CN109769670A - A kind of water-saving irrigation device with regulatory function for agricultural production - Google Patents

Abstract

The present invention relates to a kind of water-saving irrigation devices with regulatory function for agricultural production, including pedestal, water pump, water-supply-pipe, processor, rotating mechanism, irrigation mechanism and several testing agencies, irrigation mechanism includes vertical tube, transverse tube and two irrigation assemblies, irrigation assembly includes hose, spray head and two adjusting units, adjusting unit includes bracket, spring and electromagnet, testing agency includes vertical bar, side lever, tuning component, directional plate, translate component, translational block, cylinder and soil humidity sensor, the water-saving irrigation device rotating mechanism with regulatory function for being used for agricultural production can drive irrigation mechanism and testing agency to rotate, utilize the soil moisture in testing agency's detection irrigation range, irrigation time is adjusted according to soil moisture convenient for equipment, and the water velocity that irrigation mechanism nozzle adjustable sprays, to change filling Position is irrigate, expands irrigation range, to realize the large-scale uniform irrigation of equipment, and then improves the practicability of equipment.

Description

A kind of water-saving irrigation device with regulatory function for agricultural production

Technical field

The present invention relates to water-saving irrigation device field, in particular to a kind of section with regulatory function for agricultural production Water irrigation equipment.

Background technique

Water-saving irrigation device refers to the general designation with water-saving function for the mechanical equipment of irrigation, and main Types have sprinkling irrigation Formula, slight irrigation formula, overall plastic water-saving irrigation system.Agricultural is as national economic lifeline and with water rich and influential family, for a long time, due to thought The reason of consciousness, fund, technology etc., continue to use always tradition fall behind flood irrigation method, greatly waste manpower and Material resources.In Chinese the vast rural areas, the master that water-saving irrigation device has become modern society's agricultural is gradually promoted Stream.

But existing water-saving irrigation device, structure fixed single, cause the range of water spray to be fixed, it can not be to large-scale Crop area is uniformly irrigated, and moreover, when existing water-saving irrigation device carries out operation, irrigation volume is fixed, nothing Method is accordingly adjusted according to soil moisture and crop growth situation, and when soil moisture is larger, quantitative irrigation is easy to make At the waste of water resource, and when soil moisture is smaller, quantitative irrigation will cause water deficient needed for crop growth again, influence The production of crops, so as to cause the reduction of existing water-saving irrigation device practicability.

Summary of the invention

The technical problem to be solved by the present invention is for overcome the deficiencies in the prior art, providing a kind of for agricultural production The water-saving irrigation device with regulatory function.

The technical solution adopted by the present invention to solve the technical problems is: a kind of to have regulatory function for agricultural production Water-saving irrigation device, including pedestal, water pump, water-supply-pipe, processor, rotating mechanism, irrigation mechanism and several testing agencies, institute The top that water pump is fixed on pedestal is stated, the water pump is connected to the bottom end of water-supply-pipe, and the irrigation mechanism and rotating mechanism are all provided with It sets on the top of water-supply-pipe, the testing agency is circumferentially evenly distributed on the periphery of water-supply-pipe, and the processor is fixed on water delivery Guan Shang, the processor is interior to be equipped with PLC and antenna, and the water pump and antenna are electrically connected with PLC；

The irrigation mechanism includes that vertical tube, transverse tube and two irrigation assemblies, the bottom end of the vertical tube are set in water-supply-pipe Top, the rotating mechanism and vertical tube are sequentially connected, and are connected at the top of the vertical tube and the center of transverse tube, two irrigation assemblies Be located at the both ends of transverse tube, the irrigation assembly includes hose, spray head and two adjusting units, the spray head by hose with Transverse tube connection, two electromagnet are located at the two sides of hose, and the adjusting unit includes bracket, spring and electromagnet, described The shape of bracket is U-shaped, and the both ends of the bracket are fixedly connected with spray head and transverse tube respectively, and the electromagnet is electrically connected with PLC, The electromagnet is connected by the bottom of the U-shaped opening of spring and bracket, and the spring be in compressive state, the electromagnet and PLC electrical connection；

The testing agency includes vertical bar, side lever, tuning component, directional plate, translation component, translational block, cylinder and soil Humidity sensor, the rotating mechanism and vertical bar are sequentially connected, and one end of the side lever is fixed on the separate defeated of the bottom end of vertical bar The side of water pipe, the other end of the side lever and the bottom end of directional plate are hinged, and the tuning component and directional plate are sequentially connected, institute The side that translation component is located at the separate water-supply-pipe of directional plate is stated, the translation component and translational block are sequentially connected, the cylinder Cylinder body be fixed in translational block, the gas bar of the cylinder is fixedly connected with soil humidity sensor, and the cylinder and soil are wet Degree sensor is electrically connected with PLC.

