CN114747462A

CN114747462A - Intelligent irrigation equipment of leaf dish

Info

Publication number: CN114747462A
Application number: CN202210551483.9A
Authority: CN
Inventors: 陈素娟; 陈国元; 马运涛
Original assignee: Suzhou Polytechnic Institute of Agriculture
Current assignee: Suzhou Polytechnic Institute of Agriculture
Priority date: 2022-05-18
Filing date: 2022-05-18
Publication date: 2022-07-15

Abstract

The invention relates to intelligent leaf vegetable irrigation equipment which comprises a control display terminal, a booster pump, a reservoir, a buried pond and a plurality of irrigation mechanisms, wherein the reservoir is connected with an output pipe, the output pipe is assembled with a first electromagnetic valve, the booster pump is connected with the output pipe, the irrigation mechanisms are all communicated with the output pipe, each irrigation mechanism comprises a fixed pipe and an elevator pipe, the elevator pipes slide on the fixed pipes, through grooves are formed in the elevator pipes, each elevator pipe is provided with a sealing ring, each fixed pipe is provided with a sliding groove, each elevator pipe is assembled with a balancing weight, each elevator pipe is provided with a high-pressure water outlet assembly, each high-pressure water outlet assembly is assembled with a screen frame, each frame is assembled with a filter screen plate, each filter screen plate is assembled with a rubber ring, each input pipe is provided with a second electromagnetic valve, each fixed pipe is provided with an inner ring groove, the equipment can recover water in the elevator pipes, soil is prevented from being excessively wet, and rainwater and water on the surface of the soil can be recovered through the inner ring grooves, the utilization rate of water resources is improved, and the waste of water resources is reduced.

Description

Intelligent irrigation equipment of leaf dish

Technical Field

The invention belongs to the technical field of agricultural irrigation, and particularly relates to intelligent leaf vegetable irrigation equipment.

Background

In the existing agricultural production, the automatic irrigation gradually replaces the manpower irrigation, the original manpower irrigation cannot meet the modern production mode due to low efficiency and resource waste, the pipeline type sprinkler irrigation system is the most common sprinkler irrigation system at present, the pipeline type irrigation is generally divided into a fixed pipeline structure and a telescopic pipeline structure, the fixed pipeline structure is not beneficial to seeding and harvesting by large-scale instruments, the telescopic pipeline structure is mostly used, but the existing telescopic pipeline structure has poor water-saving effect and cannot collect redundant water above the soil, the water above the soil can be discharged along a soil drainage channel which is concavely arranged at the side edge of a planting area, when the water above the soil flows in the soil drainage channel, the water flow can be fully contacted with the soil due to the long path of the soil drainage channel, so that the soil in the planting area is more moist, after irrigating, the pipeline is retracted and is made unnecessary water infiltration soil in the pipeline, is unfavorable for people's management and control irrigation water yield, leads to the pipeline easily that soil is excessive moist around, influences the crop growth, can not play water conservation irrigation's effect, provides an intelligent irrigation equipment of leaf dish and solves above-mentioned problem for this reason.

Disclosure of Invention

The purpose of the invention is: aims to provide leaf vegetable intelligent irrigation equipment for solving the problems in the background technology.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

an intelligent irrigation device for leafy vegetables comprises a control display terminal, a booster pump, a reservoir, a buried pond and a plurality of irrigation mechanisms arranged in a soil drainage channel, wherein an output pipe is fixedly connected to the lower side of the reservoir, the output pipe is provided with a first electromagnetic valve, the booster pump is connected with the output pipe, and the irrigation mechanisms are all communicated with the output pipe;

the irrigation mechanism comprises a fixed pipe and a lifting pipe, wherein the lower side of the fixed pipe is communicated with the output pipe, the lifting pipe slides in the inner side of the fixed pipe in a sealing manner, two through grooves matched with the output pipe are formed in the side edge of the lifting pipe, a sealing ring is arranged on the lower side of the lifting pipe, a sliding groove matched with the sealing ring is formed in the inner side of the fixed pipe, a balancing weight is assembled in the inner side of the lifting pipe, a high-pressure water outlet assembly is arranged on the upper side of the lifting pipe, a net leaking support is fixedly assembled at the upper end of the high-pressure water outlet assembly, a filter screen plate is detachably and fixedly assembled at the upper end of the net leaking support, a rubber ring matched with the inner side of the fixed pipe is fixedly assembled on the ring side of the filter screen plate, the side edge of the output pipe is connected with an input pipe, a plurality of the fixed pipes are communicated with the input pipe through the output pipe, and the input pipe is communicated with the upper side of the reservoir, the input pipe is provided with a second electromagnetic valve;

the fixed pipe body is provided with an inner ring groove, the upper side inside the fixed pipe is communicated with the inner ring groove, the lower side of the fixed pipe is fixedly connected with a collecting pipe, the collecting pipe is communicated with the inner ring groove, and the collecting pipe is communicated with the upper side of the buried pond.

