CN111657101A

CN111657101A - Agricultural irrigation device based on network science and technology

Info

Publication number: CN111657101A
Application number: CN202010371555.2A
Authority: CN
Inventors: 游永春; 游英明; 李期海
Original assignee: Jiangxi Tianxian Network Technology Co ltd
Current assignee: Jiangxi Tianxian Network Technology Co ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2020-09-15

Abstract

The invention discloses an agricultural irrigation device based on a network technology, which comprises a bottom plate and a water pumping pipe, wherein two sides of the top surface of the bottom plate are fixedly connected with supporting plates, and the tops of the supporting plates are fixedly connected with a top plate. According to the agricultural irrigation device, the frequency conversion water pump, the control box, the electromagnetic control valve, the water outlet flow monitor, the water inlet flow monitor, the control switch, the PLC, the dry land soil humidity sensor, the display screen, the microprocessor, the wireless signal transmitter, the client, the agricultural station monitoring center and the paddy field liquid level sensor are matched for use, all the components can be communicated by using a network and a data signal, so that the agricultural irrigation device is more water-saving in use, and the problem that when the agricultural irrigation device is used, due to the fact that a traditional mode is adopted for irrigation, more water resources for irrigation easily occur, land contract personnel cannot timely stop the agricultural irrigation device from operating, and therefore the agricultural irrigation device cannot save water resources is solved.

Description

Agricultural irrigation device based on network science and technology

Technical Field

The invention relates to the technical field of agricultural irrigation, in particular to an agricultural irrigation device based on a network technology.

Background

Along with the development of modern society agricultural technology, can be at the other installation agricultural irrigation device in farmland in order to improve the output of crops, current agricultural irrigation device adopts traditional mode to irrigate when using, can not utilize network and data signal to carry out the communication between each part, the water resource of irrigating appears very easily more, the soil contract the personnel and can not in time with agricultural irrigation device shut down, thereby lead to the problem of the water economy resource of agricultural irrigation device appearance, be unfavorable for the development of modern agriculture.

Disclosure of Invention

The invention aims to provide an agricultural irrigation device based on a network science and technology, which has the advantage of enabling all parts to communicate by using a network and data signals, and solves the problem that when the agricultural irrigation device is used, because a traditional mode is adopted for irrigation, more water resources for irrigation easily occur, and land contractors cannot timely stop the agricultural irrigation device, so that the agricultural irrigation device cannot save water resources.

In order to achieve the purpose, the invention provides the following technical scheme: an agricultural irrigation device based on network technology comprises a bottom plate and a water pumping pipe, wherein supporting plates are fixedly connected to two sides of the top surface of the bottom plate, a top plate is fixedly connected to the top of each supporting plate, a variable frequency water pump is fixedly connected to the center of the top surface of the bottom plate, a main water outlet pipe is fixedly connected to the top of the water outlet end of the variable frequency water pump, a water outlet flow monitor is fixedly connected to the center of the bottom of the front surface of the main water outlet pipe, a water distribution pipe is fixedly communicated with the top of the main water outlet pipe, a water distribution pipe is fixedly communicated with the back surface of the water distribution pipe, an electromagnetic control valve is installed at the top of the water distribution pipe, one side of the water distribution pipe, away from the water distribution pipe, extends into a farmland, a water inlet pipe is fixedly connected to the left side of the water inlet end, the water suction device comprises a telescopic hose, a water inlet pipe, a water suction pipe, a support plate, a water suction frame and a water suction pipe, wherein the right side of the telescopic hose and the left side of the water inlet pipe are both fixedly connected with first flange plates, the inner sides of the first flange plates are fixedly connected with second flange plates, the inner sides of the second flange plates are fixedly connected with a water delivery pipe, the center of the front surface of the water delivery pipe is provided with a water inlet flow monitor, the left side of the water suction pipe penetrates through the support plate and extends into a water body to be;

