CN111719518A - Agricultural water control system - Google Patents

Abstract

The invention provides an agricultural water control system which comprises a switching pool, wherein first connecting structures are arranged on four sides of the switching pool; the first connecting structure at one side is detachably connected with the switching pool, and the first connecting structure is symmetrical to the pipeline water control device which is correspondingly connected with a farmland; the two first connecting structures on the two sides are connected with a water control device through pipelines to drain farmland water; be equipped with first spout in the switching pond, first spout corresponds four first connection structure sets up, just be equipped with rotary type regulation structure in the first spout, rotary type regulation structure controls into water or drainage.

Description

Agricultural water control system

Technical Field

The invention relates to the technical field of agricultural irrigation, and mainly relates to an agricultural water control system.

Background

Agricultural irrigation mainly refers to irrigation operation performed on agricultural cultivation areas. Agricultural irrigation methods can be generally divided into traditional ground irrigation, general sprinkler irrigation and micro irrigation.

Current farmland is carrying out the delivery water through the ditch when irrigating, and when needs irrigate, only need open the opening that corresponds, water direct entry to appointed in the field.

However, since different fields have different terrains, if the open irrigation is uniformly performed, the water amount in the field with the lower terrains is particularly large, which causes the water amount to be excessive, thereby leading to the technical problem of crop death.

Disclosure of Invention

The invention provides an agricultural water control system which is used for solving the technical problem that due to the fact that different field terrains are different, if opening irrigation is uniformly carried out, the water quantity in a field with a lower terrains is extremely large, the water quantity is too much, and crops die.

In order to achieve the purpose, the invention provides the following technical scheme: an agricultural water control system comprises a switching pool, wherein first connecting structures are arranged on four sides of the switching pool;

the first connecting structure at one side is detachably connected with the switching pool, and the first connecting structure is symmetrical to the pipeline water control device which is correspondingly connected with a farmland;

the two first connecting structures on the two sides are connected with a water control device through pipelines to drain farmland water;

be equipped with first spout in the switching pond, first spout corresponds four first connection structure sets up, just be equipped with rotary type regulation structure in the first spout, rotary type regulation structure controls into water or drainage.

Furthermore, the switching pond is the square setting, first connection structure includes four cell type structures, four the connection can be dismantled to the cell type structure the switching pond, four the cell type structure inboard all is equipped with a plurality of first connecting grooves, and is a plurality of first connecting groove all is type "U" type setting, and is a plurality of the connection aqueduct can be dismantled respectively to first connecting groove.

Furthermore, the longitudinal heights of the inner channel and the outer channel of the first connecting grooves are sequentially increased, and the transverse widths of the first connecting grooves are also sequentially increased.

Furthermore, a water inlet is formed in one side of the first connecting frame of the water control device, and two water outlets are formed in two sides of the water inlet and in one end, far away from the water inlet, of the first connecting frame;

a lifting type water blocking structure is arranged on one side above the first connecting frame, and a floater water level sensing structure is arranged on one side of the lifting type water blocking structure and in the first connecting frame.

Furthermore, the two water outlets are arranged obliquely towards one side of the water inlet, and the inclination angle is 30-45 degrees.

Further, over-and-under type water-blocking structure includes two first connecting plates, two first connecting plate inboard all is equipped with first spout, be equipped with first lead screw and first slide bar in the first spout respectively, first lead screw with first slide bar sets up respectively two in the first spout, just first lead screw one end is equipped with a driving motor, a driving motor can dismantle connect in the inboard upper end of first spout, just first lead screw with first slide bar all rotates connects the breakwater, the inboard below of first connection frame is equipped with the breakwater, the breakwater top is equipped with the second spout, breakwater sliding connection the second spout.

Further, float water level response structure includes the second connecting plate, second connecting plate inboard is equipped with the third spout, be equipped with the second lead screw in the third spout, the second lead screw runs through the second connecting plate, just end bearing connects about the second lead screw the second connecting plate, second lead screw upper end is equipped with first rotatory piece, the second lead screw rotates connects first regulating plate, first regulating plate below is equipped with first connecting pipe, the first slide bar of the inboard sliding connection of first connecting pipe, first slide bar lower extreme is equipped with the float.

