CN115316239A

CN115316239A - Irrigation and drainage cooperative water-saving accurate salt control system

Info

Publication number: CN115316239A
Application number: CN202211069219.8A
Authority: CN
Inventors: 冯克鹏; 闫新房; 马国荣
Original assignee: Ningxia University
Current assignee: Ningxia University
Priority date: 2022-09-02
Filing date: 2022-09-02
Publication date: 2022-11-11
Anticipated expiration: 2042-09-02
Also published as: CN115316239B

Abstract

The invention discloses a water-saving and drainage cooperative accurate salt control system, which is characterized by comprising the following steps of: the method comprises the following steps: installing a plurality of salt control assemblies in a working area; step two: respectively installing a water dispersion collection mechanism at the highest point and the lowest point of the working area; step three: connecting a water outlet pipe of the water supply tank with the water dispersion collecting mechanism at a high position by using a pipeline; step four: and a water inlet pipe II of the water collecting tank is connected with the water dispersion collecting mechanism at the lower part by using a pipeline with a water pump. The invention relates to the field of water-saving accurate salt control equipment, in particular to a water-saving and drainage cooperative water-saving accurate salt control system. The invention aims to provide a water-saving and water-discharging coordinated accurate salt control system, which is convenient for water-saving and water-discharging coordinated accurate salt control.

Description

Irrigation and drainage cooperative water-saving accurate salt control system

Technical Field

The invention relates to the field of water-saving accurate salt control equipment, in particular to a water-saving and drainage cooperative water-saving accurate salt control system.

Background

Different irrigation and drainage modes can all produce certain influence to the water footprint of crop and its constitution etc. and current soil salt content is 6 ~ 9%, because unreasonable irrigation system leads to soil planting layer salinity to accumulate usually, therefore prior art is through watering in a large number for the salinity on soil planting layer moves down, can realize pressing the salt effect in short-term, but through long-term monitoring discovery, nevertheless irrigation in a large number makes the groundwater level rise, and the salinity rises once more, very is unfavorable for ecological agriculture's sustainable development. The invention discloses a water-saving and salt-inhibiting irrigation and drainage cooperative regulation method and a system, and discloses a technical effect of ensuring crop yield, achieving water saving and emission reduction and improving salt inhibition effect by intelligently determining an optimal irrigation and drainage mode and an optimal soil coverage scheme through an application publication No. CN 114626725A.

If can provide a system, realize according to the soil condition, when irrigating, the salinity adjustment of adjustment irrigation water will conveniently realize the accurate accuse salt irrigation of soil water conservation.

Disclosure of Invention

The invention aims to provide a water-saving and water-discharging coordinated accurate salt control system, which is convenient for water-saving and water-discharging coordinated accurate salt control.

The invention adopts the following technical scheme to realize the purpose of the invention:

the utility model provides a irritate and arrange accurate accuse salt system of water conservation in coordination which characterized in that includes the following steps:

the method comprises the following steps: installing a plurality of salt control assemblies in a working area;

step two: respectively installing a water dispersion collection mechanism at the highest point and the lowest point of the working area;

step three: connecting a water outlet pipe of the water supply tank with the water dispersion collecting mechanism at a high position by using a pipeline;

step four: connecting a water inlet pipe II of the water collecting tank with the water dispersion collecting mechanism at the lower part by using a pipeline with a water pump;

step five: continuously supplying water to the water supply tank through a water inlet pipe, so that the water is continuously supplied to the water dispersion collection mechanism at a high position;

step six: adjusting the position of a second semicircular pipe of the water dispersion collection mechanism at a high position according to the influence factors such as the area of the working area, the drought degree and the like to realize the adjustment of the size and the speed of water flow so that the water flows into the working area;

step seven: controlling a motor of the salt control assembly to move according to the irrigation requirement of the working area, so that a salt rod mounting frame of the salt control assembly, which is provided with a salt rod, is contacted with water, and the concentration adjustment of salt is realized;

step eight: the brine gradually flows into the water dispersion collection mechanism at the lower part, and the position of the semicircular pipe II of the water dispersion collection mechanism at the lower part is adjusted to enable the brine to flow into the semicircular pipe I at the lower part;

step nine: controlling a water pump connected with the water inlet pipe to be opened, and pumping the saline water in the lower semicircular pipe into the water collecting tank;

step ten: and pouring chemical reagents and the like into the water collecting tank to precipitate the salt, and connecting a water pump to pump low-concentration salt water in the water collecting tank into the water supply tank to realize water circulation.