a control box is fixedly connected to the right side of the top surface of the bottom plate and the left side of the right supporting plate, the inner cavity of the control box is provided with a PLC controller, the input end of the PLC controller is electrically connected with a control switch, the PLC controller is respectively in bidirectional electric connection with the water outlet flow monitor, the water inlet flow monitor, the electromagnetic control valve and the variable frequency water pump, the PLC is electrically connected with a paddy field liquid level sensor and a dry land soil humidity sensor in two directions, the output ends of the PLC controller are respectively and electrically connected with a display screen and a microprocessor, the output ends of the water outlet flow monitor, the water inlet flow monitor, the electromagnetic control valve, the variable frequency water pump, the paddy field liquid level sensor and the dry land soil humidity sensor are all electrically connected with the display screen, the output end of the microprocessor is electrically connected with a wireless signal transmitter, and the output end of the wireless signal transmitter is respectively in signal connection with a client and an agricultural station monitoring center.

Preferably, the both sides that distribute the water pipe all with backup pad fixed connection, the surface cover of drinking-water pipe is equipped with the loading board, the bottom and the bottom plate fixed connection of loading board.

Preferably, the surfaces of the outer rings of the first flange plate and the second flange plate transversely penetrate through and are provided with mounting screw holes, and positioning bolts penetrate through and are arranged between two adjacent mounting screw holes.

Preferably, the top and the bottom of the first flange are fixedly connected with connecting plates, one side corresponding to the two connecting plates transversely penetrates through and is provided with a traction screw, and the connecting plates are provided with traction screw holes matched with the traction screws in a penetrating mode.

Preferably, the outer lane fixedly connected with installation piece in inlet tube inner chamber, the left side of installation piece is provided with the filter frame, the inner chamber of filter frame is inlayed and is had the filter screen, the left surface of installation piece and the left surface of filter frame have all seted up the location screw.

Preferably, the paddy field liquid level sensor is installed in a paddy field, and the dry farmland soil humidity sensor is installed in a dry crop field.

Preferably, the control switch, the display screen, the microprocessor and the wireless signal transmitter are all installed in the control box, the client can be a smart phone or a network television and the like, and the monitoring center of the agricultural technology station is a large liquid crystal display screen.

Preferably, an agricultural irrigation device based on network technology comprises the following steps:

A) installing each equipment device in place, utilizing a cable to correspondingly connect electric equipment, utilizing a control switch to open a PLC controller, controlling a water outlet flow monitor, a water inlet flow monitor, an electromagnetic control valve and a variable-frequency water pump to be in a standby state by the PLC controller, controlling a paddy field liquid level sensor, a dry land soil humidity sensor and a display screen to be in a working state, respectively monitoring the conditions in a paddy field and a dry land crop field, setting an upper monitoring numerical value and a lower monitoring numerical value of the paddy field liquid level sensor and the dry land soil humidity sensor before monitoring, displaying the running states of the paddy field liquid level sensor, the dry land soil humidity sensor, the water outlet flow monitor, the water inlet flow monitor, the electromagnetic control valve and the variable-frequency water pump on the display screen, and simultaneously displaying the running states of the paddy field liquid level sensor, the dry land soil humidity sensor, the water outlet flow monitor, All data of the inflow monitor, the electromagnetic control valve and the variable-frequency water pump are sent to a microprocessor through a PLC (programmable logic controller), and the data are sent to a client of a land contractor and a monitoring center of an agricultural technical station through a wireless signal transmitter after being processed by the microprocessor;

B) when a paddy field liquid level sensor or a dry land soil humidity sensor monitors that the condition of water in a corresponding paddy field or dry land is lower than a set value, a PLC controller controls a water outlet flow monitor, a water inlet flow monitor and a variable frequency water pump to be started and an electromagnetic control valve of a corresponding field pipeline to be started, water in the water is pumped out under the action of the variable frequency water pump and is finally injected into the corresponding field through a water distribution pipe, and when the paddy field liquid level sensor or the dry land soil humidity sensor monitors that the condition of water in the corresponding paddy field or dry land reaches a set upper monitoring value, the PLC controller controls the water outlet flow monitor, the water inlet flow monitor, the variable frequency water pump and the electromagnetic control valve on the corresponding field distribution pipe to be closed;