Further, the rotary adjusting structure comprises a first connecting ring, the first connecting ring is slidably connected with the four first chutes, the inner side of the first connecting ring is symmetrically provided with two fourth chutes, the two fourth chutes are slidably connected with two guide pipes, a third connecting plate is arranged above the inner ends of the two guide pipes, the third connecting plate is provided with a chute, a box cover is arranged above the switching pool, the inner side of the box cover is provided with a third driving motor, a driving shaft of the third driving motor is connected with a first rotating disk, two limiting rods are symmetrically arranged below the first rotating disk, the limiting rods are slidably connected with the chute, the third connecting plate is provided with a fifth chute, a third sliding rod is arranged in the fifth chute, the third sliding rod is slidably connected with a first sliding strip, and the first sliding strip is detachably connected with the first connecting ring, and a first spring is arranged on the third sliding rod, and one end of the first spring is connected with the first sliding strip in an extruding manner.

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

the water storage system is provided with a switching pool, and water in the water storage pool is guided into the switching pool through a pipeline;

then the switching pool is provided with a first connecting structure so as to be connected with connecting pipes with different pipe diameters for corresponding drainage;

then, by arranging the water control device, corresponding water storage of a single field can be realized according to the requirement;

when water is not used, the corresponding water control device which is reversely arranged drains, and the rotary adjusting structure realizes the switching of water in two directions in the switching pool, thereby realizing drainage, so that the drainage pipe can be embedded below the water inlet pipe, and the land is saved more.

Drawings

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

FIG. 2 is a schematic view of the structure of the transfer tank of the present invention;

FIG. 3 is a schematic view of the structure of the water control device of the present invention;

FIG. 4 is a schematic view of the lift-type water-blocking structure of the present invention;

FIG. 5 is a schematic view of the float water level sensing structure of the present invention;

FIG. 6 is a schematic view of a rotary adjustment mechanism of the present invention;

FIG. 7 is a schematic diagram of a third connecting plate structure according to the present invention;

FIG. 8 is a schematic view of the connection of the stop lever of the present invention.

In the figure: 1-an adapting tank, 11-a first sliding chute, 2-a first connecting structure, 21-a groove structure, 22-a first connecting chute, 23-a water guide pipe, 3-a water control device, 31-a first connecting frame, 32-a water inlet, 33-a water outlet, 34-a lifting water-blocking structure, 341-a first connecting plate, 342-a first sliding chute, 343-a first screw rod, 344-a first sliding rod, 345-a first driving motor, 346-a water baffle, 35-a floater water level sensing structure, 351-a second connecting plate, 352-a third sliding chute, 353-a second screw rod, 354-a first rotating block, 355-a first adjusting plate, 356-a first connecting pipe, 357-a first sliding rod, 358-a floater, 36-a water baffle, 361-a second sliding chute, 4-rotary adjusting structure, 41-first connecting ring, 42-fourth sliding chute, 43-guide tube, 44-third connecting plate, 441-fifth sliding chute, 442-third sliding bar, 443-first sliding bar, 444-first spring, 45-inclined chute, 46-third driving motor, 47-first rotating disc, 48-limiting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an agricultural water control system includes a switching tank 1, wherein first connecting structures 2 are disposed on four sides of the switching tank 1;

the first connecting structure 2 at one side is detachably connected with a reservoir, the first connecting structure is symmetrical with the pipeline water control devices 3, and the water control devices 3 are correspondingly connected with farmlands;

the two first connecting structures 2 on the two sides are connected with a water control device through pipelines to drain farmland water;

be equipped with first spout 11 in the switching pond 1, first spout 11 corresponds four first connection structure 2 sets up, just be equipped with rotary type adjustment structure 4 in the first spout 11, rotary type adjustment structure 4 is controlled into water or the drainage.

In an embodiment, referring to fig. 1-2, the adapting tank 1 is square, the first connecting structure 2 includes four groove-shaped structures 21, the four groove-shaped structures 21 are detachably connected to the adapting tank 1, a plurality of first connecting grooves 22 are disposed on inner sides of the four groove-shaped structures 21, the plurality of first connecting grooves 22 are U-like, and the plurality of first connecting grooves 22 are detachably connected to the water guiding pipe 23.