Preferably, the irrigation assembly further includes four fixed links for the moving direction of fixed electromagnet, four solid Fixed pole is located at the four corners of electromagnet, and the fixed link is fixed between two supports, and the electromagnet sleeve is located at fixation On bar.

Preferably, the rotating mechanism includes platform, annulus, several connecting rods in order to drive vertical bar and vertical tube to rotate With several driving assemblies, the platform is fixed on the top of water-supply-pipe, and the driving component is circumferentially evenly distributed on the interior of annulus Side, the connecting rod are circumferentially evenly distributed on the periphery of vertical tube, and the vertical tube is fixedly connected by connecting rod with annulus, the circle The inside of ring is equipped with several double wedges, and the double wedge is circumferentially evenly distributed on the inside of annulus, and the driving unit includes the first electricity Machine and gear, the first motor are electrically connected with PLC, and the first motor is connect with gear drive, and the gear is nibbled with double wedge It closes.

Preferably, the tuning component includes the second motor, first connecting rod and the second company in order to drive directional plate to rotate Bar, second motor are fixed on vertical bar, and second motor is electrically connected with PLC, and second motor and first connecting rod pass Dynamic connection, the first connecting rod are hinged by second connecting rod and directional plate.

Preferably, in order to drive translational block mobile, the translation component includes third motor, bearing and screw rod, described Third motor and bearing are each attached on directional plate, and the third motor is electrically connected with PLC, and the translational block is resisted against directional plate On, one end of the third motor and screw rod is sequentially connected, and the other end of the screw rod is arranged in bearing, the translational block set Be located on screw rod, the translational block be equipped with the junction of screw rod and the matched screw thread of screw rod.

Preferably, being coated with anticorrosion galvanizing layer on the screw rod in order to avoid screw rod corrosion.

Preferably, the driving force in order to guarantee third motor, the third motor is to administer servo motor.

Preferably, the smooth rotation in order to realize vertical bar, set on the water-supply-pipe there are two annular groove, the vertical bar It sets close to the side of water-supply-pipe there are two sliding block, the sliding block and annular groove correspond, and the sliding block and annular groove sliding connect It connects.

Preferably, the sliding block matches with annular groove in order to further ensure the smooth rotation of vertical bar, the annular Slot is dovetail groove.

Preferably, the energy conservation and environmental protection in order to realize equipment, the top of the transverse tube is equipped with photovoltaic panel.

The invention has the advantages that this is used for the water-saving irrigation device rotating mechanism with regulatory function of agricultural production Irrigation mechanism and testing agency can be driven to rotate, using the soil moisture in testing agency's detection irrigation range, be convenient for equipment root Irrigation time, and the water velocity that irrigation mechanism nozzle adjustable sprays are adjusted according to soil moisture, thus change irrigation position, Expand irrigation range, to realize the large-scale uniform irrigation of equipment, and then improves the practicability of equipment.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram of the water-saving irrigation device with regulatory function for agricultural production of the invention；

Fig. 2 is the structure of the irrigation mechanism of the water-saving irrigation device with regulatory function for agricultural production of the invention Schematic diagram；

Fig. 3 is the structure of the testing agency of the water-saving irrigation device with regulatory function for agricultural production of the invention Schematic diagram；

Fig. 4 is the portion the A enlarged drawing of Fig. 1；

Fig. 5 is the structure of the rotating mechanism of the water-saving irrigation device with regulatory function for agricultural production of the invention Schematic diagram；