The high-pressure water outlet component comprises a supporting plate, a supporting block, a rotating cover and a plurality of rotating pieces, the supporting plate is fixedly assembled at the upper side inside the lifting pipe, the supporting block is fixedly arranged at the upper end of the supporting plate, the supporting plate and the lower end of the supporting block are jointly provided with a water tank, a plurality of arc-shaped grooves which are uniformly distributed are arranged on the side edge of the supporting block, the arc-shaped grooves are communicated with the water tank, a rotating groove is arranged at the side of the supporting block ring, the rotating cover is rotatably arranged at the upper side inside the lifting pipe, the lower end of the rotating cover is fixedly provided with a rotating ring matched with the rotating groove, the upper end of the rotating cover is annularly and uniformly provided with a plurality of obliquely arranged high-pressure spray heads, the rotating pieces are annularly and uniformly and fixedly assembled at the upper end of the rotating ring, the rotating pieces are matched with the arc-shaped grooves, and the support is fixedly arranged at the upper end of the rotating cover.

The balancing weight is including the assembly pipe, separate net, articulated shaft and two semicircle counter weight plates, the elevator pipe inboard seted up with the assembly pipe slides the lift groove that matches, the assembly pipe slide assembly in the inslot portion that goes up and down, separate net fixed assembly in the assembly pipe upper end, the articulated shaft is fixed to be located assembly pipe inboard middle part, two semicircle counter weight plates rotate respectively the assembly in the articulated shaft both sides, the inside upside of assembly pipe has been seted up with two semicircle counter weight plate assorted rotary tank.

The inner ring groove with fixed intraductal inboard intercommunication department fixed assembly has the ring screen, the fall way outside be equipped with ring screen assorted thickening pipe wall, thickening pipe wall with fixed intraduct upside sliding seal connects.

The fixed pipe outside is fixed and is equipped with a plurality of staple.

Irrigate mechanism still includes a plurality of soil moisture sensor, and is a plurality of soil moisture sensor assembles respectively in a plurality of the solid fixed pipe side, it is a plurality of soil moisture sensor all with control display terminal connects.

When the device is not used for irrigation, the device can collect redundant water on the surface of soil, and can collect rainwater when raining, and then the rainwater can be stored in a buried pool, so that the utilization rate of water resources can be improved, and water can be saved; when the equipment is required to be used for irrigating leafy vegetable crops, the first electromagnetic valve is electrified through the operation control display terminal, and the second electromagnetic valve is powered off, so that water flow can be pressurized through the booster pump, water is conveyed to a plurality of fixed pipes, then the lifting pipe is jacked up by means of water pressure, and the crops are irrigated through the high-pressure water outlet assembly; after the irrigation is accomplished, cut off the power supply to first solenoid valve through operation control display terminal, to the circular telegram of second solenoid valve, just so can close sending water of output tube, open inside the input tube advances the cistern through the supplementary backward flow of balancing weight to the inside unnecessary water of fall way, realize the using water wisely, prevent that unnecessary moisture from flowing into soil, lead to soil excessively moist, influence crop growth.

Drawings

The invention is further illustrated by the non-limiting examples given in the figures.

