CN213719175U - Throttling drip irrigation system - Google Patents

Abstract

The utility model relates to an agricultural production's field discloses a throttle drip irrigation system, and the water delivery branch pipe of solving current throttle drip system is plugged up by the clod easily, can't be in time for the problem that the fruit tree watered, and it includes water delivery tank, water delivery person in charge, water delivery tank and water delivery person in charge through connection, the last through connection of water delivery person in charge of has a plurality of water delivery branch pipes, the root water delivery of water delivery branch pipe towards the fruit tree, the terminal delivery port department of water delivery branch pipe is provided with the pipeline water dropper, the pipeline water dropper includes a plurality of lamella, will block up the clod softening in pipeline water dropper department from this, and the lamella slowly rises by water to open, makes clod and pipeline water dropper separate, and then dredge the pipeline water dropper, in time waters for the fruit tree, improves the production efficiency of fruit tree.

Description

Throttling drip irrigation system

Technical Field

The application relates to the field of agricultural production, in particular to a throttling drip irrigation system.

Background

The drip irrigation method is a commonly used irrigation method for fruit trees, and is an irrigation method for slowly applying water drops or fine water flow to the root area of the fruit trees, so that enough water is provided for the fruit trees in the growth period, the accurate irrigation of an orchard is realized, the water is saved, the normal growth and fruiting of the fruit trees are promoted, and the production efficiency of the fruit trees is improved.

As shown in fig. 1, the existing drip irrigation system includes a water delivery tank 1 and a water delivery main pipe 2, the water delivery tank 1 is connected to the water delivery main pipe 2 in a penetrating manner, the water delivery main pipe 2 is suspended on a branch of a fruit tree, a plurality of water delivery branch pipes 3 are arranged on the water delivery main pipe 2 in a penetrating manner, the water delivery branch pipes 3 are perpendicularly connected to the water delivery main pipe 2, a tail end water outlet of each water delivery branch pipe 3 delivers water to the root of the fruit tree, and the drip irrigation system delivers the water in the water delivery tank 1 to the root of the fruit tree through the water delivery main pipe 2 and the water delivery branch pipes 3 to provide water for the fruit tree.

The following disadvantages exist for the related art among the above: as the tail end water outlet of the water delivery branch pipe 3 directly faces the root of the fruit tree for water delivery, mud in the soil can enter the tail end water outlet of the water delivery branch pipe 3 in rainy days, and the mud left at the tail end water outlet is solidified into mud blocks in sunny days, so that the tail end water outlet is blocked, and the water delivery branch pipe 3 cannot timely water the fruit tree.

SUMMERY OF THE UTILITY MODEL

In order to improve irrigation system's irrigation efficiency, reduce the condition that the terminal delivery port of water delivery branch pipe was plugged up by the clod, this application provides a throttle drip irrigation system.

The application provides a throttle drip irrigation system adopts following technical scheme:

the throttling drip irrigation system comprises a water delivery tank and a water delivery main pipe, wherein the water delivery tank is in through connection with the water delivery main pipe, a plurality of water delivery branch pipes are in through connection with the water delivery main pipe, the tail end water outlets of the water delivery branch pipes deliver water towards the roots of fruit trees, and pipeline drippers are arranged at the tail end water outlets of the water delivery branch pipes and comprise a plurality of petals.

Through adopting above-mentioned technical scheme, the pipeline water dropper is direct to contact with ground, can dry up in pipeline water dropper department after mud gets into the pipeline water dropper, forms the mud piece and blocks up the pipeline water dropper, because the pipeline water dropper is equipped with a plurality of lamellas, the moisture can permeate out from the gap between the lamella, will block up the mud piece softening in pipeline water dropper department, the lamella slowly rises by water and opens, then with mud piece and pipeline water dropper separation, and then dredge the pipeline water dropper, in time water for the fruit tree.

Optionally, it is a plurality of be equipped with the infiltration seam between the lamella, infiltration seam quantity is a plurality of, the length of infiltration seam is the same.