In figure: 1. pedestals, 2. water pumps, 3. water-supply-pipes, 4. processors, 5. vertical tubes, 6. transverse tubes, 7. hoses, 8. spray heads, 9. Frame, 10. springs, 11. electromagnet, 12. vertical bars, 13. side levers, 14. directional plates, 15. translational blocks, 16. cylinders, 17. soil moisture Sensor, 18. fixed links, 19. platforms, 20. annulus, 21. connecting rods, 22. double wedges, 23. first motors, 24. gears, 25. Two motors, 26. first connecting rods, 27. second connecting rods, 28. third motors, 29. bearings, 30. screw rods, 31. annular grooves, 32. sliding blocks, 33. photovoltaic panel.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of water-saving irrigation device with regulatory function for agricultural production, including pedestal 1, water pump 2, water-supply-pipe 3, processor 4, rotating mechanism, irrigation mechanism and several testing agencies, the water pump 2 are fixed on the top of pedestal 1, The water pump 2 is connected to the bottom end of water-supply-pipe 3, and the irrigation mechanism and rotating mechanism are arranged at the top of water-supply-pipe 3, described Testing agency is circumferentially evenly distributed on the periphery of water-supply-pipe 3, and the processor 4 is fixed on water-supply-pipe 3, in the processor 4 Equipped with PLC and antenna, the water pump 2 and antenna are electrically connected with PLC；

User can emit wireless signal to processor 4 by remote control devices such as mobile phones when using the water-saving irrigation device, By passing to the PLC inside processor 4 after antenna reception wireless signal, PLC controls equipment and carries out irrigation operation, before irrigation, It drives testing agency to detect the soil moisture around equipment by rotating mechanism first, is then irrigated according to the structure of detection Mechanism carries out suitable water irrigation, guarantees the healthy growth of crops while saving water resource, to improve equipment Practicability.

As shown in Fig. 2, the irrigation mechanism includes vertical tube 5, transverse tube 6 and two irrigation assemblies, the bottom end set of the vertical tube 5 It is located at the top of water-supply-pipe 3, the rotating mechanism and vertical tube 5 are sequentially connected, at the top of the vertical tube 5 and the center of transverse tube 6 Connection, two irrigation assemblies are located at the both ends of transverse tube 6, and the irrigation assembly includes that hose 7, spray head 8 and two adjustings are single Member, the spray head 8 are connected to by hose 7 with transverse tube 6, and two electromagnet 11 are located at the two sides of hose 7, the adjusting unit Including bracket 9, spring 10 and electromagnet 11, the shape of the bracket 9 is U-shaped, the both ends of the bracket 9 respectively with spray head 8 and Transverse tube 6 is fixedly connected, and the electromagnet 11 is electrically connected with PLC, and the electromagnet 11 passes through the U-shaped opening of spring 10 and bracket 9 Bottom connection, the spring 10 is in compressive state, and the electromagnet 11 is electrically connected with PLC；

When being irrigated, PLC controls water pump 2 and starts, and extracts water source from underground, by water-supply-pipe 3 that water flow is defeated It send into vertical tube 5, water flow is flowed out by vertical tube 5 from the both ends of transverse tube 6, is sprayed by hose 7 from spray head 8, is irrigated to adjust Position, and then bring more land under irrigation, PLC controls electromagnet 11 and is powered, so that the electromagnet 11 of the two sides of hose 7 generates magnetism, It attracts each other, thus squeezing tube 7, so that the water velocity in hose 7 increases, Jin Erkuo after the reduced cross-sectional area of hose 7 The water velocity sprayed from spray head 8 greatly changes irrigation position, vertical tube 5 can be driven to rotate using rotating mechanism, so that transverse tube 6 rotations, transverse tube 6 drives spray head 8 to rotate synchronously by bracket 9, so that equipment all surrounding areas are uniformly irrigated.

As shown in figure 3, the testing agency includes vertical bar 12, side lever 13, tuning component, directional plate 14, translation component, puts down Block 15, cylinder 16 and soil humidity sensor 17 are moved, the rotating mechanism and vertical bar 12 are sequentially connected, one end of the side lever 13 It is fixed on the side of the separate water-supply-pipe 3 of the bottom end of vertical bar 12, the bottom end of the other end and directional plate 14 of the side lever 13 is hinged, The tuning component and directional plate 14 are sequentially connected, and the translation component is located at the side of the separate water-supply-pipe 3 of directional plate 14, institute It states translation component and translational block 15 is sequentially connected, the cylinder body of the cylinder 16 is fixed in translational block 15, the gas of the cylinder 16 Bar is fixedly connected with soil humidity sensor 17, and the cylinder 16 and soil humidity sensor 17 are electrically connected with PLC.

