CN205491992U - Efficient water conservation irrigation system - Google Patents

Abstract

The utility model discloses an efficient water conservation irrigation system, permeate sack and secret permeate tube way including water pump, retaining tower, switching -over valve, ground, the nonwoven geotechnique sack that the sack includes the tube -shape is permeated to the ground, the nonwoven geotechnique sack one end opening of tube -shape, the other end is closed to the open end communicate in a delivery port of switching -over valve, underground permeate tube say buried hard pipe and the cladding of planting the district including the embedded in crops in nonwoven geotechnique cloth layer on the hard pipe outer wall, hard pipe intake the end through the tube coupling in the switching -over valve, hard pipe is provided with the head with the relative one end of end of intaking, a plurality of holes of permeating water have been seted up on hard pipe's the pipe wall. The utility model discloses an efficient water conservation irrigation system can effectively practice thrift irrigation water, prevents a large amount of evaporations of water and reduces the loss at the transportation process normal water, and the water pump adopts SLW200 -315GB model centrifugal pump of horizontal axis, and is efficient, energy -conservation, long service life.

Description

A kind of efficient water-saving irrigation system

Technical field

This utility model relates to a kind of irrigation system, particularly relates to the irrigation system of a kind of water saving.

Background technology

Irrigation and water conservancy irrigation system generally includes trench at different levels or the pipelines such as irrigated area diversion, water delivery, water distribution, water-retention, water-break, and corresponding building and the general name of facility, it is to fetch water from water source, carried out the engineering system irrigated by channel, pipeline and annex water delivery, water distribution to farmland, canal irrigation system and pipe irrigation system two class can be divided into.Canal irrigation system is made up of parts such as water distribution engineering and field feed ditch on the ground.Pipe irrigation system is divided into spray irrigation system, drip irrigation system and low pressure pipe irrigation system etc., is mainly made up of stem water intaking pressurization facility, water transfer pipe network and irrigation discharging device three part.Southwest Mountainous Areas in China, due to water intaking difficulty, therefore irrigation water is made full use of and be just particularly important, if irrigation canals and ditches on the ground are used to irrigate simple, then moisture there is also a large amount of evaporating loss while going deep into soil, there is also irrigation water in the stage of irrigation canals and ditches water delivery simultaneously before entering distribution phase with regard to lossy situation, therefore irrigation water utilization rate is relatively low, and consumed energy is the biggest.

Utility model content

Therefore, the purpose of this utility model is to overcome defect of the prior art, it is provided that a kind of mode that can use pipeline irrigation, and irrigation water is delivered to farmland seedlings of cereal crops heel soil region more targetedly, thus reduce water loss, improve the efficient water-saving irrigation system of water use efficiency.

To achieve these goals, a kind of efficient water-saving irrigation system of the present utility model, including water pump, water storage tower, reversal valve, on the ground infiltration cloth bag and subsurface wastewater infiltration system pipeline；The drinking-water pipe of described water pump extend into Water table, and the feed pipe of described water pump is connected to described water storage tower；Described water storage tower is by the water inlet of pipeline connection to described reversal valve, and two outlets of described reversal valve are respectively communicated to described ground infiltration cloth bag and subsurface wastewater infiltration system pipeline；Described ground infiltration cloth bag includes the non-woven geotextile bag of tubular, the non-woven geotextile bag one end open of described tubular, and the other end closes, and opening is communicated in an outlet of described reversal valve；Described subsurface wastewater infiltration system pipeline includes the stereoplasm tube being embedded in the underground in proportion of crop planting district and is coated on the non-woven geotechnical cloth layer on described stereoplasm tube outer wall；The water inlet end of described stereoplasm tube is connected to described reversal valve by pipeline, and one end relative with water inlet end of described stereoplasm tube is provided with end socket, and the tube wall of described stereoplasm tube offers some permeable holes.

As a kind of preferred embodiment of the present utility model, the external sheath in described non-woven geotechnical cloth layer has nylon layer.