As a further limitation of the technical solution, the upper part of the water supply tank is fixedly communicated with the first water inlet pipe, and the lower part of the water supply tank is fixedly communicated with the water outlet pipe.

As a further limitation of the technical scheme, the upper part of the water collecting tank is fixedly communicated with the water inlet pipe II, the lower part of the water collecting tank is fixedly communicated with the salt discharge pipe, the water supply tank is fixedly connected with the water pump, and the water pump is fixedly connected with the water collecting tank.

As a further limitation of the technical scheme, the water dispersion collection mechanism comprises a frame body, a set of water through grooves are formed in a vertical plate of the frame body, a set of water through holes are formed in a bottom plate of the frame body, the water through holes are communicated with a second frame body, the first half pipe is fixedly connected with the first half pipe, the first half pipe is provided with a circular groove, a second frame body is fixedly connected with a second motor, an output shaft of the second motor penetrates through the second frame body, a gear is fixedly connected with an output shaft of the second motor, a gear meshing gear ring is arranged in the circular groove, a gear ring bearing is connected with the second frame body, the gear ring is fixedly connected with the second half pipe, the second half pipe is matched with the circular groove, the second half pipe is matched with the first half pipe, a water pipe is fixedly connected with the second frame body, the water pipe is communicated with the first half pipe, the frame body is arranged at a high position, and the upper end of the frame body is fixedly connected with the bottom of the water channel.

As the further limitation of the technical scheme, when the position of the semicircular pipe is adjusted, the motor II is opened, the motor II drives the gear to rotate, the gear drives the gear ring to rotate, and the gear ring drives the semicircular pipe II to rotate, so that the position adjustment of the semicircular pipe is realized.

As a further limitation of this technical scheme, accuse salt subassembly includes the U groove, U groove fixed connection U frame, U groove fixed connection cylinder one, cylinder fixed connection plectane one, plectane one fixed connection round bar two, round bar two fixed connection cylinder one, cylinder one is provided with the circular track of sloping, U groove fixed connection concentration sensor, U frame fixed connection motor one, the output shaft of motor one passes the U frame, output shaft fixed connection round axle one of motor one, a set of evenly distributed's of round axle fixed connection L shape pole one, every L shape pole rotates respectively to be connected the salt stick mounting bracket.

As a further inject of this technical scheme, salt stick mounting bracket includes circle axle two, a rotation connection of L shape pole circle axle two, two fixed connection plectanes of circle axle two, two fixed connection L posts of plectane, L post fixed connection mounting panel, a set of installation pole of mounting panel fixed connection, the installation pole is provided with a set of mounting hole, two fixed connection L shape poles of circle axle two, two fixed connection balls of L shape pole, the ball sets up in the circular track of the shape to one side.

As this technical scheme's further injecture, adjustment during the salt stick mounting bracket position, control first motor rotates, first motor drives L shape pole is public, L shape pole one drives salt stick mounting bracket swing, salt stick mounting bracket swing is simultaneously the ball is followed inclined circular ring orbit removes, the ball drives two swings of L shape pole, two drives of L shape pole two swings of plectane, two drives of plectane the L post the mounting panel reaches the mounting bar swing.

As the further limited of this technical scheme, different when salt stick mounting bracket installation salt stick, the different salt stick of mounting dimension and quantity, and salt stick is in position on the installation pole is different, when salt stick mounting bracket was in its stroke bottom, the different salt stick solution rate of size was different, and the different salt stick in position is different with the position of inserting in the aquatic, realizes the accurate adjustment of salt concentration.