Before being irrigated, in order to guarantee suitable irrigation volume, first by testing agency to the soil around equipment into Row Humidity Detection, after driving directional plate 14 to be swung down to level angle by tuning component, PLC controls cylinder 16 and starts, and passes through The gas bar of cylinder 16 drives soil humidity sensor 17 to be downwardly into soil, detects soil moisture, and by soil moisture data PLC is passed to, the humidity conditions of soil are obtained convenient for equipment, and the gas bar of exhaust hood 16 moves up, then by translation component band Dynamic translational block 15 is moved along the surface of directional plate 14, and the gas bar of cylinder 16 moves still further below, is inserted into soil and is carried out humidity inspection It surveys, vertical bar 12 can be driven to rotate by rotating mechanism later, recycle soil humidity sensor 17 to carry out soil to surrounding area wet Degree detection understands the soil moisture status in irrigation range convenient for equipment, carries out suitable water irrigation.

Preferably, for the moving direction of fixed electromagnet 11, the irrigation assembly further includes four fixed links 18, four A fixed link 18 is located at the four corners of electromagnet 11, and the fixed link 18 is fixed between two brackets 9, the electromagnet 11 are set in fixed link 18.The position of four fixed links 18 is secured by two brackets 9, fixed link 18 passes through electromagnet 11, to secure the moving direction of electromagnet 11.

As illustrated in figures 4-5, the rotating mechanism includes platform 19, annulus 20, several connecting rods 21 and several driving assemblies, The platform 19 is fixed on the top of water-supply-pipe 3, and the driving component is circumferentially evenly distributed on the inside of annulus 20, the connection The circumferential periphery for being evenly distributed on vertical tube 5 of bar 21, the vertical tube 5 are fixedly connected by connecting rod 21 with annulus 20, the annulus 20 inside is equipped with several double wedges 22, the circumferential inside for being evenly distributed on annulus 20 of the double wedge 22, and the driving unit includes First motor 23 and gear 24, the first motor 23 are electrically connected with PLC, and the first motor 23 is sequentially connected with gear 24, The gear 24 is engaged with double wedge 22.

In rotating mechanism, the position of platform 19 is fixed on the top of water-supply-pipe 3, and PLC controls the first electricity in driving assembly Machine 23 starts, and band moving gear 24 rotates, and gear 24 acts on the double wedge 22 being engaged with, so that annulus 20 rotates, circle Ring 20 drives vertical bar 12 to rotate, and the rotation for driving vertical tube 5 to synchronize by connecting rod 21.

As shown in figure 3, the tuning component include the second motor 25, first connecting rod 26 and second connecting rod 27, described second Motor 25 is fixed on vertical bar 12, and second motor 25 is electrically connected with PLC, and second motor 25 is driven with first connecting rod 26 Connection, the first connecting rod 26 are hinged by second connecting rod 27 and directional plate 14.

PLC controls the starting of the second motor 25, and first connecting rod 26 is driven to rotate, and first connecting rod 26 is acted on by second connecting rod 27 On directional plate 14, so that directional plate 14 is rotated along one end of the separate vertical bar 12 of side lever 13.

Preferably, the translation component includes third motor 28, bearing 29 and screw rod in order to drive translational block 15 mobile 30, the third motor 28 and bearing 29 are each attached on directional plate 14, and the third motor 28 is electrically connected with PLC, described flat Block 15 is moved to be resisted against on directional plate 14, the third motor 28 and one end of screw rod 30 are sequentially connected, the screw rod 30 it is another End is arranged in bearing 29, and the translational block 15 is set on screw rod 30, and the translational block 15 is set with the junction of screw rod 30 Have and the matched screw thread of screw rod 30.PLC controls third motor 28 and starts, and drives screw rod 30 in the supporting role backspin of bearing 29 Turn, screw rod 30 passes through threaded function in translational block 15, so that translational block 15 is moved along the axis of screw rod 30.