FIG. 1 is a schematic structural diagram of a leaf vegetable intelligent irrigation device according to a first embodiment of the invention;

FIG. 2 is a schematic partial structure diagram of a leaf vegetable intelligent irrigation device according to a first embodiment of the present invention;

FIG. 3 is an assembly schematic diagram of a leaf vegetable intelligent irrigation device according to a first embodiment of the invention;

FIG. 4 is a schematic partial structural view of a first leaf vegetable intelligent irrigation device according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view at A in FIG. 4;

FIG. 6 is a schematic view of a partial cross-sectional structure of a first embodiment of an intelligent irrigation device for leafy vegetables according to the present invention;

FIG. 7 is an enlarged schematic view at B of FIG. 6;

FIG. 8 is an enlarged schematic view at C of FIG. 6;

FIG. 9 is a schematic diagram of a partial cross-sectional structure of a leaf vegetable intelligent irrigation device according to a second embodiment of the present invention;

FIG. 10 is an enlarged schematic view at D of FIG. 9;

FIG. 11 is an enlarged schematic view at E of FIG. 9;

fig. 12 is a schematic view of a second partial cross-sectional structure of a second intelligent irrigation device for leafy vegetables in accordance with an embodiment of the present invention;

FIG. 13 is an enlarged schematic view at F of FIG. 12;

the main component symbols are as follows:

the control display terminal 1, the booster pump 11, the reservoir 12, the underground tank 121, the output pipe 13, the first electromagnetic valve 131, the fixed pipe 14, the sliding groove 141, the inner ring groove 142, the lifting pipe 15, the through groove 151, the sealing ring 152, the counterweight block 153, the assembling pipe 1531, the separating net 1532, the hinge shaft 1533, the semicircular counterweight plate 1534, the lifting groove 1535, the rotary groove 1536, the screen support 16, the filter screen plate 161, the rubber ring 162, the input pipe 17, the second electromagnetic valve 171, the collecting pipe 18, the support plate 21, the support block 22, the water tank 221, the arc-shaped groove 222, the rotary groove 223, the rotary cover 23, the rotary ring 231, the high-pressure spray head 232, the rotary sheet 24, the annular filter screen 25, the thickened pipe wall 251, and the fixing nails 26.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

The first embodiment is as follows:

as shown in fig. 1-8, the intelligent irrigation equipment for leafy vegetables comprises a control display terminal 1, a booster pump 11, a reservoir 12, a buried pond 121 and a plurality of irrigation mechanisms arranged in a soil drainage channel, wherein an output pipe 13 is fixedly connected to the lower side of the reservoir 12, the output pipe 13 is provided with a first electromagnetic valve 131, the booster pump 11 is connected with the output pipe 13, the irrigation mechanisms are all communicated with the output pipe 13, each irrigation mechanism comprises a fixed pipe 14 and an elevator pipe 15, the lower side of the fixed pipe 14 is communicated with the output pipe 13, the elevator pipe 15 slides in a sealing manner to the inner side of the fixed pipe 14, the side of the elevator pipe 15 is provided with two through grooves 151 matched with the output pipe 13, the lower side of the elevator pipe 15 is provided with a sealing ring 152, the inner side of the fixed pipe 14 is provided with a sliding groove 141 matched with the sealing ring 152, the inner side of the elevator pipe 15 is provided with a counterweight 153, and the upper side of the elevator pipe 15 is provided with a high-pressure water outlet assembly, high pressure goes out fixed being equipped with in water subassembly upper end and leaks net support 16, leak net support 16 upper end can be dismantled fixed being equipped with filter screen plate 161, filter screen plate 161 ring side fixed be equipped with fixed 14 inboard assorted rubber ring 162, output tube 13 side is connected with input tube 17, a plurality of fixed 14 all communicate with input tube 17 through output tube 13, input tube 17 is linked together with cistern 12 upside, input tube 17 is equipped with second solenoid valve 171, inner ring groove 142 has been seted up to fixed 14 of tubes body, the inside upside of fixed 14 of tubes is linked together with inner ring groove 142, fixed 14 of tubes downside fixedly connected with collecting pipe 18, collecting pipe 18 is linked together with inner ring groove 142, collecting pipe 18 buries pond 121 upside intercommunication with ground.

The control display terminal 1 can control the on-off of the first electromagnetic valve 131 and the second electromagnetic valve 171 by controlling the on-off of the electric power, the valve is opened when the first electromagnetic valve 131 and the second electromagnetic valve 171 are electrified, and the valve is closed when the first electromagnetic valve 131 and the second electromagnetic valve 171 are powered off; the booster pump 11 is a conventional device for increasing water pressure, and will not be described herein; the sealing ring 152 can increase the sealing performance between the fixed pipe 14 and the elevator pipe 15, and the sealing ring 152 can abut against the upper end of the sliding groove 141 after sliding to prevent the elevator pipe 15 from sliding out of the fixed pipe 14;