As a further limitation of the technical solution, the first motor, the second motor, the concentration sensor and the connection water pump are respectively electrically connected to a controller.

Compared with the prior art, the invention has the advantages and positive effects that:

1. this device is through setting up semicircle pipe two, realizes rivers to semicircle pipe one in, realizes the dispersion or the collection of water, and semicircle pipe two is regional big more with the semicircle pipe one-tenth breach, and discharge is more, and the work area is gone into with the water to the semicircle pipe one that is in the eminence, realizes irrigating, and the semicircle pipe one that is in the low department collects the unnecessary water of work area.

2. This device is through when with salt stick mounting bracket installation salt stick, the different salt stick of mounting dimension and quantity, and the position of salt stick on the installation pole is different, and salt stick mounting bracket is in its stroke when the bottom, is in the aquatic, and the different salt stick solution rate of size is different, and the salt stick of the difference in position is different with inserting the aquatic position, and the salt stick is thick more big with the water contact surface, and the faster of dissolving, it is faster to realize the adjustment of concentration, realizes the accurate adjustment of salt concentration.

3. The water collecting tank of the device collects redundant water in a working area, chemical reagents and the like are added into the water collecting tank, salt is separated out, a water pump is connected to extract low-concentration salt water in the water collecting tank into the water supply tank, and water circulation and collection of the redundant salt are achieved.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention.

FIG. 2 is a schematic view showing a three-dimensional structure of the water supply tank, the water collecting tank and the connection water pump according to the present invention.

Fig. 3 is a schematic perspective view of a water dispersion collection mechanism according to the present invention.

Fig. 4 is a partial perspective view of the first water-dispersed collecting mechanism of the present invention.

Fig. 5 is a schematic partial three-dimensional structure diagram of a water dispersion collection mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the salt control assembly of the present invention.

Fig. 7 is a schematic partial perspective view of a salt control assembly according to the first embodiment of the present invention.

FIG. 8 is a perspective view of a salt stick mounting bracket of the present invention.

Fig. 9 is a partial perspective view of the salt control assembly according to the second embodiment of the present invention.

Fig. 10 is a schematic perspective view of a water dispersion collection mechanism according to a second embodiment of the present invention.

Fig. 11 is a schematic partial perspective view of a water dispersion collection mechanism according to a third embodiment of the present invention.

In the figure: 1. the water supply system comprises a water supply tank, 2, a water collection tank, 3, a water dispersion collection mechanism, 4, a first motor, 5, a controller, 6, a concentration sensor, 7, a working area, 8, a first water inlet pipe, 9, a water outlet pipe, 10, a second water inlet pipe, 12, a salt discharge pipe, 13, a connecting water pump, 14, a water channel, 15, a first frame body, 16, a water through groove, 17, a water through hole, 18, a first semicircular pipe, 19, a circular groove, 20, a second frame body, 21, a water pipe, 22, a second semicircular pipe, 23, a gear ring, 24, a gear, 25, a second motor, 26, a salt control assembly, 27, a U frame, 28, a U groove, 29, a first cylinder, 31, a first circular shaft, 32, a first L-shaped rod, 33, a second cylinder, 34, a first circular plate, 35, a second circular rod, 36, an inclined circular ring rail, 37, a mounting plate, 38, a mounting rod, 39, a mounting hole, 40, an L-shaped column, 41, a second circular plate, 42, a second circular shaft, 43, a second L-shaped rod, 44, a circular rod, 45 and a salt rod.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