Preferably, being coated with anticorrosion galvanizing layer on the screw rod 30 in order to avoid the corrosion of screw rod 30.Pass through anticorrosion galvanizing layer So that periphery and the moisture isolation of screw rod 30, corrode after avoiding screw rod 30 from making moist.

Preferably, the feature strong using DC servo motor driving force, in order to guarantee the driving force of third motor 28, institute Third motor 28 is stated to administer servo motor.

Preferably, the smooth rotation in order to realize vertical bar 12, set that there are two annular grooves 31 on the water-supply-pipe 3, it is described The side of the close water-supply-pipe 3 of vertical bar 12 is set there are two sliding block 32, and the sliding block 32 is corresponded with annular groove 31, the sliding block 32 are slidably connected with annular groove 31.The sliding trace of sliding block 32 is secured by the annular groove 31 being fixed on water-supply-pipe 3, thus The rotary motion trace of vertical bar 12 is secured, realizes the smooth rotation of vertical bar 12.

Preferably, the sliding block 32 matches with annular groove 31, institute in order to further ensure the smooth rotation of vertical bar 12 Stating annular groove 31 is dovetail groove.It since annular groove 31 is dovetail groove, avoids sliding block 32 and is detached from annular groove 31, thus further real The smooth rotation of vertical bar 12 is showed.

Preferably, the energy conservation and environmental protection in order to realize equipment, the top of the transverse tube 6 is equipped with photovoltaic panel 33.Pass through photovoltaic Plate 33 can carry out photovoltaic power generation on sunny daytime, the electric energy of equipment operation be provided, to realize the energy conservation and environmental protection of equipment.

The water-saving irrigation device drives directional plate 14 to be swung down to by tuning component first before carrying out irrigation operation After level angle, cylinder 16 drives soil humidity sensor 17 to be inserted into after soil carries out Humidity Detection, then is driven by translation component Translational block 15 is mobile, and adjustment detection position is then acted on annulus 20 by driving assembly, drives vertical bar 12 by annulus 20 Rotation, carries out Humidity Detection to the soil around equipment, understands the soil moisture in irrigation range convenient for equipment, then irrigation group Part operation, by 11 energizing magnetic of electromagnet, squeezing tube 7 adjusts the water velocity that spray head 8 sprays, change irrigate away from From, expand irrigation range, and rotate using annulus 20, drives vertical tube 5 and spray head 8 to rotate, realize large-scale uniform irrigation, from And improve the practicability of equipment.

Compared with prior art, which can band Dynamic irrigation mechanism and testing agency's rotation, using the soil moisture in testing agency's detection irrigation range, convenient for equipment according to soil Earth humidity regulation irrigation time, and the water velocity that irrigation mechanism nozzle adjustable 8 sprays expand to change irrigation position Big irrigation range to realize the large-scale uniform irrigation of equipment, and then improves the practicability of equipment.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of water-saving irrigation device with regulatory function for agricultural production, which is characterized in that including pedestal (1), water Pump (2), water-supply-pipe (3), processor (4), rotating mechanism, irrigation mechanism and several testing agencies, the water pump (2) are fixed on bottom The top of seat (1), the water pump (2) is connected to the bottom end of water-supply-pipe (3), and the irrigation mechanism and rotating mechanism are arranged at defeated The top of water pipe (3), the testing agency are circumferentially evenly distributed on the periphery of water-supply-pipe (3), and the processor (4) is fixed on defeated On water pipe (3), PLC and antenna are equipped in the processor (4), the water pump (2) and antenna are electrically connected with PLC；

The irrigation mechanism includes vertical tube (5), transverse tube (6) and two irrigation assemblies, and the bottom end of the vertical tube (5) is set in water delivery The top of (3) is managed, the rotating mechanism and vertical tube (5) are sequentially connected, at the top of the vertical tube (5) and the center of transverse tube (6) Connection, two irrigation assemblies are located at the both ends of transverse tube (6), and the irrigation assembly includes hose (7), spray head (8) and two Unit is adjusted, the spray head (8) is connected to by hose (7) with transverse tube (6), and two electromagnet (11) are located at hose (7) Two sides, the adjusting unit include bracket (9), spring (10) and electromagnet (11), and the shape of the bracket (9) is U-shaped, described The both ends of bracket (9) are fixedly connected with spray head (8) and transverse tube (6) respectively, and the electromagnet (11) is electrically connected with PLC, the electricity Magnet (11) is connect by spring (10) with the bottom of the U-shaped opening of bracket (9), and the spring (10) is in compressive state, institute Electromagnet (11) is stated to be electrically connected with PLC；

