CN203924016U - A kind of agricultural drain system - Google Patents

Abstract

The utility model relates to a kind of agricultural drain system, comprise drainage pipeline networks and captation, described drainage pipeline networks comprises main and the arm being connected with main, described main and arm are laid on earth's surface or building, arm and main have certain gradient, wherein, described captation is prismatic pipeline, one end of described prismatic pipeline is connected with arm, the other end of described prismatic pipeline is imbedded field, described prismatic install pipeline have can produce capillary force by the moisture suction that is greater than field capacity in soil to earth's surface, enter the capillary seam of arm.The captation of agricultural drain system of the present utility model adopts prismatic pipeline, can effectively solve the low problem of drainage efficiency of existing capillary penetrating drainage band drainage, can effectively improve drainage efficiency.

Description

A kind of agricultural drain system

Technical field

The utility model relates to farm field irrigation drainage technical field, specifically a kind of agricultural drain system.

Background technology

Irrigation and draining are by artificial means, to meet the important engineering measure of the required moisture of crop growthing development.And in the serious area of waterlogging stain evil, it is particularly important that agricultural drain Facilities Construction seems.At present, agricultural drain can be divided into the forms such as drainage by open canal and hidden pipe, buried drain, and various draining forms all have advantage separately.Wherein, earth's surface is built in drainage by open canal in, be easy to construction, maintenance is convenient, and peasant household more easily accepts, and that closed drainage is laid on is underground, have farmland saving, facilitate the advantages such as do mechanization operation, this water discharge method is that a gutter is installed on the water pipe of main draining, and in gutter top and the perforate of interval, side, utilize hole to collect supersaturation water, import main drainpipe and discharge; Also need, with the coated whole gutter of nonwoven, to fill out rubble and layer of sand grating around, nonwoven and rubble, layer of sand are as filtration beds simultaneously.Because the method draining is the gravity draining realizing by head pressure, therefore, can cause soil particle under head pressure and Action of Gravity Field, sink and together enter in gutter with water, and then cause soil erosion and stop up gutter, when serious, even cause surface subsidence, or be deposited in and on filtering layer nonwoven, cause gutter surface drainage hole to stop up, the drain function of gutter was lost efficacy.Yet the shortcomings such as it is with high investment, easy obstruction but make applying on a large scale of closed drainage run into difficulty.

Capillary penetrating drainage band drainage.This method is perforate on drain header, then by one end Inserting Tube of capillary penetrating drainage band, the other end institute's drainage that tiles, because capillary penetrating drainage band water-absorption surface is laid downwards, the capillary force function of utilizing capillary penetrating drainage band to have when soil supersaturation, on one's own initiative water suck-back is entered in drainage groove, in water suction, because soil particle sinks under Action of Gravity Field, make like this water and soil automatically produce separation, soil particle just can not enter gutter with water, thereby effectively prevented that soil erosion and drainage system from stopping up, the unimpeded nothing that has guaranteed drainage system is stifled.Though can effectively collect moisture, but because the design arrangement unreasonable and discharge pipe line of capillary penetrating drainage band is unreasonable, collected moisture need to import main drainpipe by the some drainage grooves on drainage belt, time used is just longer than traditional gutter water discharge time, therefore, its drainage efficiency is lower, runs into while needing urgent draining, will be difficult to meet actual needs.

Utility model content

The utility model provides a kind of agricultural drain system, has solved that drainage by open canal occupies cultivated land, hidden pipe, the problem such as buried drain is easily stopped up and the drainage efficiency of capillary penetrating drainage band draining is low.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of agricultural drain system, comprise drainage pipeline networks and captation, described drainage pipeline networks comprises main and the arm being connected with main, described main and arm are laid on earth's surface or building, arm and main have certain gradient, wherein, described captation is prismatic pipeline, one end of described prismatic pipeline is connected with arm, the other end of described prismatic pipeline is imbedded field, described prismatic install pipeline have can produce capillary force by the moisture suction that is greater than field capacity in soil to earth's surface, enter the capillary seam of arm.

Further, a kind of preferred version of the present utility model is: described prismatic pipeline is triangular prism-shaped pipeline.