the lifting pipe 15 is positioned inside the fixed pipe 14 in an initial state, the filter screen plate 161 arranged above the lifting pipe 15 is lower than the ground surface, when people irrigate leaf vegetable crops by using the device, people firstly open the valve of the first electromagnetic valve 131 through the operation control display terminal 1, close the valve of the second electromagnetic valve 171, pressurize water flow inside the output pipe 13 by the booster pump 11, because the valve of the second electromagnetic valve 171 is closed, the input pipe 17 is in a closed state, water output by the output pipe 13 can fill the lifting pipe 15, then the lifting pipe 15 is jacked up by water pressure, and irrigation is sprayed by the high-pressure water outlet assembly, after irrigation is completed, people close the valve of the first electromagnetic valve 131 through the operation control display terminal 1, open the valve of the second electromagnetic valve 171, at the moment, because the output pipe 13 is closed, the booster pump 11 stops operating and the input pipe 17 is communicated, therefore, the water pressure of the jacking lifting pipe 15 is reduced rapidly, the water pressure is not enough to spray water from the high-pressure water outlet assembly, the irrigation water overflowing from the high-pressure water outlet assembly is greatly reduced, the lifting pipe 15 slides downwards by the weight of the balancing weight 153, the water is pressed back to the interior of the reservoir 12 from the input pipe 17 by the weight of the balancing weight 153 and the lifting pipe 15, the lifting pipe 15 only needs to overcome the weight of the water in the upward conveying part of the input pipe 17 when descending, the balancing weight 153 can enable the lifting pipe 15 to slide downwards rapidly to reset, after the lifting pipe 15 is assembled into the fixed pipe 14 in a sliding way, the pipe orifice at the upper side of the fixed pipe 14 is sealed by the rubber ring 162, the filter screen plate 161 can recover redundant water on the surface of soil, rainwater can be collected when raining, soil can be filtered, and the soil is prevented from entering the device, because the horizontal height of the buried pond 121 is lower than that of the fixed pipes 14, therefore, the collected water flows into the inner ring groove 142 along the filter screen plate 161, then flows into the buried pond 121 through the collecting pipe 18 to be collected, and the water in the buried pond 121 is input into the reservoir 12 again through equipment such as a water pump after being settled;

secondly, locate the mechanism of will irrigating and can improve the use value of this equipment in the soil drainage canal, set up fixed pipe 14 inside the soil drainage canal, make the flow direction of soil drainage canal gather in the pipe orifice of a plurality of fixed pipe 14 upside, when irrigating the end and raining, can be with the guide of unnecessary water through the soil drainage canal, the filter screen plate 161 that passes the lift pipe 15 top flows into to bury inside the pond 121 and store, reduce the time that water flows in the soil drainage canal, prevent that soil is excessive moist, improve the utilization ratio of water resource.

Preferably, in this embodiment, the annular filter screen 25 is fixedly assembled at the communication position of the inner annular groove 142 and the inner side of the fixed pipe 14, the thickened pipe wall 251 matched with the annular filter screen 25 is arranged at the outer side of the elevator pipe 15, the thickened pipe wall 251 is connected with the upper side inside the fixed pipe 14 in a sliding and sealing manner, and the plurality of fixing nails 26 are fixedly assembled at the outer side of the fixed pipe 14;

the thickened pipe wall 251 is connected with the upper side inside the fixed pipe 14 in a sliding and sealing mode, impurities can be prevented from entering the lifting pipe 15 after the lifting pipe 15 rises, the annular filter screen 25 can perform secondary filtration on collected water, the pipeline blockage can be prevented, the upper end of the thickened pipe wall 251 arranged on the outer side of the lifting pipe 15 can push the filtered impurities out of the inner side of the fixed pipe 14, and the lower side of the thickened pipe wall 251 cannot be separated from the inner side of the fixed pipe 14 after the lifting pipe 15 rises; the mounting of the mounting tube 14 can be reinforced by means of a plurality of fixing pegs 26, so that the mounting of the mounting tube 14 is more stable.