The testing agency includes vertical bar (12), side lever (13), tuning component, directional plate (14), translation component, translational block (15), cylinder (16) and soil humidity sensor (17), the rotating mechanism and vertical bar (12) are sequentially connected, the side lever (13) One end be fixed on vertical bar (12) bottom end separate water-supply-pipe (3) side, the other end and directional plate of the side lever (13) (14) bottom end is hinged, and the tuning component and directional plate (14) are sequentially connected, and the translation component is located at directional plate (14) Side far from water-supply-pipe (3), the translation component and translational block (15) are sequentially connected, and the cylinder body of the cylinder (16) is fixed on In translational block (15), the gas bar of the cylinder (16) is fixedly connected with soil humidity sensor (17), the cylinder (16) and soil Earth humidity sensor (17) is electrically connected with PLC.

2. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that institute Stating irrigation assembly further includes four fixed links (18), and four fixed links (18) are located at the four corners of electromagnet (11), described Fixed link (18) is fixed between two brackets (9), and the electromagnet (11) is set on fixed link (18).

3. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that institute Stating rotating mechanism includes platform (19), annulus (20), several connecting rods (21) and several driving assemblies, and the platform (19) is fixed On the top of water-supply-pipe (3), the driving component is circumferentially evenly distributed on the inside of annulus (20), and the connecting rod (21) is circumferential It is evenly distributed on the periphery of vertical tube (5), the vertical tube (5) is fixedly connected by connecting rod (21) with annulus (20), the annulus (20) inside is equipped with several double wedges (22), and the double wedge (22) is circumferentially evenly distributed on the inside of annulus (20), the driving Unit includes first motor (23) and gear (24), and the first motor (23) is electrically connected with PLC, the first motor (23) with Gear (24) transmission connection, the gear (24) are engaged with double wedge (22).

4. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that institute Stating tuning component includes that the second motor (25), first connecting rod (26) and second connecting rod (27), second motor (25) are fixed on On vertical bar (12), second motor (25) is electrically connected with PLC, and second motor (25) and first connecting rod (26) transmission connect It connects, the first connecting rod (26) is hinged by second connecting rod (27) and directional plate (14).

5. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that institute Stating translation component includes third motor (28), bearing (29) and screw rod (30), and the third motor (28) and bearing (29) are solid It is scheduled on directional plate (14), the third motor (28) is electrically connected with PLC, and the translational block (15) is resisted against directional plate (14) On, one end of the third motor (28) and screw rod (30) is sequentially connected, and the other end of the screw rod (30) is arranged in bearing (29) in, the translational block (15) is set on screw rod (30), and the translational block (15) is equipped with the junction of screw rod (30) With screw rod (30) matched screw thread.

6. being used for the water-saving irrigation device with regulatory function of agricultural production as claimed in claim 5, which is characterized in that institute It states and is coated with anticorrosion galvanizing layer on screw rod (30).

7. being used for the water-saving irrigation device with regulatory function of agricultural production as claimed in claim 5, which is characterized in that institute Third motor (28) are stated to administer servo motor.

8. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that institute State and set on water-supply-pipe (3) there are two annular groove (31), the side of close the water-supply-pipe (3) of the vertical bar (12) set there are two sliding block (32), the sliding block (32) and annular groove (31) correspond, and the sliding block (32) is slidably connected with annular groove (31).

9. being used for the water-saving irrigation device with regulatory function of agricultural production as claimed in claim 8, which is characterized in that institute It states sliding block (32) to match with annular groove (31), the annular groove (31) is dovetail groove.

10. being used for the water-saving irrigation device with regulatory function of agricultural production as described in claim 1, which is characterized in that The top of the transverse tube (6) is equipped with photovoltaic panel (33).