The invention comprises the following steps:

the method comprises the following steps: installing a plurality of salt control assemblies 26 in the working area 7;

step two: the water dispersion collection mechanism 3 is respectively arranged at the highest point and the lowest point of the working area 7;

step three: a water outlet pipe 9 of the water supply tank 1 is connected with the water dispersion collection mechanism 3 at a high position by using a pipeline;

step four: a second water inlet pipe 10 of the water collecting tank 2 is connected with the water dispersion collecting mechanism 3 at the lower part by a pipeline with a water pump;

step five: continuously supplying water to the water supply tank 1 through a first water inlet pipe 8 to enable the water to be continuously supplied to the high water dispersion collection mechanism 3;

step six: adjusting the position of the second semicircular pipe 22 of the water dispersion collection mechanism 3 at a high position according to the area of the working area 7, the drought degree and other influence factors to realize the adjustment of the water flow size and speed so that water flows into the working area 7;

step seven: controlling a motor I4 of the salt control assembly 26 to move according to the irrigation requirement of the working area 7, so that a salt rod mounting rack 45 provided with a salt rod of the salt control assembly 26 is contacted with water, and the concentration adjustment of salt is realized;

step eight: the brine gradually flows into the lower water dispersion collection mechanism 3, and the position of the second semicircular pipe 22 of the lower water dispersion collection mechanism 3 is adjusted to enable the brine to flow into the first lower semicircular pipe 18;

step nine: controlling a water pump connected with the water inlet pipe 10 to be opened, and pumping the saline water in the lower semicircular pipe I18 into the water collecting tank 2;

step ten: chemical reagents and the like are poured into the water collecting tank 2 to salt out, and a water pump 13 is connected to pump low-concentration brine in the water collecting tank 2 into the water supply tank 1 to realize water circulation.

The upper part of the water supply tank 1 is fixedly communicated with the first water inlet pipe 8, and the lower part of the water supply tank 1 is fixedly communicated with the water outlet pipe 9.

The upper portion of the water collecting tank 2 is fixedly communicated with the water inlet pipe two 10, the lower portion of the water collecting tank 2 is fixedly communicated with the salt discharge pipe 12, the water supply tank 1 is fixedly connected with the water pump 13, and the water pump 13 is fixedly connected with the water collecting tank 2.

The water dispersion collection mechanism 3 comprises a frame body 15, a vertical plate of the frame body 15 is provided with a set of water through grooves 16, a bottom plate of the frame body 15 is provided with a set of water through holes 17, a set of water through holes 17 communicate with a second frame body 20, the frame body 20 is fixedly connected with the first half pipe 18, the frame body 20 corresponds to the first half pipe 18 is provided with a circular groove 19, the second frame body 20 is fixedly connected with a second motor 25, an output shaft of the second motor 25 penetrates through the second frame body 20, an output shaft of the second motor 25 is fixedly connected with a gear 24, the gear 24 is meshed with a gear ring 23, the gear ring 23 is arranged in the circular groove 19, the gear ring 23 is connected with a bearing of the second frame body 20, the gear ring 23 is fixedly connected with the second half pipe 22, the second half pipe 22 is matched with the circular groove 19, the second half pipe 22 is matched with the first half pipe 18, the second frame body 20 is fixedly connected with a water pipe 21, the first half pipe 18 is communicated with the frame body 15 at a high position, and is fixed in the bottom of the water channel 14.

Adjusting during the two 22 positions of semicircle pipe, open two 25 motors, two 25 motors drive 24 rotates, 24 gears drive 23 rotates, 23 gears drive two 22 rotations of semicircle pipe are realized the two 22 position adjustment of semicircle pipe.

Accuse salt subassembly 26 includes U groove 28, U groove 28 fixed connection U frame 27, U groove 28 fixed connection cylinder 29, cylinder 29 fixed connection plectane 34, plectane 34 fixed connection pole two 35, pole two 35 fixed connection cylinder 33, cylinder 33 is provided with oblique shape ring rail 36, U groove 28 fixed connection concentration sensor 6, U frame 27 fixed connection motor 4, the output shaft of motor 4 passes U frame 27, output shaft fixed connection round axle 31 of motor 4, a set of evenly distributed's of round axle 31 fixed connection L shape pole 32, every L shape pole 32 rotates respectively and connects salt stick mounting bracket 45.

