CN205830585U - A kind of automatic irrigation system - Google Patents

Abstract

The utility model discloses a kind of automatic irrigation system, relate to agricultural irrigation technology, including controller, it is characterized in that: described controller input is connected with air humidity sensor, soil humidity sensor and the level sensor be located in stormwater tank being located in booth, the outfan of described controller is connected with exsiccator, shower nozzle and soakaway trench, the outfan of described controller is also connected with the first relay and the second relay, the outfan of described first relay and the first water pump are connected, and the outfan of described second relay and the second water pump are connected；Sparge pipe level is located at booth top, and described sparge pipe is provided with multiple shower nozzle, and described shower nozzle is connected with described sparge pipe by telescoping tube, and soakaway trench level is located at below soil.This automatic irrigation system, it is achieved that the automatic humidification of booth is irrigated, by using rainwater to irrigate booth, reduces and uses water cost, be applicable to the vegetable of differing heights, and motility is strong, practical.

Description

A kind of automatic irrigation system

Technical field

This utility model belongs to agricultural irrigation technology, is specifically related to a kind of automatic irrigation system.

Background technology

China's vegetables greenhouse cultivation has formed certain scale, irrigates most important to the growth of vegetable.But at present Irrigation method be typically all and utilize artificial or water pump to carry out diversion in booth, there is also a lot of problems: first, it is impossible to Humidity according to air and soil carries out automatic humidification irrigation；Second, high with water cost；3rd, the shower nozzle in booth can not root It is adjusted according to the height difference of vegetable.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that a kind of automatic irrigation system, it is achieved that big The automatic humidification of canopy is irrigated, and by using rainwater to irrigate booth, reduces and uses water cost, be applicable to differing heights Vegetable, motility is strong, practical.

This utility model solves it and technical problem is that and take techniques below scheme to realize:

A kind of automatic irrigation system, including controller, it is characterised in that: described controller input is connected with to be located in booth Air humidity sensor, soil humidity sensor and the level sensor be located in stormwater tank, the outfan of described controller Being connected with exsiccator, shower nozzle and soakaway trench, the outfan of described controller is also connected with the first relay and the second relay, described First relay outfan and the first water pump be connected, the outfan of described second relay and the second water pump are connected；

Described first water pump and the first relay are located on the first drinking-water pipe, and stormwater tank is stretched in described first drinking-water pipe one end In, the described first drinking-water pipe other end is connected with water inlet pipe, and described second water pump and the second relay are located on the second drinking-water pipe, Described second drinking-water pipe one end is stretched in well water pond, and the described second drinking-water pipe other end is connected with described water inlet pipe, described water inlet The other end of pipe is connected with sparge pipe and soakaway trench, and described sparge pipe level is located at booth top, and described sparge pipe is provided with Multiple shower nozzles, described shower nozzle is connected with described sparge pipe by telescoping tube, and described soakaway trench level is located at below soil.

Further, it is provided with rainwater collector outside described stormwater tank.

Further, described controller passes through storage battery power supply, and described accumulator is charged by solar panel.

Further, described stormwater tank top is provided with drainage screen.

The beneficial effects of the utility model are:

1. this utility model is by the humidity of air in air humidity sensor monitoring booth, when air humidity is less than setting During value, shower nozzle can automatic water jetting, by soil humidity sensor monitoring soil humidity, when soil moisture less than setting value time, Soakaway trench can Automatic-seepage water, it is achieved that the automatic humidification of booth is irrigated.

2. this utility model is provided with stormwater tank and well water pond, and this System Priority selects stormwater tank to irrigate booth, when When water in stormwater tank does not has, information is passed to controller by level sensor, and the first water pump cuts out, and the second water pump is opened, then Use well water that booth is irrigated, by using rainwater that booth is irrigated, reduce and use water cost.

Shower nozzle the most of the present utility model is connected with sparge pipe by telescoping tube, telescoping tube nozzle adjustable to vegetable away from From, it being applicable to the vegetable of differing heights, motility is strong, practical.

Accompanying drawing explanation

Fig. 1 is Control system architecture block diagram of the present utility model；

Fig. 2 is structural representation of the present utility model.

In figure: 1 is air humidity sensor；2 is soil humidity sensor；3 is level sensor；4 is controller；5 are Accumulator；6 is solar panel；7 is exsiccator；8 is shower nozzle；9 is soakaway trench；10 is the second relay；11 is the second water Pump；12 is well water pond；13 is the first relay；14 is the first water pump；15 is stormwater tank；16 is rain collector；17 is big Canopy；18 is soil；19 is sparge pipe；20 is drainage screen；22 is telescoping tube；23 is the second drinking-water pipe；24 is the first drinking-water pipe；25 For water inlet pipe.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is further described:

In Fig. 1～2, a kind of automatic irrigation system, including controller 4, described controller 4 input is connected with is located at booth 17 In air humidity sensor 1, soil humidity sensor 2 and the level sensor 3 be located in stormwater tank 15, described controller 4 Outfan be connected with exsiccator 7, shower nozzle 8 and soakaway trench 9, the outfan of described controller 4 is also connected with the first relay 13 He Second relay 10, described first relay 13 outfan and the first water pump 14 be connected, described second relay 10 defeated Go out end to be connected with the second water pump 11；

Described first water pump 14 and the first relay 13 are located on the first drinking-water pipe 24, and described first drinking-water pipe 24 one end is stretched Entering in stormwater tank 15, described first drinking-water pipe 24 other end is connected with water inlet pipe 25, described second water pump 11 and the second relay 10 are located on the second drinking-water pipe 23, and described second drinking-water pipe 23 one end is stretched in well water pond 12, described second drinking-water pipe 23 another End is connected with described water inlet pipe 25, and the other end of described water inlet pipe 25 is connected with sparge pipe 19 and soakaway trench 9, described sparge pipe 19 levels are located at booth 17 top, and described sparge pipe 19 is provided with multiple shower nozzle 8, and described shower nozzle 8 passes through telescoping tube 22 with described Sparge pipe 19 is connected, and described soakaway trench 9 level is located at below soil 18.

At above-mentioned automatic irrigation system, it should be pointed out that described stormwater tank 15 is outside is provided with rainwater collector 16.

At above-mentioned automatic irrigation system, it should be pointed out that described controller 4 is powered by accumulator 5, described electric power storage Charged by solar panel 6 in pond 5.

At above-mentioned automatic irrigation system, it should be pointed out that described stormwater tank 15 top is provided with drainage screen 20.

Operation principle of the present utility model is as follows:

The automatic irrigation system that this utility model provides, during use, air humidity sensor 1 is to air wet in booth 17 Degree is monitored, and when the humidity of air is less than setting value, controller 4 starts the first water pump 14 by the first relay 13, takes out Taking the rainwater collected in stormwater tank 15 by rain collector 16, shower nozzle 8 is opened by controller 4 simultaneously, carries out air Humidification, this shower nozzle 8 is connected with sparge pipe 19 by telescoping tube 22, and the distance of telescoping tube 22 nozzle adjustable 8 to vegetable is applicable In the vegetable of differing heights, motility is strong, practical；The humidity of soil is monitored by soil humidity sensor 2, works as soil Humidity less than setting value time, controller 4 starts the first water pump 14 by the first relay 13, and controller 4 is by soakaway trench 9 simultaneously Open, soil is humidified；When the rainwater during level sensor 3 monitors stormwater tank 15 does not has, controller 4 is by first Relay 13 cuts out the first water pump 14, and meanwhile, controller 4 opens the second water pump 11 by the second relay 10, uses well water pair Vegetable carries out irrigating humidification.When air humidity sensor 1 and soil humidity sensor 2 monitor humidity higher than setting value, control Device 4 processed can start exsiccator 7, reduces its humidity.Accumulator 5 is charged by this system by solar panel 6, reaches Energy-conservation effect.Stormwater tank 15 top is provided with drainage screen 20, can filter rainwater.

In sum, this utility model provides a kind of automatic irrigation system, it is achieved that the automatic humidification of booth is irrigated, and passes through Using rainwater to irrigate booth, reduce and use water cost, be applicable to the vegetable of differing heights, motility is strong, practicality By force.

This utility model has been described in detail by above example, but described content is only preferable reality of the present utility model Execute example, it is impossible to be considered for limiting practical range of the present utility model.All equalizations made according to this utility model application range Change and improvement etc., within all should still belonging to patent covering scope of the present utility model.

Claims (4)

1. an automatic irrigation system, including controller, it is characterised in that: described controller input is connected with to be located in booth Air humidity sensor, soil humidity sensor and the level sensor being located in stormwater tank, the outfan of described controller with Exsiccator, shower nozzle are connected with soakaway trench, and the outfan of described controller is also connected with the first relay and the second relay, and described One relay outfan and the first water pump be connected, the outfan of described second relay and the second water pump are connected；

Described first water pump and the first relay are located on the first drinking-water pipe, and described first drinking-water pipe one end is stretched in stormwater tank, The described first drinking-water pipe other end is connected with water inlet pipe, and described second water pump and the second relay are located on the second drinking-water pipe, institute Stating second drinking-water pipe one end and stretch in well water pond, the described second drinking-water pipe other end is connected with described water inlet pipe, described water inlet pipe The other end be connected with sparge pipe and soakaway trench, described sparge pipe level is located at booth top, and described sparge pipe is provided with many Individual shower nozzle, described shower nozzle is connected with described sparge pipe by telescoping tube, and described soakaway trench level is located at below soil.

Automatic irrigation system the most according to claim 1, it is characterised in that be provided with rainwater outside described stormwater tank and collect dress Put.

Automatic irrigation system the most according to claim 1, it is characterised in that described controller passes through storage battery power supply, institute State accumulator to be charged by solar panel.

Automatic irrigation system the most according to claim 1, it is characterised in that described stormwater tank top is provided with drainage screen.