Example two:

as shown in fig. 9-13, for further optimization of the first embodiment, the high-pressure water outlet assembly includes a supporting plate 21, a supporting block 22, a rotating cover 23 and a plurality of rotating pieces 24, the supporting plate 21 is fixedly mounted on the upper side inside the elevator tube 15, the supporting block 22 is fixedly disposed on the upper end of the supporting plate 21, the supporting plate 21 and the lower end of the supporting block 22 are commonly provided with a water tank 221, the side edge of the supporting block 22 is provided with a plurality of arc-shaped grooves 222 which are uniformly distributed, the plurality of arc-shaped grooves 222 are all communicated with the water tank 221, the supporting block 22 is provided with a rotating groove 223 on the ring side, the rotating cover 23 is rotatably disposed on the upper side inside the elevator tube 15, the lower end of the rotating cover 23 is fixedly provided with a rotating ring 231 which is matched with the rotating groove 223, the upper end of the rotating cover 23 is uniformly provided with a plurality of obliquely arranged high-pressure nozzles 232, the plurality of rotating pieces 24 are uniformly and annularly and fixedly mounted on the rotating ring 231, the plurality of rotating pieces 24 are matched with the plurality of arc-shaped grooves 222, the upper end of the rotating cover 23 is fixed and arranged on the strainer support 16, the counterweight block 153 comprises an assembly pipe 1531, a separation net 1532, a hinge shaft 1533 and two semicircular weight plates 1534, a lifting groove 1535 matched with the assembly pipe 1531 in a sliding manner is formed in the inner side of the lifting pipe 15, the assembly pipe 1531 is assembled in the lifting groove 1535 in a sliding manner, the separation net 1532 is fixedly assembled at the upper end of the assembly pipe 1531, the hinge shaft 1533 is fixedly arranged in the middle of the inner side of the assembly pipe 1531, the two semicircular weight plates 1534 are respectively assembled on two sides of the hinge shaft 1533 in a rotating manner, and a rotating groove 1536 matched with the two semicircular weight plates 1534 is formed in the upper side of the inner portion of the assembly pipe 1531.

The water flow pressurized by the booster pump 11 is conveyed upwards through the lifting pipe 15 and enters the rotating cover 23 through the arc-shaped grooves 222, and then is sprayed out through the high-pressure spray nozzles 232 uniformly arranged in a ring shape, the water flow guided by the arc-shaped grooves 222 can impact the rotating pieces 24, so that the rotating pieces 24 drive the rotating cover 23 to rotate, the sprinkling irrigation of the high-pressure spray nozzles 232 and the rotation of the rotating cover 23 can enable the irrigation to be more uniform, and the rotating cover 23 can drive the screen leaking support 16 fixedly arranged at the upper end and the filter screen plate 161 to start rotating, and when the filter screen plate 161 rotates, silt accumulated on the upper side of the filter screen plate 161 can be thrown out, so that the surface of the filter screen plate 161 is cleaned, the filtering efficiency of the filter screen plate 161 is increased, and manual cleaning is not needed; the clump weight 153 can slide up and down in the lifting pipe 15, when water is used for irrigation, water pressure can push the clump weight 153 upwards to enable the separation net 1532 at the upper end of the assembly pipe 1531 to be abutted against the upper end of the lifting groove 1535, then the water pressure flushes the two semicircular weight plates 1534 to enable the high-pressure water outlet assembly to be communicated with water, the two semicircular weight plates 1534 can be prevented from rotating to be in a vertical state by virtue of the separation net 1532, at the moment, because the two semicircular weight plates 1534 incline upwards, the resistance to water flow is reduced to the minimum, the clump weight 153 can slide downwards to the bottom of the lifting groove 1535 integrally by virtue of self gravity, when the output pipe 13 stops supplying water, the water pressure is not enough to push the two semicircular weight plates 1534 to open, the two semicircular weight plates 1534 rotate downwards to close, the clump weights 153 and the lifting pipe 15 can push the water in the fixed pipe 14 downwards to press the clump weight back into the reservoir 12, and because the two semicircular weight plates 1534 are in a closed state, therefore, the water in the lifting pipe 15 is in a relatively static state, and the water in the lifting pipe 15 cannot overflow from the high-pressure nozzle 232, so that the irrigation water can be saved; and when two semicircle counter weight plates 1534 were the tilt state, greatly reduced the water supply resistance to high pressure water outlet assembly, reduced the influence to high pressure nozzle 232 sprinkling irrigation scope under with the pressure, and when two semicircle counter weight plates 1534 were closed, can seal the inside water of fall way 15 again, water can not follow high pressure nozzle 232 and spill over, can practice thrift irrigation water.