Salt stick mounting bracket 45 includes circle axle two 42, L shape pole one 32 rotates and connects circle axle two 42, circle axle two 42 fixed connection plectane two 41, two 41 fixed connection L posts of

plectane

40, 40 fixed connection mounting panel 37 of L post, a set of installation pole 38 of mounting panel 37 fixed connection, installation pole 38 is provided with a set of mounting hole 39, two 42 fixed connection L shape poles of circle axle two 43, two 43 fixed connection balls 44 of L shape pole, ball 44 sets up in the shape ring track 36 to one side.

Adjustment during the 45 positions of salt stick mounting bracket, control a motor 4 rotates, a motor 4 drives L shape pole 32 is public, L shape pole 32 drives salt stick mounting bracket 45 swings, salt stick mounting bracket 45 swings simultaneously ball 44 is followed the circular track 36 that appears to one side removes, ball 44 drives two 43 swings of L shape pole, two 43 drives of L shape pole two 41 swings of plectane, two 41 drives of plectane L post 40 the mounting panel 37 reaches the swing of installation pole 38.

Different during salt stick mounting bracket 45 installation salt stick, the different salt stick of mounting dimension and quantity, and salt stick is in position difference on the installation pole 38, salt stick mounting bracket 45 is when its stroke is bottom, and the different salt stick solution velocity of size is different, and the salt stick of position difference is different with inserting the aquatic position, realizes the accurate adjustment of salt concentration.

The motor I4, the motor II 25, the concentration sensor 6 and the connecting water pump 13 are respectively electrically connected with a controller.

The frame 20 is elevated with the top flush with the bottom of the canal 14.

The working process of the invention is as follows: several salt control assemblies 26 are installed in the working area 7.

The water dispersion collection mechanism 3 is respectively arranged at the highest point and the lowest point of the working area 7.

The water outlet pipe 9 of the water supply tank 1 is connected to the water dispersion collection mechanism 3 at a high position by using a pipe.

The second water inlet pipe 10 of the water collecting tank 2 is connected with the water dispersion collecting mechanism 3 at the lower part by using a pipeline with a water pump.

The water is continuously supplied to the water supply tank 1 through the first water inlet pipe 8, so that the water is continuously supplied to the high water dispersion collection mechanism 3.

According to the area of the working area 7, the drought degree and other influencing factors, the position of the second half-round pipe 22 of the water dispersion collecting mechanism 3 at the high position is adjusted, so that the adjustment of the water flow size and the water flow speed is realized, and the water flows into the working area 7. When the position of the second semicircular tube 22 is adjusted, the second motor 25 is started, the second motor 25 drives the gear 24 to rotate, the gear 24 drives the gear ring 23 to rotate, and the gear ring 23 drives the second semicircular tube 22 to rotate, so that the position of the second semicircular tube 22 is adjusted.

According to the irrigation requirement of the working area 7, the first motor 4 of the salt control assembly 26 is controlled to move, so that the salt rod mounting rack 45 provided with the salt rod of the salt control assembly 26 is contacted with water, and the concentration adjustment of salt is realized. When the position of the salt stick mounting frame 45 is adjusted, the first motor 4 is controlled to rotate, the first motor 4 drives the first L-shaped rod 32 to rotate, the first L-shaped rod 32 drives the salt stick mounting frame 45 to swing, the salt stick mounting frame 45 swings while the round ball 44 moves along the inclined circular ring track 36, the round ball 44 drives the second L-shaped rod 43 to swing, the second L-shaped rod 43 drives the second circular plate 41 to swing, and the second circular plate 41 drives the L column 40, the mounting plate 37 and the mounting rod 38 to swing. When different salt stick mounting bracket 45 installation salt stick, the different salt stick of mounting dimension and quantity, and the position of salt stick on installation pole 38 is different, and salt stick mounting bracket 45 is when its stroke is the lower extreme, and the different salt stick solution rate of size is different, and the salt stick of the difference in position is different with the position of inserting the aquatic, realizes the accurate adjustment of salt concentration.

The brine gradually flows into the lower water dispersion collection mechanism 3, and the position of the semicircular pipe two 22 of the lower water dispersion collection mechanism 3 is adjusted to make the brine flow into the lower semicircular pipe one 18.

