyed to the mountain top, the water storage tank is built on the mountain top, and the water storage tank is connected with the steel pipe network to provide a water source for fire extinguishment. And meanwhile, an irrigation pipeline is arranged for field irrigation and mountain irrigation.

Description

Water diversion irrigation system for hilly area

Technical Field

The invention belongs to the technical field of irrigation, and particularly relates to a water diversion irrigation system for hilly areas.

Background

With the implementation of a new land method, the utilization rate of land is continuously improved, and intensive and dense planting of field soil is a trend. The development of artificial intelligence in the future is a major breakthrough in hydraulic engineering construction, the method for water drainage irrigation of a ditch cannot completely meet the requirement of actual production, and the irrigation mode causes a large amount of water resource loss and is not the most scientific irrigation. After returning to the forest, the forest coverage rate on the hillside is continuously improved, and the fire is easy to happen in hot and dry weather, so that the fire situation is severe.

Disclosure of Invention

In order to solve the above problems in the prior art, the present invention aims to provide a diversion irrigation system for hilly areas.

The technical scheme adopted by the invention is as follows:

a diversion irrigation system for hilly areas, includes control system, is used for handling the reaction system of water, is used for carrying water with the field irrigation system who irrigates the field and is used for carrying out the mountain area irrigation system who irrigates to the land that is located the hillside, the field irrigation system with mountain area irrigation system all with reaction system is connected, reaction system field irrigation system with mountain area irrigation system all with control system is connected.

Furthermore, the reaction system comprises a water inlet pipe, a water inlet tank connected with the water inlet pipe, a reaction device connected with the water inlet tank, a sedimentation tank connected with the reaction device, a filtering tank connected with the sedimentation tank and a clean water tank connected with the filtering tank; the water inlet tank and the reaction device, the reaction device and the sedimentation tank, the sedimentation tank and the filter tank, and the clean water tank are all provided with water conveying pipes, one side of the clean water tank far away from the filter tank is also provided with the water conveying pipe, and the water conveying pipe is provided with a gate valve.

Furthermore, a pharmacy is also included; the reaction device comprises a first reaction tank, a second reaction tank and a third reaction tank which are sequentially arranged, wherein the first reaction tank is communicated with the second reaction tank, the second reaction tank is communicated with the third reaction tank, the first reaction tank is connected with the water inlet tank, and the third reaction tank is connected with the sedimentation tank; the first reaction tank is connected with the dosing room.

Furthermore, the device also comprises a disinfection room and a floating frame, wherein the floating frame is arranged on one side of the water inlet pool, which is far away from the reaction device, and the water inlet pipe is arranged on the floating frame; the disinfection room is connected with the clean water tank.

Furthermore, the field irrigation system comprises a first main pipeline and a first main branch pipeline arranged on the first main pipeline, one side of the first main pipeline is connected with the reaction system, and a pressurizing device is arranged on one side of the first main pipeline close to the reaction system; the first main branch pipeline is connected with the first main pipeline through a tee joint, the first main branch pipeline comprises a first branch pipeline and a second branch pipeline, and the first branch pipeline and the second branch pipeline are both connected with the first main branch pipeline through the tee joint; the first main branch pipeline is close to one side of the first main pipeline is provided with a gate valve, and the first branch pipeline and the second branch pipeline are provided with electromagnetic valves.

Furthermore, the mountain land irrigation system comprises a second main pipeline and a second main branch pipeline arranged on the second main pipeline, and one side of the second main pipeline is connected with the reaction system; the second main branch pipeline is connected with the second main pipeline through a tee joint, the second main branch pipeline comprises a third branch pipeline and a fourth branch pipeline, and the third branch pipeline and the fourth branch pipeline are both connected with the second main branch pipeline through the tee joint; a gate valve is arranged on one side, close to the main pipeline, of the second main branch pipeline, and a pressurizing device is arranged on one side, far away from the gate valve, of the second main branch pipeline; the third branch pipeline and the fourth branch pipeline are arranged at one end, far away from the main pipeline, of the second main branch pipeline. The third branch pipeline and the fourth branch pipeline are also provided with the electromagnetic valves.

Furthermore, the first branch pipeline and the second branch pipeline are respectively arranged at two sides of the first main branch pipeline; one end of the first main branch pipeline, which is far away from the first main pipeline, is provided with a plugging block.