Example three:

for the further optimization of above-mentioned embodiment one, irrigate the mechanism and still include a plurality of soil moisture sensor, a plurality of soil moisture sensor assemble respectively in a plurality of fixed pipe 14 sides, and a plurality of soil moisture sensor all are connected with control display terminal 1.

The soil humidity sensor is connected with the control display terminal 1 through an analog-to-digital converter, the analog-to-digital converter can convert an electric signal transmitted by the soil humidity sensor into a digital signal, people can monitor the soil humidity in real time through the control display terminal 1, and when people observe that the soil humidity is too low, the display terminal 1 can be controlled to control the on-off of the first electromagnetic valve 131 and the second electromagnetic valve 171, so that crops are irrigated; when discovering soil moisture sensor detection data anomaly through control display terminal 1, people can overhaul the investigation to the soil moisture sensor of anomalous data and the irrigation mechanism next door, do benefit to people's soil moisture sensor and the irrigation mechanism that the anomaly appears in accurate location, the people of being convenient for maintain and overhaul.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. The utility model provides an intelligent irrigation equipment of leaf dish, buries pond and a plurality of locating including control display terminal, booster pump, cistern, ground irrigation mechanism in the soil drainage canal, its characterized in that: an output pipe is fixedly connected to the lower side of the reservoir, the output pipe is provided with a first electromagnetic valve, the booster pump is connected with the output pipe, and the irrigation mechanisms are all communicated with the output pipe;

the fixed pipe body is provided with an inner ring groove, the upper side of the inner part of the fixed pipe is communicated with the inner ring groove, the lower side of the fixed pipe is fixedly connected with a collecting pipe, the collecting pipe is communicated with the inner ring groove, and the collecting pipe is communicated with the upper side of the buried pool.

2. The intelligent irrigation equipment for leaf vegetables as claimed in claim 1, wherein: the high-pressure water outlet component comprises a supporting plate, a supporting block, a rotating cover and a plurality of rotating pieces, the supporting plate is fixedly assembled at the upper side inside the lifting pipe, the supporting block is fixedly arranged at the upper end of the supporting plate, the supporting plate and the lower end of the supporting block are jointly provided with a water tank, a plurality of arc-shaped grooves which are uniformly distributed are arranged on the side edge of the supporting block, the arc-shaped grooves are communicated with the water tank, a rotating groove is arranged on the side of the supporting block ring, the rotating cover is rotatably arranged on the upper side inside the lifting pipe, the lower end of the rotating cover is fixedly provided with a rotating ring matched with the rotating groove, the upper end of the rotating cover is annularly and uniformly provided with a plurality of obliquely arranged high-pressure spray heads, the rotating pieces are annularly and uniformly and fixedly assembled at the upper end of the rotating ring, the rotating pieces are matched with the arc-shaped grooves, and the screen leaking support is fixedly arranged at the upper end of the rotating cover.

3. The intelligent irrigation equipment for leaf vegetables as claimed in claim 1, wherein: the balancing weight is including the assembly pipe, separate net, articulated shaft and two semicircle counter weight plates, the elevator pipe inboard seted up with the assembly pipe slides the lift groove that matches, the assembly pipe slide assembly in the inslot portion that goes up and down, separate net fixed assembly in the assembly pipe upper end, the articulated shaft is fixed to be located assembly pipe inboard middle part, two semicircle counter weight plates rotate respectively the assembly in the articulated shaft both sides, the inside upside of assembly pipe has been seted up with two semicircle counter weight plate assorted rotary tank.

4. The intelligent irrigation equipment for leaf vegetables as claimed in claim 1, wherein: the inner ring groove with fixed intraductal inboard intercommunication department fixed assembly has the ring screen, the fall way outside be equipped with ring screen assorted thickening pipe wall, thickening pipe wall with fixed intraduct upside sliding seal connects.

5. The intelligent irrigation equipment for leaf vegetables as claimed in claim 1, wherein: the fixed pipe outside is fixed and is equipped with a plurality of staple.

6. The intelligent irrigation equipment for leafy vegetables according to claim 1, wherein: irrigation mechanism still includes a plurality of soil moisture sensor, and is a plurality of soil moisture sensor assembles in a plurality of respectively the fixed pipe side, it is a plurality of soil moisture sensor all with control display terminal connects.