And controlling a water pump connected with the water inlet pipe 10 to be opened, and pumping the saline water in the lower semicircular pipe I18 into the water collecting tank 2.

Chemical reagents and the like are poured into the water collecting tank 2 to salt out, and a water pump 13 is connected to pump low-concentration salt water in the water collecting tank 2 into the water supply tank 1 to realize water circulation.

This device is through setting up semicircle pipe two 22, realizes rivers to semicircle pipe 18 in, realizes the dispersion or the collection of water, and semicircle pipe two 22 and semicircle pipe 18 are constituteed the breach region and are big more, and discharge is more, and the semicircle pipe 18 that is in the eminence is gone into work area 7 with the water, realizes irrigating, and the semicircle pipe 18 that is in the low department collects the unnecessary water of work area 7.

This device is through when the salt stick is installed to same salt stick mounting bracket 45, the different salt stick of mounting dimension and quantity, and the position of salt stick on installation pole 38 is different, and salt stick mounting bracket 45 is in its stroke when the bottom, is in the aquatic, and the different salt stick solution rate of size is different, and the different salt stick of position is different with inserting the aquatic position, and the salt stick is thick more big with the water contact surface, and the speed of dissolving is faster, realizes that concentration adjustment is faster, realizes the accurate adjustment of salt concentration.

The water collecting tank 2 of the device collects redundant water in the working area 7, chemical reagents and the like are added into the water collecting tank 2 to salt out, the water pump 13 is connected to pump low-concentration salt water in the water collecting tank 2 into the water supply tank 1, and water circulation and collection of the redundant salt are achieved.

The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.

Claims

1. The utility model provides a irritate and arrange accurate accuse salt system of water conservation in coordination which characterized in that includes the following step:

the method comprises the following steps: installing a plurality of salt control assemblies (26) in the working area (7);

step two: the highest point and the lowest point of the working area (7) are respectively provided with a water dispersion collecting mechanism (3);

step three: a water outlet pipe (9) of the water supply tank (1) is connected with the water dispersion collection mechanism (3) at a high position by using a pipeline;

step four: a second water inlet pipe (10) of the water collecting tank (2) is connected with the water dispersion collecting mechanism (3) at the lower part by a pipeline with a water pump;

step five: continuously supplying water to the water supply tank (1) through a first water inlet pipe (8) so that the water is continuously supplied to the water dispersion collecting mechanism (3) at a high position;

step six: adjusting the position of a second semicircular pipe (22) of the water dispersion collection mechanism (3) at a high position according to the area of the working area (7), the drought degree and other influence factors to realize the adjustment of the size and the speed of water flow so that the water flows into the working area (7);

step seven: controlling a motor I (4) of the salt control assembly (26) to move according to the irrigation requirement of the working area (7), so that a salt rod mounting rack (45) provided with a salt rod of the salt control assembly (26) is contacted with water, and the concentration adjustment of salt is realized;

step eight: the brine gradually flows into the water dispersion collection mechanism (3) at the lower part, and the position of the semi-circular pipe II (22) of the water dispersion collection mechanism (3) at the lower part is adjusted to enable the brine to flow into the semi-circular pipe I (18) at the lower part;

step nine: controlling a water pump connected with the water inlet pipe (10) to be opened, and pumping the saline water in the lower semicircular pipe I (18) into the water collecting tank (2);

step ten: chemical reagents and the like are poured into the water collecting tank (2) to precipitate the salt, and a water pump (13) is connected to pump the low-concentration salt water in the water collecting tank (2) into the water supply tank (1) to realize water circulation.

2. The irrigation and drainage cooperative water saving accurate salt control system according to claim 1, characterized in that: the upper part of the water supply tank (1) is fixedly communicated with the first water inlet pipe (8), and the lower part of the water supply tank (1) is fixedly communicated with the water outlet pipe (9).

3. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 2, characterized in that: the fixed intercommunication in header tank (2) upper portion inlet tube two (10), fixed intercommunication desalination pipe (12) in header tank (2) lower part, feed water tank (1) fixed connection connect water pump (13), connect water pump (13) fixed connection header tank (2).

4. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 1, characterized in that: the water dispersion collection mechanism (3) comprises a frame body (15), a set of water through grooves (16) are formed in a vertical plate of the frame body (15), a set of water through holes (17) are formed in a bottom plate of the frame body (15), the water through holes (17) communicate with a second frame body (20), the frame body (20) is fixedly connected with the first semicircular pipe (18), the frame body (20) corresponds to the first semicircular pipe (18) and is provided with a circular groove (19), the second frame body (20) is fixedly connected with a second motor (25), an output shaft of the second motor (25) penetrates through the second frame body (20), an output shaft of the second motor (25) is fixedly connected with a gear (24), the gear (24) is meshed with a gear ring (23), the gear ring (23) is arranged in the circular groove (19), the gear ring (23) is connected with the second frame body (20) through a bearing, the gear ring (23) is fixedly connected with the second semicircular pipe (22), the second semicircular pipe (22) is matched with the circular groove (19), the second semicircular pipe (22) is matched with the first semicircular pipe (18), the second frame body (20) is fixedly connected with the semicircular pipe (21), and is fixedly connected with a water pipe (14) at a higher position, the upper end of the frame body (20) at a high position is fixedly connected with the bottom of the water channel (14).

5. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 4, wherein: adjusting during semicircle pipe two (22) position, open motor two (25), motor two (25) drive gear (24) rotate, gear (24) drive gear ring (23) rotate, gear ring (23) drive semicircle pipe two (22) rotate, realize semicircle pipe two (22) position adjustment.

6. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 4, wherein: accuse salt subassembly (26) includes U groove (28), U groove (28) fixed connection U frame (27), U groove (28) fixed connection cylinder (29), cylinder (29) fixed connection circular plate (34), circular plate (34) fixed connection circular rod two (35), circular rod two (35) fixed connection cylinder (33), cylinder (33) are provided with oblique shape ring rail (36), U groove (28) fixed connection consistency transmitter (6), U frame (27) fixed connection motor (4), the output shaft of motor (4) passes U frame (27), the output shaft fixed connection circular shaft (31) of motor (4), a set of evenly distributed's of circular shaft (31) fixed connection L shape pole (32), every L shape pole (32) rotate respectively and connect salt stick (45).

7. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 6, characterized in that: salt stick mounting bracket (45) is including circle axle two (42), L shape pole (32) are rotated and are connected circle axle two (42), circle axle two (42) fixed connection plectane two (41), plectane two (41) fixed connection L post (40), L post (40) fixed connection mounting panel (37), a set of installation pole (38) of mounting panel (37) fixed connection, installation pole (38) are provided with a set of mounting hole (39), circle axle two (42) fixed connection L shape pole two (43), L shape pole two (43) fixed connection ball (44), ball (44) set up in the ring track (36) that appears to one side.

8. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 7, characterized in that: adjustment during salt stick mounting bracket (45) position, control a motor (4) rotate, a motor (4) drive L shape pole (32) are public, L shape pole (32) drive salt stick mounting bracket (45) swing, salt stick mounting bracket (45) swing is simultaneously ball (44) are followed oblique shape ring rail (36) remove, ball (44) drive two (43) swings in L shape pole, two (43) drives in L shape pole two (41) swings in the plectane, two (41) drives in the plectane L post (40), mounting panel (37) reach installation pole (38) swing.

9. The irrigation and drainage cooperative water-saving accurate salt control system according to claim 7, characterized in that: different during salt stick mounting bracket (45) installation salt stick, the different salt stick of mounting dimension and quantity, and salt stick is in position difference on installation pole (38), when salt stick mounting bracket (45) is in its stroke bottom, the different salt stick solution velocity of size is different, and the salt stick of position difference is different with the position of inserting the aquatic, realizes the accurate adjustment of salt concentration.

10. The irrigation and drainage cooperative water saving accurate salt control system according to claim 6, characterized in that: the motor I (4), the motor II (25), the concentration sensor (6) and the connection water pump (13) are respectively electrically connected with a controller.