Further, a kind of preferred version of the present utility model is: described capillary seam longitudinally distributes along prismatic pipeline, adjacent between the horizontal range of two capillary seams be 1-3cm, adjacent between the vertical distance of two capillary seams be 0.6-1cm.Capillary seam adopts such design can utilize to greatest extent the surface area of prismatic pipeline on the one hand, reaches maximum capillary action, also can effectively strengthen on the other hand the speed of capillary absorption, effectively improves adsorption efficiency.

Further, a kind of preferred version of the present utility model is: described capillary seam is zigzag along prismatic pipeline and distributes, adjacent between the angle of two capillary seams be 20-25 degree.Capillary seam adopts such design can utilize to greatest extent the surface area of prismatic pipeline on the one hand, reaches maximum capillary action, also can effectively strengthen on the other hand the speed of capillary absorption, effectively improves adsorption efficiency.

Further, a kind of preferred version of the present utility model is: the width of described capillary seam is 0.1-0.3mm.

The width of capillary seam is set as 0.1-0.3mm, can effectively improve the speed of capillary absorption, thereby improves adsorption efficiency.

The beneficial effects of the utility model:

Agricultural drain system of the present utility model can and underdrain drainage by open canal and organically combine, and suits measures to local conditions, and can effectively solve drainage system repeated construction, wastes financial resources, the problem of manpower.

The captation of agricultural drain system of the present utility model adopts prismatic pipeline, can effectively solve the low problem of drainage efficiency of existing capillary penetrating drainage band drainage, can effectively improve drainage efficiency.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of an embodiment of the present utility model;

Fig. 2 is the partial enlarged drawing of A portion in Fig. 1;

Fig. 3 is the structural representation of the captation in Fig. 1;

Fig. 4 is the structural representation of another embodiment of the present utility model;

Fig. 5 is the partial enlarged drawing of B portion in Fig. 4;

Fig. 6 is the structural representation of the captation in Fig. 1;

In figure, 1 is captation, and 2 is arm, and 3 is main, and 4 is tee junction, and 5 is capillary seam, and LH is horizontal range, and LS is vertical distance, and a is angle.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment 1

As Figure 1-3, a kind of agricultural drain system, comprise drainage pipeline networks and captation 1, described drainage pipeline networks is to be embedded in underground pipe network, comprise main 3 and the arm 2 being connected with main 3, described main 3 is embedded in underground with arm 2, arm 2 and main 3 have certain gradient, on arm 2, be provided with tee junction 4, described captation 1 is prismatic pipeline, one end of described prismatic pipeline is connected with arm 2 by tee junction 4, the other end of described prismatic pipeline is imbedded field, described prismatic install pipeline have can produce capillary force by the moisture suction that is greater than field capacity in soil to earth's surface, enter the capillary seam 5 of arm 2.

Described prismatic pipeline is triangular prism-shaped pipeline.

Described capillary seam 5 longitudinally distributes along prismatic pipeline, adjacent between the horizontal range LH of two capillary seams 5 be 1-3cm, adjacent between the vertical distance LS of two capillary seams 5 be 0.6-1cm.The width of described capillary seam 5 is 0.1-0.3mm.Between adjacent in the present embodiment, the horizontal range LH of two capillary seams 5 is 2cm, adjacent between the vertical distance LS of two capillary seams 5 be 0.8m.The width of described capillary seam 5 is 0.2mm.

Comparative example 1

Be with the difference of embodiment 1: described captation 1 is cylindrical pipe.

Comparative example 2

And the difference of embodiment 1 is: described adjacent between the horizontal range LH of two capillary seams 5 be 4cm, adjacent between the vertical distance LS of two capillary seams 5 be 1.5cm.The width of described capillary seam 5 is 0.4mm.

Comparative example 3

And the difference of embodiment 1 is: described adjacent between the horizontal range LH of two capillary seams 5 be 0.5, adjacent between the vertical distance LS of two capillary seams 5 be 0.5cm.The width of described capillary seam 5 is 0.08mm.