As a kind of preferred embodiment of the present utility model, described stereoplasm tube is pvc pipe.

As a kind of preferred embodiment of the present utility model, described water pump uses SLW200-315GB model centrifugal pump of horizontal axis.

Use technique scheme, efficient water-saving irrigation system of the present utility model, during use, by sending in groundwater mining, water storage tower carries out water-retention by water pump；When needs are irrigated, described reversal valve can be switched and make water storage tower be communicated in described ground infiltration cloth bag or subsurface wastewater infiltration system pipeline；Infiltration cloth bag in described ground is owing to using geotechnique's non-woven bag, water can slowly be infiltrated by geotechnique's non-woven bag and enter back into soil, when geotechnique's non-woven bag is set on the ground, the extension path of geotechnique's non-woven bag can be arranged according to actual needs, the water infiltrated effectively is utilized, current uppity defect when overcoming irrigation canals and ditches to irrigate；Described subsurface wastewater infiltration system pipeline is owing to being set to the structure of stereoplasm tube outer cladding non-woven geotechnical cloth layer, and on stereoplasm tube, it is provided with some permeable holes, therefore can be appeared by permeable hole after water enters stereoplasm tube, and infiltrate in soil through non-woven geotechnical cloth layer, thus the root system of crops is irrigated；Non-woven geotextile is in addition to permeable effect, additionally it is possible to stop soil to enter in stereoplasm tube, it is to avoid stereoplasm tube blocks；By the setting of water storage tower, make water-retention have certain pressure, after entering in stereoplasm tube, can speed up the infiltration of water, in keeping intraductal pressure also to be able to more greatly avoid the water penetration return pipe outside pipe simultaneously.Efficient water-saving irrigation system of the present utility model, it is possible to effectively save irrigation water, prevents a large amount of evaporations of water and reduces the loss of water in course of conveying.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings, wherein:

Fig. 1 is structure principle chart of the present utility model.

Fig. 2 is subsurface wastewater infiltration system pipeline and the laying schematic diagram permeating cloth bag on the ground.

Fig. 3 is stereoplasm tube and the structure sectional view of non-woven geotechnical cloth layer in subsurface wastewater infiltration system pipeline.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, this utility model is expanded on further.In the following detailed description, only by the way of explanation, some one exemplary embodiment of the present utility model is described.Undoubtedly, those of ordinary skill in the art will be consequently realised that, in the case of without departing from spirit and scope of the present utility model, can be modified described embodiment by various different modes.Therefore, accompanying drawing and description are inherently the most illustrative rather than are used for limiting scope of the claims.

As it is shown in figure 1, a kind of efficient water-saving irrigation system of the present utility model, including water pump 1, water storage tower 2, reversal valve 3, on the ground infiltration cloth bag 4 and subsurface wastewater infiltration system pipeline 5.

Concrete, the drinking-water pipe 11 of described water pump 1 extend into Water table, and the feed pipe 12 of described water pump 1 is connected to described water storage tower 2；The described water storage tower 2 water inlet by pipeline connection to described reversal valve 3, two outlets of described reversal valve 3 are respectively communicated to described ground infiltration cloth bag 4 and subsurface wastewater infiltration system pipeline 5.

As in figure 2 it is shown, described ground infiltration cloth bag 4 includes the non-woven geotextile bag of tubular, the non-woven geotextile bag one end open of described tubular, the other end closes, and opening is communicated in an outlet of described reversal valve.

As it is shown on figure 3, described subsurface wastewater infiltration system pipeline 5 includes the stereoplasm tube 51 being embedded in the underground in proportion of crop planting district 100 and is coated on the non-woven geotechnical cloth layer 52 on described stereoplasm tube 51 outer wall；The water inlet end of described stereoplasm tube 51 is connected to described reversal valve 3 by pipeline, and one end relative with water inlet end of described stereoplasm tube 51 is provided with end socket 53, and the tube wall of described stereoplasm tube 51 offers some permeable holes 54.