In an embodiment, referring to fig. 1-2, the first connecting grooves 22 are sequentially increased in height from the longitudinal direction of the inner and outer tracks, and are sequentially increased in transverse width.

In an embodiment, referring to fig. 3-5, the water control device 3 includes a first connection frame 31, a water inlet 32 is disposed on one side of the first connection frame 31, and two water outlets 33 are disposed on the first connection frame 31 on two sides of the water inlet 32 and on an end far away from the water inlet 32;

a lifting water blocking structure 34 is arranged on one side above the first connecting frame 31, and a floater water level sensing structure 35 is arranged on one side of the lifting water blocking structure 34 and in the first connecting frame 31.

In an embodiment, referring to fig. 3 to 5, the two water outlets 33 are both inclined toward one side of the water inlet 32, and the inclination angle is 30 to 45 degrees.

In an embodiment, referring to fig. 3 to 5, the lifting water blocking structure 34 includes two first connection plates 341, first sliding grooves 342 are respectively disposed on inner sides of the two first connection plates 341, first screw rods 343 and first sliding rods 344 are respectively disposed in the first sliding grooves 342, the first screw rods 343 and the first sliding rods 344 are respectively disposed in the two first sliding grooves 342, a first driving motor 345 is disposed at one end of the first screw rods 343, the first driving motor 345 is detachably connected to an upper end of an inner side of the first sliding grooves 342, the first screw rods 343 and the first sliding rods 344 are both rotatably connected to a water blocking plate 346, a water blocking strip 36 is disposed below an inner side of the first connection frame 31, a second sliding groove 361 is disposed above the water blocking strip 36, and the water blocking plate 346 is slidably connected to the second sliding groove 361.

In an embodiment, referring to fig. 3 to 5, the float water level sensing structure 35 includes a second connecting plate 351, a third sliding groove 352 is disposed inside the second connecting plate 351, a second screw rod 353 is disposed inside the third sliding groove 352, the second screw rod 353 penetrates through the second connecting plate 351, an upper end and a lower end of the second screw rod 353 are connected to the second connecting plate 351 through bearings, a first rotating block 354 is disposed at an upper end of the second screw rod 353, the second screw rod 353 is rotatably connected to a first adjusting plate 355, a first connecting pipe 356 is disposed below the first adjusting plate 355, a first sliding rod 357 is slidably connected to an inner side of the first connecting pipe 356, and a float 358 is disposed at a lower end of the first sliding rod 357.

In an embodiment, referring to fig. 6 to 8, the rotary adjusting structure 4 includes a first connecting ring 41, the first connecting ring 41 is slidably connected to the four first chutes 11, two fourth chutes 42 are symmetrically disposed on an inner side of the first connecting ring 41, two guide tubes 43 are slidably connected to the two fourth chutes 42, a third connecting plate 44 is disposed above inner ends of the two guide tubes 43, a chute 45 is disposed on the third connecting plate 44, a cover is disposed on the upper side of the transfer pool 1, a third driving motor 46 is disposed on an inner side of the cover, a driving shaft of the third driving motor 46 is connected to a first rotating disc 47, two limiting rods 48 are symmetrically disposed below the first rotating disc 47, the limiting rods 48 are slidably connected to the chute 45, a fifth chute 441 is disposed on the third connecting plate 44, a third sliding rod 442 is disposed in the fifth chute 441, the third sliding bar 442 is slidably connected with a first sliding bar 443, the first sliding bar 443 is detachably connected with the first connecting ring 41, and a first spring 444 is arranged on the third sliding bar 442, and one end of the first spring 444 is connected with the first sliding bar 443 in a pressing manner.

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

Claims (8)

1. An agricultural water control system, includes switching pond (1), its characterized in that: four sides of the switching pool (1) are provided with first connecting structures (2);

the first connecting structure (2) on one side is detachably connected with a reservoir, the first connecting structure is symmetrical with the pipeline water control devices (3), and the water control devices (3) are correspondingly connected with farmlands;

the two first connecting structures (2) on the two sides are connected with a water control device through pipelines to drain farmland water;

be equipped with first spout (11) in switching pond (1), first spout (11) correspond four first connection structure (2) set up, just be equipped with rotary type adjustment structure (4) in first spout (11), water or drainage are controlled in rotary type adjustment structure (4).