C) when the difference of the data detected by the water outlet flow monitor and the water inlet flow monitor is large, more sundries on the filter screen in the water inlet pipe are reflected, land contract personnel know the information through the client, the land contract personnel reach the site and control the whole equipment to stop running by using the control switch, the spanner is used for taking down the traction screw and the positioning bolt, the filter screen in the water inlet pipe is cleaned, and finally the traction screw and the positioning bolt are reset.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the agricultural irrigation device, the frequency conversion water pump, the control box, the electromagnetic control valve, the water outlet flow monitor, the water inlet flow monitor, the control switch, the PLC, the dry land soil humidity sensor, the display screen, the microprocessor, the wireless signal transmitter, the client side, the agricultural station monitoring center and the paddy field liquid level sensor are matched for use, all the parts can be communicated by using a network and a data signal, so that the agricultural irrigation device is more water-saving in use, the problem that when the agricultural irrigation device is used, due to the fact that a traditional mode is adopted for irrigation, irrigation water resources are more likely to occur, land contract personnel cannot timely stop the agricultural irrigation device from running, and therefore the agricultural irrigation device cannot save water resources is solved, and the agricultural irrigation device is worthy of popularization.

2. According to the invention, the bearing plate is arranged, the water pumping pipe can be supported, the water pumping pipe is prevented from being broken and damaged due to long suspension, the first flange plate and the second flange plate are conveniently and fixedly connected through the matching of the mounting screw hole and the positioning bolt, the telescopic hose is conveniently stretched or compressed through the matching of the connecting plate, the traction screw hole and the traction screw rod, water entering the variable frequency water pump can be filtered through the matching of the mounting block, the filter frame and the filter screen, and the filter frame is conveniently positioned on the mounting block through the positioning screw hole by utilizing the screw rod.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is a side view of the structure of the water inlet pipe of the present invention;

fig. 4 is a schematic diagram of the system of the present invention.

In the figure: the device comprises a base plate 1, a support plate 2, a water pumping pipe 3, a bearing plate 4, a variable frequency water pump 5, a water dividing pipe 6, a control box 7, a main water outlet pipe 8, a top plate 9, an electromagnetic control valve 10, a water outlet flow monitor 11, a water distribution pipe 12, a water sucking frame 13, a water sucking hole 14, a connecting plate 15, a telescopic hose 16, a first flange 17, a traction screw 18, a water delivery pipe 19, a second flange 20, a positioning bolt 21, a water inlet pipe 22, a water inlet flow monitor 23, a filter frame 24, a mounting block 25, a filter screen 26, a control switch 27, a PLC (programmable logic controller) controller 28, a dry farmland soil humidity sensor 29, a display screen 30, a microprocessor 31, a wireless signal transmitter 32, a client 33, a 34 agriculture technology station monitoring center.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Referring to fig. 1-4, an agricultural irrigation device based on network technology comprises a bottom plate 1 and a water pumping pipe 3, wherein both sides of the top surface of the bottom plate 1 are fixedly connected with supporting plates 2, the top of the supporting plate 2 is fixedly connected with a top plate 9, the center of the top surface of the bottom plate 1 is fixedly connected with a variable frequency water pump 5, the top of the water outlet end of the variable frequency water pump 5 is fixedly connected with a main water outlet pipe 8, the center of the bottom of the front surface of the main water outlet pipe 8 is fixedly connected with a water outlet flow monitor 11, the top of the main water outlet pipe 8 is fixedly communicated with a water distribution pipe 12, the back surface of the water distribution pipe 12 is fixedly communicated with a water distribution pipe 6, the top of the water distribution pipe 6 is provided with an electromagnetic control valve 10, one side of the water distribution pipe 6, which is far away from the water distribution pipe 12, the right side of the water pumping pipe 3 is fixedly connected with a flexible hose 16, the right side of the flexible hose 16 and the left side of a water inlet pipe 22 are both fixedly connected with a first flange 17, the inner side of the first flange 17 is fixedly connected with a second flange 20, the inner side of the second flange 20 is fixedly connected with a water delivery pipe 19, a water inflow monitor 23 is installed in the center of the front surface of the water delivery pipe 19, the left side of the water pumping pipe 3 penetrates through the support plate 2 and extends into a water body to be fixedly connected with a water absorbing frame 13, and the surface of the outer ring of the water absorbing frame 13 is provided with a;