Utilize embodiment 1 and the device of comparative example 1-3 to test in laboratory, 1h is respectively embodiment 1 for 3L by the water of captation 1 draining, and comparative example 1 is 1.5L, and comparative example 2 is 2.1L, and comparative example 3 is 1.8L.The efficiency of agricultural drain system of the present utility model and other capillary penetrating drainage band drainage has improved more than 43% as can be seen here.

The agricultural drain system process utilization of nearly 3 years of the present embodiment, respond well, the situation that appearance is stopped up, can discharge moisture unnecessary in farmland timely, keeps the normal growth demand of crops.

Embodiment 2

As Figure 4-Figure 6, a kind of agricultural drain system, comprise drainage pipeline networks and captation 1, described drainage pipeline networks is the irrigation canals and ditches that are laid on ground, described drainage pipeline networks comprises main 3 (trunk canal) and the arm 2 (branch canal) being connected with main 3, arm 2 and main 3 have certain gradient, wherein, described captation 1 is prismatic pipeline, one end of described prismatic pipeline directly extends to arm 2 (branch canal), the other end of described prismatic pipeline is imbedded field, described prismatic install pipeline have can produce capillary force by the moisture suction that is greater than field capacity in soil to earth's surface, enter the capillary seam 5 of arm 2.

Described prismatic pipeline is triangular prism-shaped pipeline.

Described capillary seam 5 is zigzag along prismatic pipeline and distributes, adjacent between the angle a of two capillary seams 5 be 20-25 degree.The width of described capillary seam 5 is 0.1-0.3mm.Between adjacent in the present embodiment, the angle a of two capillary seams 5 is 22 degree.The width of described capillary seam 5 is 0.1mm.

Comparative example 4

Be with the difference of embodiment 2: described captation 1 is cylindrical pipe.

Comparative example 5

Be with the difference of embodiment 2: described capillary seam 5 is zigzag along prismatic pipeline and distributes, adjacent between the angle a of two capillary seams 5 be 50 degree.The width of described capillary seam 5 is 0.08mm.

Comparative example 6

Be with the difference of embodiment 2: described capillary seam 5 is zigzag along prismatic pipeline and distributes, adjacent between the angle a of two capillary seams 5 be 70 degree.The width of described capillary seam 5 is 1mm.

Utilize embodiment 1 and the device of comparative example 1-3 to test in laboratory, 1h is respectively embodiment 1 for 3.2L by the water of captation 1 draining, and comparative example 4 is 1.7L, and comparative example 5 is 2.2L, and comparative example 6 is 1.6L.The efficiency of agricultural drain system of the present utility model and other capillary penetrating drainage band drainage has improved more than 43% as can be seen here.

The agricultural drain system process utilization of nearly 3 years of the present embodiment, respond well, the situation that appearance is stopped up, can discharge moisture unnecessary in farmland timely, keeps the normal growth demand of crops.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (6)

1. an agricultural drain system, comprise drainage pipeline networks and captation, described drainage pipeline networks comprises main and the arm being connected with main, described main and arm are laid on earth's surface or building, arm and main have certain gradient, it is characterized in that: described captation is prismatic pipeline, one end of described prismatic pipeline is connected with arm, the other end of described prismatic pipeline is imbedded field, described prismatic install pipeline have can produce capillary force by the moisture suction that is greater than field capacity in soil to earth's surface, enter the capillary seam of arm.

2. a kind of agricultural drain system according to claim 1, is characterized in that: described prismatic pipeline is triangular prism-shaped pipeline.

3. a kind of agricultural drain system according to claim 1, is characterized in that: described capillary seam longitudinally distributes along prismatic pipeline, adjacent between the horizontal range of two capillary seams be 1-3cm, adjacent between the vertical distance of two capillary seams be 0.6-1cm.

4. a kind of agricultural drain system according to claim 1, is characterized in that: described capillary seam is zigzag along prismatic pipeline and distributes, adjacent between the angle of two capillary seams be 20-25 degree.

5. according to a kind of agricultural drain system described in claim 1-4 any one, it is characterized in that: the width of described capillary seam is 0.1-0.3mm.

6. a kind of agricultural drain system according to claim 5, is characterized in that: the width of described capillary seam is 0.1-0.3mm.