Furthermore, the third branch pipeline and the fourth branch pipeline are respectively arranged at two sides of the second main branch pipeline; and a blocking block is arranged at one end, far away from the second main pipeline, of the second main pipeline.

Furthermore, the system also comprises a forest fire prevention pipeline system, and the forest fire prevention pipeline system is connected with the reaction system.

Adding polyaluminium chloride into a pharmacy, adding the polyaluminium chloride and water into a dissolving container manually, conveying the polyaluminium chloride liquid medicine to a reaction device by a pipeline, arranging a gate valve and an electromagnetic valve on the pipeline, controlling the flow by the gate valve, and remotely controlling the electromagnetic valve by a control system through a telecommunication network. The polyaluminium chloride enables the water body to generate flocculation reaction, and flocculated sediment such as organic matters in the water body is filtered.

The filtering tank has one disinfectant adding room in the water inlet of the clean water tank, disinfectant is the reaction liquid of sodium chlorate and dilute hydrochloric acid, sodium chlorate, dilute hydrochloric acid and water are added into the disinfectant container manually, disinfectant is conveyed to the water inlet of the filtering tank and the clean water tank via pipeline with gate valve and solenoid valve, and the flow rate is controlled by the gate valve and the solenoid valve is controlled remotely via the telecommunication network. The chlorine dioxide generated after the reaction has the effects of disinfection and sterilization by adding sodium chlorate and dilute hydrochloric acid, and can prevent plankton and fungus in the water from growing and blocking pipelines.

The forest fire prevention system comprises a pipeline system and an alarm, wherein the pipeline system is laid in the forest. The intelligent fire alarm is characterized in that an artificial intelligence chip is arranged in the alarm, after the alarm is given, fire information is transmitted to a database of the control system through the artificial intelligence chip, the database of the control system carries out big data analysis and cloud calculation according to the transmitted information, the fire position and the fire area are judged, then the fire position is commanded to spray water and extinguish the fire through the control system, and the water spray is stopped until the fire is completely extinguished. The branch pipeline is provided with a spray head, the front ends of every 10 to 50 thin branch pipes are controlled by one electromagnetic valve, and the control system is connected with the electromagnetic valve through a telecommunication network.

The invention has the beneficial effects that:

according to the irrigation system, the water pipe is connected to the mountain top with high forest coverage rate, the water pipe is pressurized by the pressurization station and conveyed to the mountain top, the water storage tank is built on the mountain top, and the water storage tank is connected with the steel pipe network to provide a water source for fire extinguishment. The reservoir water is put into a reaction tank of a water treatment workshop through a buried pipeline, the reaction tank is built in a backwater slope open land of the reservoir, the water passing through the reaction tank flows to a filtering tank, and the water discharged from the filtering tank enters a reservoir.

The reservoir was connected using a PE pipe of 500mm diameter. And then burying the pipeline along the channel. Pressurizing every 3 km by repairing a pressurizing station. The pipeline is buried in all irrigation areas along the channel.

The joint is changed to every place needing water, and the water pipe is gradually changed into a medium-sized pipe by 200 mm. And paving 200mm branch pipelines to each village, connecting 100mm and 50mm pipes to the branch pipelines, and finally connecting 20mm pipes to the branch pipelines. The pipe of 20mm extends to each field and soil that need water, and the solenoid valve is installed to the position near field, soil, and the paddy field water injection after the solenoid valve opens, can satisfy field, soil water demand. 100% coverage was achieved. And water guarantee is provided for intensive and intensive production.

All solenoid valves are remotely controlled through a telecommunications network. In the future, crops with green oil grow in green mountains and green water, paddy fields and soil in rural areas, and intelligent agriculture brings good scene to rural areas. The automatic remote control irrigation in rural areas and the matched facilities for water fire prevention on hillsides provide guarantee for agricultural production and forest safety. The water in the reservoir can cover every inch of land in the whole rural area. A computer control center is arranged at the place of a management room of the water treatment workshop to remotely control the pipeline network. Water meters are arranged in places where water is used by the masses, and large-scale planting and breeding households can automatically arrange electromagnetic valves behind the water meters for remote control.

Drawings

FIG. 1 is a schematic view of the structure of a reaction system of the present invention.

Fig. 2 is a schematic view showing the structure of the field irrigation system of the present invention.