Through adopting above-mentioned technical scheme, the infiltration seam is used for the inside moisture of pipeline to ooze, and then makes the pipeline dripper of petal form slowly open, and the infiltration seam that length is the same makes each lamella pipeline dripper homoenergetic effectual opening, the effect of reinforcing mediation pipeline dripper.

Optionally, the height of the water seepage seam is lower than the height of the pipe orifice of the water delivery branch pipe.

Through adopting above-mentioned technical scheme, when the infiltration seam infiltration, slowly by the water rise to open messenger's petal column structure, for making petal column structure normally open, the seam height that cracks of infiltration seam need be less than the mouth of pipe height of water delivery branch pipe, make the pipeline water dropper slowly by the water rise to open, dredge the mud piece that solidifies.

Optionally, the main water delivery pipe and the branch water delivery pipe are both double-layer sleeves.

Through adopting above-mentioned technical scheme, because the water delivery is responsible for and is carried the branch pipe under the chilly condition of weather, the phenomenon that the frost crack can appear in the pipeline, causes the pipeline to leak, can not in time carry the root of fruit tree with moisture, sets up double-deck sleeve pipe and can reduce the condition that the pipeline frost crack leaked.

Optionally, the pipe dripper is inserted into the tail end of the water delivery branch pipe.

By adopting the technical scheme, because the water delivery branch pipe is of a double-layer sleeve structure, the pipeline dripper is inserted into a gap between the double-layer sleeves, and after the pipeline dripper is opened for a plurality of times, the petal-shaped structure is damaged and falls off, so that the pipeline dripper can be detached from the water delivery branch pipe.

Optionally, a rubber ring is arranged at the insertion position of the water delivery branch pipe and the pipeline dripper.

Through adopting above-mentioned technical scheme, set up the rubber circle in the grafting department of water delivery branch pipe and pipeline water dropper, can prevent effectively that earth from getting into the double-deck sleeve structure of water delivery branch pipe, the frictional force of further reinforcing water delivery branch pipe and the grafting of pipeline water dropper simultaneously reduces the possibility that the pipeline water dropper drops.

Optionally, a plurality of first throttle valves are arranged on the water delivery main pipe, and the first throttle valves are located between the water delivery branch pipes arranged at intervals.

Through adopting above-mentioned technical scheme, all there is a water delivery branch pipe between per two first choke valves, and the choke valve is used for controlling flow area, adjusts the rivers size in the water delivery main pipe, enlarges the accent of the first choke valve that is close to water delivery box, and when keeping away from water delivery box's first choke valve accent, can lead to the rivers grow of water delivery branch pipe to realize the regulation of water yield, thereby adapt to the demand of watering of the fruit tree in different growth periods.

Optionally, a second throttle valve is arranged on the water delivery branch pipe.

Through adopting above-mentioned technical scheme, the second choke valve is used for controlling the water yield size of water delivery branch pipe, when some fruit trees need not water to it, can directly close the second choke valve, does not influence other fruit trees that need water simultaneously and drips irrigation, plays the effect of water conservation, adapts to the growth demand of fruit tree, improves the production efficiency of fruit tree.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pipeline water dropper is directly contacted with the ground, when slurry enters the pipeline water dropper, the slurry is dried up at the pipeline water dropper, a mud block is formed to block the pipeline water dropper, because the pipeline water dropper is provided with a plurality of flaps, water can permeate from gaps among the flaps, the mud block blocked at the pipeline water dropper is softened, the flaps are slowly expanded by water, then the mud block is separated from the pipeline water dropper, the pipeline water dropper is dredged, and the fruit tree is watered in time;

2. the water delivery branch pipe is of a double-layer sleeve structure, so that the pipeline dripper is inserted into a gap between the double-layer sleeves, when the pipeline dripper is opened for multiple times and the petal-shaped structure is damaged and falls off, the pipeline dripper can be detached from the water delivery branch pipe, and the rubber ring is arranged at the splicing part of the water delivery branch pipe and the pipeline dripper, so that soil can be effectively prevented from entering the double-layer sleeve structure of the water delivery branch pipe, meanwhile, the rubber ring further enhances the splicing friction force of the water delivery branch pipe and the pipeline dripper, and the possibility of falling off of the pipeline dripper is reduced;

3. all there is a water delivery branch pipe between per two first choke valves, the choke valve is used for controlling flow area, adjust the rivers size in the water delivery main pipe, the demand of watering of the fruit tree of different growth periods is adapted to, the second choke valve is used for controlling the water yield size of water delivery branch pipe, when some fruit trees need not water to it, can directly close the second choke valve, do not influence other fruit trees that need water simultaneously and drip irrigation, play the effect of water conservation, adapt to the growth demand of fruit tree, the production efficiency of improvement fruit tree.