a control box 7 is fixedly connected to the right side of the top surface of the bottom plate 1 and the left side of the right supporting plate 2, a PLC 28 is installed in the inner cavity of the control box 7, the input end of the PLC 28 is electrically connected with a control switch 27, the PLC 28 is respectively and bidirectionally electrically connected with the water outlet flow monitor 11, the water inlet flow monitor 23, the electromagnetic control valve 10 and the variable frequency water pump 5, the PLC 28 is bidirectionally and electrically connected with a paddy field liquid level sensor 35 and a dry land soil humidity sensor 29, the output end of the PLC 28 is respectively and electrically connected with a display screen 30 and a microprocessor 31, the output ends of the water outlet flow monitor 11, the water inlet flow monitor 23, the electromagnetic control valve 10, the variable frequency water pump 5, the paddy field liquid level sensor 35 and the dry land soil humidity sensor 29 are electrically connected with the display screen 30, the output end of the microprocessor 31 is electrically connected with a wireless signal emitter 32, the output end of the, by arranging the variable-frequency water pump 5, the control box 7, the electromagnetic control valve 10, the water outlet flow monitor 11, the water inlet flow monitor 23, the control switch 27, the PLC 28, the dry land soil humidity sensor 29, the display screen 30, the microprocessor 31, the wireless signal transmitter 32, the client 33, the agriculture station monitoring center 34 and the paddy field liquid level sensor 35, communication between each component can be realized by utilizing a network and a data signal, so that the agricultural irrigation device is more water-saving when used, the problem that the agricultural irrigation device cannot be saved due to the fact that a plurality of water resources are easily irrigated and cannot be stopped by land contractors in time because the agricultural irrigation device is irrigated in a traditional mode is solved, and the agricultural irrigation device is worthy of popularization;

both sides of the water distribution pipes 12 are fixedly connected with the supporting plate 2, the surface of the water pumping pipe 3 is sleeved with the bearing plate 4, the bottom of the bearing plate 4 is fixedly connected with the bottom plate 1, and the water pumping pipe 3 can be supported by the bearing plate 4, so that the water pumping pipe 3 is prevented from being broken and damaged due to long suspension;

the surfaces of the outer rings of the first flange plate 17 and the second flange plate 20 are transversely provided with mounting screw holes in a penetrating manner, positioning bolts 21 are arranged between two adjacent mounting screw holes in a penetrating manner, and the first flange plate 17 and the second flange plate 20 are conveniently and fixedly connected through the matching of the mounting screw holes and the positioning bolts 21;

the top and the bottom of the first flange plate 17 are fixedly connected with connecting plates 15, one side corresponding to the two connecting plates 15 is transversely provided with a traction screw 18 in a penetrating manner, the connecting plates 15 are provided with traction screw holes matched with the traction screws 18 in a penetrating manner, and the telescopic hose 16 is conveniently stretched or compressed through the matching of the connecting plates 15, the traction screw holes and the traction screws 18;