Fig. 3 is a schematic structural diagram of the mountain irrigation system of the present invention.

Fig. 4 is a data flow diagram of the present invention.

In the figure: 1-water inlet pipe; 2-floating frame; 3-water conveying pipe; 4, a water inlet pool; 5-a gate valve; 6-a reaction device; 7-adding pharmacy; 8-a sedimentation tank; 9-a filtering tank; 10-a clean water tank; 11-a water outlet pipe; 12-a blocking block; 13-a tee joint; 14-a pressurizing device; 15-a first main conduit; 16-a first main branch conduit; 17-a second main conduit; 18-a second main branch conduit; 19-a disinfection room; 51-a solenoid valve; 61-a first reaction tank; 62-a second reaction tank; 63-a third reaction tank; 161-a first branch conduit; 162-a second branch conduit; 181-a third branch conduit; 182-fourth branch conduit.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

Example 1:

as shown in fig. 1 to 3, the diversion irrigation system for hilly areas of the present embodiment comprises a control system, a reaction system for treating water, a field irrigation system for delivering water to irrigate a field, and a mountain irrigation system for irrigating a land located on a hillside, wherein the field irrigation system and the mountain irrigation system are connected with the reaction system, and the reaction system, the field irrigation system and the mountain irrigation system are connected with the control system.

Example 2:

this embodiment is defined by optimizing on the basis of the above embodiment 1, and as shown in fig. 1 to 3, the diversion irrigation system for hilly areas of this embodiment comprises a control system, a reaction system for treating water, a field irrigation system for delivering water to irrigate a field, and a mountain land irrigation system for irrigating a land located on a mountain slope, wherein the field irrigation system and the mountain land irrigation system are connected with the reaction system, and the reaction system, the field irrigation system and the mountain land irrigation system are connected with the control system. The reaction system comprises a water inlet pipe 1, a water inlet tank 4 connected with the water inlet pipe 1, a reaction device 6 connected with the water inlet tank 4, a sedimentation tank 8 connected with the reaction device 6, a filtering tank 9 connected with the sedimentation tank 8 and a clean water tank 10 connected with the filtering tank 9; the water inlet tank 4 and the reaction device 6, the reaction device 6 and the sedimentation tank 8, the sedimentation tank 8 and the filtration tank 9, and the filtration tank 9 and the clean water tank 10 are all provided with water conveying pipes 3, one side of the clean water tank 10 far away from the filtration tank 9 is also provided with the water conveying pipe 3, and the water conveying pipe 3 is provided with a gate valve 5.

Also comprises a pharmacy 7; the reaction device 6 comprises a first reaction tank 61, a second reaction tank 62 and a third reaction tank 63 which are sequentially arranged, wherein the first reaction tank 61 is communicated with the second reaction tank 62, the second reaction tank 62 is communicated with the third reaction tank 63, the first reaction tank 61 is connected with the water inlet tank 4, and the third reaction tank 63 is connected with the sedimentation tank 8; the first reaction tank 61 is connected to the pharmacy 7. The disinfection device further comprises a disinfection room 19 and a floating frame 2, wherein the floating frame 2 is arranged on one side of the water inlet pool 4 far away from the reaction device 6, and the water inlet pipe 1 is arranged on the floating frame 2; the disinfection room 9 is connected with the clean water basin 10.

Example 3:

this embodiment is defined by optimizing on the basis of the above embodiment 1, and as shown in fig. 1 to 3, the diversion irrigation system for hilly areas of this embodiment comprises a control system, a reaction system for treating water, a field irrigation system for delivering water to irrigate a field, and a mountain land irrigation system for irrigating a land located on a mountain slope, wherein the field irrigation system and the mountain land irrigation system are connected with the reaction system, and the reaction system, the field irrigation system and the mountain land irrigation system are connected with the control system.

The field irrigation system comprises a first main pipeline 15 and a first main branch pipeline 16 arranged on the first main pipeline 15, one side of the first main pipeline 15 is connected with the reaction system, and a pressurizing device 14 is arranged on one side of the first main pipeline 15 close to the reaction system; the first main branch pipeline 16 is connected with the first main pipeline 15 through a tee 13, the first main branch pipeline 16 comprises a first branch pipeline 161 and a second branch pipeline 162, and both the first branch pipeline 161 and the second branch pipeline 162 are connected with the first main branch pipeline 16 through the tee 13; the first main branch pipeline 16 is provided with a gate valve 5 on one side close to the first main pipeline 15, and the first branch pipeline 161 and the second branch pipeline 162 are also provided with an electromagnetic valve 51.