Drawings

Fig. 1 is a schematic view of a conventional dropper system.

Fig. 2 is a schematic diagram of the structure of a throttled drip irrigation system with a pipe dripper.

Fig. 3 is a schematic structural diagram of a water delivery branch pipe and a pipeline dripper.

FIG. 4 is a cross-sectional view of a water delivery manifold and a pipe dripper.

Description of reference numerals: 1. a water delivery tank; 2. a water delivery main pipe; 21. a first throttle valve; 3. a water delivery branch pipe; 31. a second throttle valve; 32. an inner tube; 33. an outer tube; 34. a bolt; 35. a rubber ring; 4. a pipe dripper; 41. a connecting portion; 42. a flap; 43. and (5) water seepage seams.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses a throttling drip irrigation system.

Referring to fig. 2, a throttling drip irrigation system includes a water delivery tank 1, a main water delivery pipe 2, and branch water delivery pipes 3.

The water delivery tank 1 is connected with the water delivery main pipe 2 in a penetrating manner, the water delivery main pipe 2 penetrates through the fruit forest, the water delivery main pipe 2 is vertically provided with a plurality of water delivery branch pipes 3 in a penetrating manner, the water delivery branch pipes 3 are located below the water delivery main pipe 2, the upper ends of the water delivery branch pipes 3 are connected with the water delivery main pipe 2 in a penetrating manner, the tail end water outlets of the water delivery branch pipes 3 are watered towards the roots of fruit trees, each water delivery branch pipe 3 corresponds to one fruit tree, and it is guaranteed that each fruit tree is watered by the water delivery branch pipe 3.

Be provided with a plurality of first choke valves 21 on the water delivery main pipe 2, first choke valve 21 interval sets up, all have a water delivery branch pipe 3 between per two first choke valves 21, the water yield of the water delivery branch pipe 3 between every two adjustable two first choke valves 21 of first choke valve 21, when the first choke valve 21 that is close to 1 one end of water delivery case is adjusted greatly, when keeping away from 1 one end of water delivery case first choke valve 21 and adjusting greatly, the water yield of water delivery branch pipe 3 can increase to adjust the water yield size that the fruit tree irrigated.

All be provided with second choke valve 31 on every water delivery branch pipe 3, second choke valve 31 makes the irrigation water yield control to the fruit tree more accurate, when some fruit trees need not water, directly closes second choke valve 31, does not influence other fruit trees that need water simultaneously and irrigates, provides suitable moisture for the growth of fruit tree, promotes the growth result of fruit tree, improves the production efficiency of fruit tree.

Referring to fig. 3 and 4, a pipeline dripper 4 is arranged at a water outlet at the tail end of the water delivery branch pipe 3, and the pipeline dripper 4 is fixedly inserted into the water outlet at the tail end of the water delivery branch pipe 3.

The pipe dripper 4 comprises a connecting part 41 and petals 42, a plurality of petals 42 enclose into a cylinder and the petals 42 and the connecting part 41 are fixedly connected, the number of the petals 42 is a plurality of, four in the embodiment, water seepage seams 43 are arranged between the petals 42 and the petals 42, the water seepage seams 43 are vertically arranged, the opening height of the water seepage seams 43 is lower than the height of the end orifice of the water delivery branch pipe 3, the number of the water seepage seams 43 is a plurality, the length of each water seepage seam 43 is equal, and the petals 42 and the water seepage seams 43 all extend out of the orifice of the water delivery branch pipe 3.