the outer ring of the inner cavity of the water inlet pipe 22 is fixedly connected with an installation block 25, the left side of the installation block 25 is provided with a filter frame 24, the inner cavity of the filter frame 24 is inlaid with a filter screen 26, the left surface of the installation block 25 and the left surface of the filter frame 24 are both provided with positioning screw holes, water entering the variable frequency water pump 5 can be filtered through the matching of the installation block 25, the filter frame 24 and the filter screen 26, and the filter frame 24 can be conveniently positioned on the installation block 25 through the positioning screw holes;

the paddy field liquid level sensor 35 is arranged in the paddy field, and the dry land soil humidity sensor 29 is arranged in the dry crop field;

the control switch 27, the display screen 30, the microprocessor 31 and the wireless signal transmitter 32 are all installed in the control box 7, the client 33 can be a smart phone or a network television and the like, and the monitoring center 34 of the agricultural station is a large liquid crystal display screen;

an agricultural irrigation device based on network technology comprises the following steps:

A) installing all equipment devices in place, utilizing cables to correspondingly connect electric equipment, utilizing a control switch 27 to open a PLC (programmable logic controller) 28, controlling a water outlet flow monitor 11, a water inlet flow monitor 23, an electromagnetic control valve 10 and a variable frequency water pump 5 to be in a standby state by the PLC 28, controlling a paddy field liquid level sensor 35, a dry land soil humidity sensor 29 and a display screen 30 to be in a working state, respectively monitoring the conditions in a paddy field and a dry land, setting an upper monitoring numerical value bit and a lower monitoring numerical value bit of the paddy field liquid level sensor 35 and the dry land soil humidity sensor 29 before monitoring, displaying the running states of the paddy field liquid level sensor 35, the dry land soil humidity sensor 29, the water outlet flow monitor 11, the water inlet flow monitor 23, the electromagnetic control valve 10 and the variable frequency water pump 5 on the display screen 30, and simultaneously displaying the running states of the paddy field liquid level sensor 35, the dry, Various data of the dry land soil humidity sensor 29, the water outlet flow monitor 11, the water inlet flow monitor 23, the electromagnetic control valve 10 and the variable frequency water pump 5 are all sent to a microprocessor 31 through a PLC (programmable logic controller) 28, and the data are sent to a client 33 of a land contractor and a monitoring center 34 of an agricultural technical station through a wireless signal transmitter 32 after being processed by the microprocessor 31;

B) when a paddy field liquid level sensor 35 or a dry land soil humidity sensor 29 monitors that the condition of water in a corresponding paddy field or dry crop field is lower than a set value, a PLC 28 controls a water outlet flow monitor 11, a water inlet flow monitor 23 and a variable frequency water pump 5 to be started and an electromagnetic control valve 10 of a corresponding field pipeline to be started, water in the water is pumped out under the action of the variable frequency water pump 5 and is finally injected into the corresponding field through a water distribution pipe 6, and when the paddy field liquid level sensor 35 or the dry land soil humidity sensor 29 monitors that the condition of water in the corresponding paddy field or dry crop field reaches a set upper monitoring value, the PLC 28 controls the water outlet flow monitor 11, the water inlet flow monitor 23, the variable frequency water pump 5 and the electromagnetic control valve 10 on the corresponding water distribution pipe 6 to be closed;

C) when the difference between the detected data of the water outlet flow monitor 11 and the detected data of the water inlet flow monitor 23 are large, the situation that more sundries are on the filter screen 26 in the water inlet pipe 22 is reflected, land contractors learn information through the client 33, the land contractors control the whole equipment to stop running by using the control switch 27 when reaching the site, the pulling screw 18 and the positioning bolt 21 are taken down by using a wrench, the filter screen 26 in the water inlet pipe 22 is cleaned, and finally the pulling screw 18 and the positioning bolt 21 are reset.

All kinds of parts used in the application document are standard parts and can be purchased from the market, the specific connection mode of all parts adopts conventional means such as mature bolts, rivets, welding and the like in the prior art, the conventional models in the prior art are adopted for machinery, parts and electrical equipment, the conventional connection mode in the prior art is adopted for circuit connection, and detailed description is not given here.