The first branch duct 161 and the second branch duct 162 are respectively disposed at both sides of the first main branch duct 16; one end of the first main branch pipeline 16, which is far away from the first main pipeline 15, is provided with a blocking block 12.

Example 4:

The mountain land irrigation system comprises a second main pipeline 17 and a second main branch pipeline 18 arranged on the second main pipeline 17, wherein one side of the second main pipeline 17 is connected with the reaction system; the second main branch pipeline 18 is connected with the second main pipeline 17 through a tee 13, the second main branch pipeline 18 comprises a third branch pipeline 181 and a fourth branch pipeline 182, and the third branch pipeline 181 and the fourth branch pipeline 182 are both connected with the second main branch pipeline 18 through the tee 13; a gate valve 5 is arranged on one side, close to the main pipeline, of the second main branch pipeline 18, and a pressurizing device 14 is arranged on one side, far away from the gate valve 5, of the second main branch pipeline 18; the third branch passage 181 and the fourth branch passage 182 are disposed at an end of the second main branch passage 18 remote from the main passage. The third branch passage 181 and the fourth branch passage 182 are respectively disposed at both sides of the second main branch passage 18; one end of the second main branch pipeline 18 far away from the second main pipeline 17 is provided with a blocking block 12.

Example 5:

this embodiment is defined by optimizing on the basis of the above embodiment 1, and as shown in fig. 1 to 4, the diversion irrigation system for hilly areas of this embodiment comprises a control system, a reaction system for treating water, a field irrigation system for delivering water to irrigate a field, and a mountain land irrigation system for irrigating a land located on a mountain slope, wherein the field irrigation system and the mountain land irrigation system are connected with the reaction system, and the reaction system, the field irrigation system and the mountain land irrigation system are connected with the control system. The system further comprises a forest fire prevention pipeline system, and the forest fire prevention pipeline system is connected with the reaction system.

Each user enters the water diversion irrigation system through a mobile phone (or a computer), logs in an access module, enters a database, finds a solenoid valve code Tijk (or Sijk) for irrigating a field (or irrigating a mountain land) (for example, the solenoid valve code Tijk for irrigating the field, wherein T represents the field, three letters of i, j and k represent numbers, for example, T286 represents one solenoid valve code for irrigating the field, the water diversion irrigation system is arranged in advance through a data acquisition module), sets time length, starts an irrigation button, at the moment, the system displays charge information, so that a water farmer needs to bind a bank card in advance to charge first and then use water, starts the irrigation button under the condition of pre-stored water charge, the irrigation information is quickly transmitted to a control system, the control system starts the solenoid valve of the field irrigation system (or the mountain land irrigation system) to irrigate until the irrigation with the set time length is finished, and then stopping spraying water, needing to suspend irrigation, starting a suspension button by a water farmer, quickly transmitting suspension irrigation information to a control system, and commanding the irrigation system to suspend irrigation. The database displays irrigation data information, for example, irrigation is started in 26 minutes and 12 seconds at 10, 31, 17 and 2019, the time duration is 30 minutes, the irrigation quantity is 2.8 cubic meters, and the available water charge of the user is 370 yuan at present. The database displays the continuous irrigation or the pause of the irrigation at the same time in the whole process. If the irrigation is continued, the water diversion irrigation system starts to operate again by clicking the irrigation, until the irrigation of the water-using farmer is finished. All irrigation information and pause irrigation information are displayed in the database.

An artificial intelligence chip is arranged in the alarm, and as long as a forest has smoke or open fire and is transmitted to the control system through the alarm, the control system can remotely command the electromagnetic valve to start to spray water and extinguish the fire, and the water spray is stopped until the open fire is extinguished; if the forest open fire is reignited again, the alarm transmits information to the control system again, the remote electromagnetic valve is commanded to be started again, and water is sprayed again to extinguish fire until the open fire is not reignited any more.