Further, the external sheath in described non-woven geotechnical cloth layer 52 has nylon layer 55, and described non-woven geotechnical cloth layer can be played protective action by described nylon layer 55, reduces the abrasion of non-woven geotechnical cloth layer.

As a kind of preferred embodiment of the present utility model, described stereoplasm tube 51 can be pvc pipe, plays the effect of circulation irrigation water and supports the effect of non-woven geotechnical cloth layer 52.

Concrete, in this utility model embodiment, described water pump uses SLW200-315GB model centrifugal pump of horizontal axis, and efficiency is high, and energy-conservation, service life is long.

Use technique scheme, efficient water-saving irrigation system of the present utility model, during use, by sending in groundwater mining, water storage tower carries out water-retention by water pump；When needs are irrigated, described reversal valve can be switched and make water storage tower be communicated in described ground infiltration cloth bag or subsurface wastewater infiltration system pipeline；Infiltration cloth bag in described ground is owing to using geotechnique's non-woven bag, water can slowly be infiltrated by geotechnique's non-woven bag and enter back into soil, when geotechnique's non-woven bag is set on the ground, the extension path of geotechnique's non-woven bag can be arranged according to actual needs, the water infiltrated effectively is utilized, current uppity defect when overcoming irrigation canals and ditches to irrigate；Described subsurface wastewater infiltration system pipeline is owing to being set to the structure of stereoplasm tube outer cladding non-woven geotechnical cloth layer, and on stereoplasm tube, it is provided with some permeable holes, therefore can be appeared by permeable hole after water enters stereoplasm tube, and infiltrate in soil through non-woven geotechnical cloth layer, thus the root system of crops is irrigated；Non-woven geotextile is in addition to permeable effect, additionally it is possible to stop soil to enter in stereoplasm tube, it is to avoid stereoplasm tube blocks；By the setting of water storage tower, make water-retention have certain pressure, after entering in stereoplasm tube, can speed up the infiltration of water, in keeping intraductal pressure also to be able to more greatly avoid the water penetration return pipe outside pipe simultaneously.Efficient water-saving irrigation system of the present utility model, it is possible to effectively save irrigation water, prevents a large amount of evaporations of water and reduces the loss of water in course of conveying.

Obviously, above-described embodiment is only for clearly demonstrating example, and not restriction to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here without also cannot all of embodiment be given exhaustive.And among the protection domain that the obvious change thus extended out or variation are created still in this utility model.

Claims (4)

1. an efficient water-saving irrigation system, it is characterised in that: include water pump, water storage tower, reversal valve, on the ground infiltration cloth bag and subsurface wastewater infiltration system pipeline；The drinking-water pipe of described water pump extend into Water table, and the feed pipe of described water pump is connected to described water storage tower；Described water storage tower is by the water inlet of pipeline connection to described reversal valve, and two outlets of described reversal valve are respectively communicated to described ground infiltration cloth bag and subsurface wastewater infiltration system pipeline；Described ground infiltration cloth bag includes the non-woven geotextile bag of tubular, the non-woven geotextile bag one end open of described tubular, and the other end closes, and opening is communicated in an outlet of described reversal valve；Described subsurface wastewater infiltration system pipeline includes the stereoplasm tube being embedded in the underground in proportion of crop planting district and is coated on the non-woven geotechnical cloth layer on described stereoplasm tube outer wall；The water inlet end of described stereoplasm tube is connected to described reversal valve by pipeline, and one end relative with water inlet end of described stereoplasm tube is provided with end socket, and the tube wall of described stereoplasm tube offers some permeable holes.

Efficient water-saving irrigation system the most according to claim 1, it is characterised in that: the external sheath in described non-woven geotechnical cloth layer has nylon layer.

Efficient water-saving irrigation system the most according to claim 2, it is characterised in that: described stereoplasm tube is pvc pipe.

Efficient water-saving irrigation system the most according to claim 3, it is characterised in that: described water pump uses SLW200-315GB model centrifugal pump of horizontal axis.