In summary, the following steps: this agricultural irrigation device based on network science and technology, through setting up variable frequency water pump 5, control box 7, solenoid electric valve 10, go out water flow monitor 11, inflow flow monitor 23, control switch 27, PLC controller 28, dry land soil humidity transducer 29, display screen 30, microprocessor 31, wireless signal transmitter 32, client 33, the cooperation of agricultural technical station monitoring center 34 and paddy field level sensor 35 is used, pesticide irrigation device when using has been solved, because of adopting traditional mode to irrigate, the water resource that appears irrigating very easily is more, the soil contract personnel can not in time with agricultural irrigation device shut down, thereby lead to the problem of the water resource not to appear in agricultural irrigation device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an agricultural irrigation device based on network science and technology, includes bottom plate (1) and drinking-water pipe (3), its characterized in that: the device is characterized in that supporting plates (2) are fixedly connected to two sides of the top surface of the bottom plate (1), a top plate (9) is fixedly connected to the top of the supporting plate (2), a variable frequency water pump (5) is fixedly connected to the center of the top surface of the bottom plate (1), a main water outlet pipe (8) is fixedly connected to the top of the water outlet end of the variable frequency water pump (5), a water outlet flow monitor (11) is fixedly connected to the center of the front surface bottom of the main water outlet pipe (8), a water distribution pipe (12) is fixedly communicated to the top of the main water outlet pipe (8), a water distribution pipe (6) is fixedly communicated to the back surface of the water distribution pipe (12), an electromagnetic control valve (10) is installed at the top of the water distribution pipe (6), one side, far away from the water distribution pipe (12), of the water distribution pipe (6) extends into a farmland, the water pumping pipe (3) is located on the left side of the variable-frequency water pump (5), a telescopic hose (16) is fixedly connected to the right side of the water pumping pipe (3), a first flange plate (17) is fixedly connected to the right side of the telescopic hose (16) and the left side of the water inlet pipe (22), a second flange plate (20) is fixedly connected to the inner side of the first flange plate (17), a water conveying pipe (19) is fixedly connected to the inner side of the second flange plate (20), a water inlet flow monitor (23) is installed at the center of the front surface of the water conveying pipe (19), the left side of the water pumping pipe (3) penetrates through the support plate (2) and extends into the water body to be fixedly connected with a water absorbing frame (13), and a water absorbing hole (14) is formed in the surface of the;

bottom plate (1) top surface's right side and left side fixedly connected with control box (7) that are located right side backup pad (2), PLC controller (28) are installed to the inner chamber of control box (7), the input electricity of PLC controller (28) is connected with control switch (27), PLC controller (28) respectively with play water flow monitor (11), intake flow monitor (23), solenoid electric valve (10) and frequency conversion water pump (5) both-way electricity is connected, PLC controller (28) both-way electricity is connected with paddy field level sensor (35) and upland field soil humidity transducer (29), the output of PLC controller (28) is connected with display screen (30) and microprocessor (31) respectively electricity, go out water flow monitor (11), intake flow monitor (23), solenoid electric valve (10), frequency conversion water pump (5), The output ends of the paddy field liquid level sensor (35) and the dry farmland soil humidity sensor (29) are electrically connected with the display screen (30), the output end of the microprocessor (31) is electrically connected with the wireless signal transmitter (32), and the output end of the wireless signal transmitter (32) is respectively in signal connection with the client side (33) and the agriculture and technology station monitoring center (34).

2. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: both sides of distribution water pipe (12) all with backup pad (2) fixed connection, the surface cover of drinking-water pipe (3) is equipped with loading board (4), the bottom and bottom plate (1) fixed connection of loading board (4).

3. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: the surface of the outer ring of the first flange plate (17) and the surface of the outer ring of the second flange plate (20) are transversely provided with mounting screw holes in a penetrating mode, and positioning bolts (21) penetrate between every two adjacent mounting screw holes.

4. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: the top and the bottom of the first flange plate (17) are fixedly connected with connecting plates (15), one side corresponding to the two connecting plates (15) transversely penetrates through and is provided with a traction screw (18), and the connecting plates (15) are provided with traction screw holes matched with the traction screw (18) in a penetrating mode.

5. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: outer lane fixedly connected with installation piece (25) of inlet tube (22) inner chamber, the left side of installation piece (25) is provided with filter frame (24), the inner chamber of filter frame (24) is inlayed and is had filter screen (26), the location screw has all been seted up on the left surface of installation piece (25) and the left surface of filter frame (24).

6. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: the paddy field liquid level sensor (35) is installed in the paddy field, and the dry farmland soil humidity sensor (29) is installed in the dry crop field.

7. An agricultural irrigation apparatus based on network technology according to claim 1, wherein: the control switch (27), the display screen (30), the microprocessor (31) and the wireless signal transmitter (32) are all installed in the control box (7), the client (33) can be a smart phone or a network television and the like, and the monitoring center (34) of the agricultural station is a large liquid crystal display screen.

8. Use of an agricultural irrigation apparatus based on network technology according to any of claims 1-7, characterized in that it comprises the following steps:

A) installing each equipment device in place, utilizing a cable to correspondingly connect electric equipment, utilizing a control switch (27) to start a PLC (28), controlling a water outlet flow monitor (11), a water inlet flow monitor (23), an electromagnetic control valve (10) and a variable frequency water pump (5) to be in a standby state by the PLC (28), controlling a paddy field liquid level sensor (35), a dry land soil humidity sensor (29) and a display screen (30) to be in a working state, respectively monitoring the conditions in a paddy field and a dry land crop field, setting an upper monitoring value bit and a lower monitoring value bit of the paddy field liquid level sensor (35) and the dry land soil humidity sensor (29) before monitoring, displaying the running states of the paddy field liquid level sensor (35), the dry land soil humidity sensor (29), the water outlet flow monitor (11), the water inlet flow monitor (23), the electromagnetic control valve (10) and the variable frequency water pump (5) on the display screen (30), meanwhile, various data of the paddy field liquid level sensor (35), the dry land soil humidity sensor (29), the water outlet flow monitor (11), the water inlet flow monitor (23), the electromagnetic control valve (10) and the variable-frequency water pump (5) are all sent to the microprocessor (31) through the PLC (28), and the data are sent to a client (33) of a land contractor and an agriculture and technology station monitoring center (34) through the wireless signal transmitter (32) after being processed by the microprocessor (31);

B) when the paddy field liquid level sensor (35) or the dry land soil humidity sensor (29) monitors that the water condition in the corresponding paddy field or dry crop field is lower than a set value, the PLC (28) controls the opening of the water outlet flow monitor (11), the water inlet flow monitor (23) and the variable frequency water pump (5) and the opening of the electromagnetic control valve (10) corresponding to the field pipeline, the water in the water body is pumped out under the action of a variable frequency water pump (5) and is finally injected into the corresponding field through a water distribution pipe (6), when the paddy field liquid level sensor (35) or the dry land soil humidity sensor (29) monitors that the condition of water in the corresponding paddy field or dry crop field reaches a set monitoring value, the PLC (28) controls the closing of the water outlet flow monitor (11), the water inlet flow monitor (23), the variable frequency water pump (5) and the electromagnetic control valve (10) on the corresponding field shunt pipe (6);

C) when the difference of the data detected by the water outlet flow monitor (11) and the water inlet flow monitor (23) is large, the situation that sundries are more on a filter screen (26) in the water inlet pipe (22) is reflected, land contract personnel know information through a client (33), the land contract personnel achieve the situation that the whole equipment is controlled to stop running by using a control switch (27), a spanner is used for taking down a traction screw rod (18) and a positioning bolt (21), the filter screen (26) in the water inlet pipe (22) is cleaned, and finally the traction screw rod (18) and the positioning bolt (21) are reset.