The electromagnetic valve is designed on the branch pipeline, because the branch pipeline is used for watering and fire extinguishing. The forest fire prevention pipeline system comprises a plurality of electromagnetic valves, and each electromagnetic valve code Sijk is responsible for watering or extinguishing fire at one position. The management range of each solenoid valve code Sijk is about 50 meters long and 40 meters wide, and the area is about 2000 square meters. One solenoid valve code Sijk is responsible for 10-50 water spray heads. A thin branch pipe is arranged every three meters and then connected with a water spraying head.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims

1. A diversion irrigation system for hilly areas which characterized in that: including control system, the reaction system that is used for handling water, be used for carrying water with the field irrigation system who irrigates the field and be used for carrying out the mountain region irrigation system that irrigates to the land that is located the hillside, the field irrigation system with mountain region irrigation system all with reaction system is connected, reaction system field irrigation system with mountain region irrigation system all with control system is connected.

2. The diversion irrigation system for hilly areas of claim 1, wherein: the reaction system comprises a water inlet pipe, a water inlet tank connected with the water inlet pipe, a reaction device connected with the water inlet tank, a sedimentation tank connected with the reaction device, a filtering tank connected with the sedimentation tank and a clean water tank connected with the filtering tank; the water inlet tank and the reaction device, the reaction device and the sedimentation tank, the sedimentation tank and the filter tank, and the clean water tank are all provided with water conveying pipes, one side of the clean water tank far away from the filter tank is also provided with the water conveying pipe, and the water conveying pipe is provided with a gate valve.

3. The diversion irrigation system for hilly areas of claim 2, wherein: also comprises a pharmacy; the reaction device comprises a first reaction tank, a second reaction tank and a third reaction tank which are sequentially arranged, wherein the first reaction tank is communicated with the second reaction tank, the second reaction tank is communicated with the third reaction tank, the first reaction tank is connected with the water inlet tank, and the third reaction tank is connected with the sedimentation tank; the first reaction tank is connected with the dosing room.

4. The diversion irrigation system for hilly areas of claim 3, wherein: the device also comprises a disinfection room and a floating frame, wherein the floating frame is arranged on one side of the water inlet pool, which is far away from the reaction device, and the water inlet pipe is arranged on the floating frame; the disinfection room is connected with the clean water tank.

5. The diversion irrigation system for hilly areas of claim 1, wherein: the field irrigation system comprises a first main pipeline and a first main branch pipeline arranged on the first main pipeline, one side of the first main pipeline is connected with the reaction system, and a pressurizing device is arranged on one side of the first main pipeline close to the reaction system; the first main branch pipeline is connected with the first main pipeline through a tee joint, the first main branch pipeline comprises a first branch pipeline and a second branch pipeline, and the first branch pipeline and the second branch pipeline are both connected with the first main branch pipeline through the tee joint; the first main branch pipeline is close to one side of the first main pipeline is provided with a gate valve, and the first branch pipeline and the second branch pipeline are provided with electromagnetic valves.

6. The diversion irrigation system for hilly areas of claim 1, wherein: the mountain land irrigation system comprises a second main pipeline and a second main branch pipeline arranged on the second main pipeline, and one side of the second main pipeline is connected with the reaction system; the second main branch pipeline is connected with the second main pipeline through a tee joint, the second main branch pipeline comprises a third branch pipeline and a fourth branch pipeline, and the third branch pipeline and the fourth branch pipeline are both connected with the second main branch pipeline through the tee joint; a gate valve is arranged on one side, close to the main pipeline, of the second main branch pipeline, and a pressurizing device is arranged on one side, far away from the gate valve, of the second main branch pipeline; the third branch pipeline and the fourth branch pipeline are arranged at one end, far away from the main pipeline, of the second main branch pipeline.

7. The diversion irrigation system for hilly areas of claim 5, wherein: the first branch pipeline and the second branch pipeline are respectively arranged at two sides of the first main branch pipeline; one end of the first main branch pipeline, which is far away from the first main pipeline, is provided with a plugging block.

8. The diversion irrigation system for hilly areas of claim 6, wherein: the third branch pipeline and the fourth branch pipeline are respectively arranged on two sides of the second main branch pipeline; and a blocking block is arranged at one end, far away from the second main pipeline, of the second main pipeline.

9. The diversion irrigation system for hilly areas of claim 1, wherein: the system further comprises a forest fire prevention pipeline system, and the forest fire prevention pipeline system is connected with the reaction system.