2. An agricultural water control system according to claim 1, wherein: switching pond (1) is the square setting, first connection structure (2) are including four cell type structure (21), four cell type structure (21) can be dismantled the connection switching pond (1), four cell type structure (21) inboard all is equipped with a plurality of first connecting grooves (22), and is a plurality of first connecting groove (22) all are type "U" type setting, and are a plurality of connection aqueduct (23) can be dismantled respectively in first connecting groove (22).

3. An agricultural water control system according to claim 2, wherein: the longitudinal heights of the inner and outer channels of the first connecting grooves (22) are sequentially increased, and the transverse widths of the first connecting grooves are also sequentially increased.

4. An agricultural water control system according to claim 1, wherein: the water control device (3) comprises a first connecting frame (31), a water inlet (32) is formed in one side of the first connecting frame (31), and two water outlets (33) are formed in the first connecting frame (31) on two sides of the water inlet (32) and at one end far away from the water inlet (32);

a lifting type water blocking structure (34) is arranged on one side above the first connecting frame (31), and a floater water level sensing structure (35) is arranged on one side of the lifting type water blocking structure (34) and in the first connecting frame (31).

5. An agricultural water control system according to claim 4, wherein: the two water outlets (33) are arranged obliquely to one side of the water inlet (32), and the inclination angle is 30-45 degrees.

6. An agricultural water control system according to claim 4, wherein: the lifting water-blocking structure (34) comprises two first connecting plates (341), the inner sides of the two first connecting plates (341) are respectively provided with a first sliding chute (342), a first screw rod (343) and a first sliding rod (344) are respectively arranged in the first sliding groove (342), the first screw rod (343) and the first sliding rod (344) are respectively arranged in the two first sliding grooves (342), and one end of the first screw rod (343) is provided with a first driving motor (345), the first driving motor (345) is detachably connected with the upper end of the inner side of the first sliding groove (342), and the first screw rod (343) and the first sliding rod (344) are both rotationally connected with a water baffle (346), a water retaining bar (36) is arranged below the inner side of the first connecting frame (31), a second sliding groove (361) is arranged above the water retaining bar (36), and the water retaining plate (346) is in sliding connection with the second sliding groove (361).

7. An agricultural water control system according to claim 4, wherein: the floater water level sensing structure (35) comprises a second connecting plate (351), a third sliding groove (352) is formed in the inner side of the second connecting plate (351), a second screw rod (353) is arranged in the third sliding groove (352), the second screw rod (353) penetrates through the second connecting plate (351), the upper end and the lower end of the second screw rod (353) are connected with the second connecting plate (351) through bearings, a first rotating block (354) is arranged at the upper end of the second screw rod (353), the second screw rod (353) is rotatably connected with a first adjusting plate (355), a first connecting pipe (356) is arranged below the first adjusting plate (355), a first sliding rod (357) is slidably connected to the inner side of the first connecting pipe (356), and a floater (358) is arranged at the lower end of the first sliding rod (357).

8. An agricultural water control system according to claim 1, wherein: the rotary type adjusting structure (4) comprises a first connecting ring (41), the first connecting ring (41) is in sliding connection with four first chutes (11), the first connecting ring (41) is symmetrically provided with two fourth chutes (42) and two guide pipes (43) which are in sliding connection with the fourth chutes (42) and are arranged above the inner ends of the guide pipes (43), a chute (45) is arranged on the third connecting plate (44), a box cover is arranged above the switching pool (1), a third driving motor (46) is arranged on the inner side of the box cover, the third driving motor (46) is in driving shaft connection with a first rotating disc (47), two limiting rods (48) are symmetrically arranged below the first rotating disc (47), the limiting rods (48) are in sliding connection with the chute (45), and a fifth chute (441) is arranged on the third connecting plate (44), a third sliding bar (442) is arranged in the fifth sliding groove (441), the third sliding bar (442) is connected with a first sliding bar (443) in a sliding manner, the first sliding bar (443) is detachably connected with the first connecting ring (41), a first spring (444) is arranged on the third sliding bar (442), and one end of the first spring (444) is connected with the first sliding bar (443) in an extruding manner.

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