The water delivery branch pipe 3 and the water delivery main pipe 2 are both of a double-layer sleeve structure, the strength of the water delivery branch pipe 3 and the strength of the water delivery main pipe 2 are further enhanced by the double-layer sleeve, and the condition that the water delivery branch pipe 3 and the water delivery main pipe 2 are frozen to crack and run out in cold weather is reduced.

The water delivery branch pipe 3 comprises an inner pipe 32 and an outer pipe 33, a connecting part 41 is inserted into the tail end of the water delivery branch pipe 3, the connecting part 41 is located between the inner pipe 32 and the outer pipe 33, a bolt 34 penetrates through the outer pipe 33, the bolt 34 is perpendicular to the outer pipe 33, the bolt 34 penetrates through the outer pipe 33 and the inserting part, and the pipe dripper 4 and the water delivery branch pipe 3 are fixed.

The outer side wall of inner tube 32, the inside wall of outer tube 33 are all fixed and are provided with rubber circle 35, are holding connecting portion 41 between two rubber circles 35, and rubber circle 35 further strengthens the stability of connecting portion 41 and inner tube 32, the grafting of outer tube 33, and rubber circle 35 prevents simultaneously that mud from getting into from the space between inner tube 32, the outer tube 33, causes the pipeline dripper 4 unstable with being connected of water delivery branch pipe 3.

The implementation principle of the throttling drip irrigation system in the embodiment of the application is as follows:

when the fruit tree is irrigated, the water delivery tank 1 delivers water flow from the main water delivery pipe 2 to the branch water delivery pipe 3, and the pipeline drippers 4 connected with the water outlets at the tail ends of the branch water delivery pipes 3 deliver water flow to the root area of the fruit tree.

When the pipeline water dropper 4 is plugged up by the mud block, the pipeline water dropper 4 can soften and dredge the mud block plugged at the pipeline water dropper 4 by itself, the water seepage seam 43 can slowly seep water and open the flap 42 at the same time, so that the irrigation work of the fruit tree is completed after the mud block is separated from the flap 42.

When the pipeline water dropper 4 is damaged and needs to be replaced, the pipeline water dropper 4 is pulled out from the tail end of the water delivery branch pipe 3 through the dismounting bolt 34, and the pipeline water dropper 4 is conveniently dismounted and replaced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a throttle drip irrigation system, includes water delivery tank (1), water delivery person in charge (2), water delivery tank (1) is responsible for (2) through connection with the water delivery, the last through connection of water delivery person in charge (2) has a plurality of water delivery branch pipes (3), the root water delivery of the terminal delivery port orientation fruit tree of water delivery branch pipe (3), its characterized in that: the pipeline water dropper is characterized in that a pipeline water dropper (4) is arranged at a water outlet at the tail end of the water delivery branch pipe (3), and the pipeline water dropper (4) comprises a plurality of flaps (42).

2. The throttled drip irrigation system of claim 1, wherein: a plurality of be equipped with water permeability seam (43) between flap (42), water permeability seam (43) quantity is a plurality of, the length of water permeability seam (43) is the same.

3. The throttled drip irrigation system of claim 2, wherein: the height of the water seepage seam (43) is lower than the height of the pipe orifice of the water delivery branch pipe (3).

4. The throttled drip irrigation system of claim 1, wherein: the main water delivery pipe (2) and the branch water delivery pipe (3) are both double-layer sleeves.

5. The throttled drip irrigation system of claim 1, wherein: the pipeline dripper (4) is inserted with the tail end of the water delivery branch pipe (3).

6. The throttled drip irrigation system of claim 1, wherein: and a rubber ring (35) is arranged at the splicing position of the water delivery branch pipe (3) and the pipeline dripper (4).

7. The throttled drip irrigation system of claim 1, wherein: the water delivery main pipe (2) is provided with a plurality of first throttling valves (21), and the first throttling valves (21) are positioned between the water delivery branch pipes (3) which are arranged at intervals.

8. The throttled drip irrigation system of claim 1, wherein: and a second throttling valve (31) is arranged on the water delivery branch pipe (3).

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