CN205030117U - Greenhouse water planting cyclic irrigation system - Google Patents

Abstract

The utility model discloses a greenhouse water planting cyclic irrigation system to go out pH value on water main line and the return line as the reference conditions to the control of nutrient solution PH, according to crop pH valve control requirement, make the controlling means can be according to the pH valve that concerns the automatic control nutrient solution of the pH value of these two devices departments among the circulation circuit and preset's pH value, the utility model provides a nutrient solution pH valve that exists among the prior art inhomogeneous, PH control coarse problem, thus fertile ware, alkali lye are inhaled to the control acidizing fluid, and to inhale fertile ware automatic from the acidizing fluid jar or the alkali lye jar inhales the acidizing fluid or the control to water -culturing nutrient solution self -loopa PH is realized to alkali lye, has guaranteed rationality and validity that water -culturing nutrient solution self -loopa PH in greenhouse controlled.

Description

A kind of Greenhouse Water Culture cyclic irrigation system

Technical field

The utility model relates to a kind of Greenhouse Water Culture cyclic irrigation system, belongs to water planting crops nutrient solution control technology field.

Background technology

Industrialized agriculture is because environment facies are to controlled, under identical cultivated area condition, there is the features such as efficient yield, in occupation of more and more consequence in agricultural development, under the background that China per capita cultivated land is few, industrialized agriculture has become the developing direction of China's agricultural modernization, the cultivated area world rankings first of current China industrialized agriculture, the industrialized agriculture being representative with intelligent greenhouse, plastic tunnel, sun glasshouse is fast-developing, and wherein the Integration of Water into Fertilizer is applied also more and more extensive in crop water supply fertilizer process.

In industrialized agriculture, cultivation technique without soil application fundamentally avoids the series of problems that soil continuous cropping causes, and effectively can utilize space, not by the restriction of land area, simultaneously under the guidance of crop water supply, fertilizer expert system, easily be automated control, reach high-quality, energy-conservation, efficient, high yield, non-harmful target.Under nutrient fluid cultivation pattern, by fertigation machine, crop is supplied water, fertilizer, liquid manure is with nutritive solution automatic cycle in water planting groove, according to crop different growth periods to the needs of nutritive element, fertilizer is become the nutrient solution of respective concentration with irrigation water proportioning by fertigation machine in certain proportion in blending tank, by transport pump to water planting groove, finally flow into cistern, nutrient solution is automatic cycle between blending tank, water planting groove, cistern person through each pipeline and filter.In water planting groove, crop root part is immersed in nutrient solution, whole nutrition needed for it are absorbed from nutrient solution by root, reliable for ensureing fertilizer supply, under normal circumstances to monitor the control reference frame of EC as the concentration of nutrient solution of nutrient solution, to monitor the acid-base accommodation control foundation of PH as water-fertilizer integral nutrient solution of nutrient solution.

Through retrieval, existing fertigation machine or water-fertilizer integral system are only control reference frame using the pH value of blending tank delivery port or water planting groove place crop root as nutrient solution.The patent No. is the Chinese utility model of 201010586460.9, disclose a kind of automatic irrigation fertilizer distributor apparatus for monitoring working state and monitoring method, it regulates by monitoring the pH value in mixed fertile tank provide reference for realizing automatic irrigation fertilizer distributor course of work status monitoring and nutrition liquid acidityalkalinity.The patent No. is the Chinese utility model of 201310374592.9, discloses a kind of many irrigated areas automatic irrigation fertilizer distributor control appliance, and it by being provided with pH value sensor as the reference frame of nutrition liquid acidityalkalinity regulable control on fertilizer mixing pipeline.Under above-mentioned water planting pattern, using pH value as reaction nutrition liquid acidityalkalinity regulating index, nutrient solution is be mixed to form with water in blending tank at first, afterwards by transport pump to water planting groove, final arrival cistern, start afterwards at blending tank, water planting groove, automatic cycle between cistern, finally cause the pH value of blending tank Middle nutrition liquid, liquid PH value in water planting groove, the pH value three of the nutrient solution in cistern is also inconsistent, under normal circumstances, the pH value of blending tank Middle nutrition liquid when liking the crop water planting under acid environment, liquid PH value in water planting groove, the pH value of the nutrient solution in cistern from low to high, the pH value of blending tank Middle nutrition liquid when liking the crop water planting under alkali environment, liquid PH value in water planting groove, the pH value of the nutrient solution in cistern from high to low, reach in the process of balance three, liquid PH value in water planting groove, the stickiness when pH value of the nutrient solution in cistern and the pH value of blending tank exist long, inhomogeneities, if therefore only control foundation using one of them PH as fertilising, the accurate control of nutrition liquid acidityalkalinity can not be reached, under water planting pattern, crop root directly contacts with nutrient solution, nutrient solution is born crop and is needed fertile supply, peracid or excessively alkali are all unfavorable for the absorption of hydroponic plant to nutrient solution Middle nutrition material, and root system is to nutrition liquid acidityalkalinity rdativery sensitive, in short time peracid or cross alkali very big to plant root damage, Real-Time Monitoring is carried out to liquid PH value, according to crop needs, realize reliable to nutrition liquid acidityalkalinity, accurate control is the Focal point and difficult point problem in this field.

Utility model content

Utility model object: the pH value only relying on certain nutrient solution in liquid manure loop for existing hydroponic system controls the defect of foundation as nutrition liquid acidityalkalinity, a kind of Greenhouse Water Culture cyclic irrigation system is provided, improves liquid PH value precise control rate, mixture homogeneity.

Technical scheme: the utility model provides a kind of Greenhouse Water Culture cyclic irrigation system, comprising: water supply installation, Fertilizer mixer, feeding device, irrigation rig and control device; Described water supply installation is communicated with by supply channel with described Fertilizer mixer; Described feeding device is communicated with by supply lines with described Fertilizer mixer; Described irrigation rig one end is communicated with described Fertilizer mixer by water outlet main pipe road, and the other end is communicated with water supply installation by return line, is formed and irrigates closed circuit; It is characterized in that, described water outlet main pipe road is provided with a PH sensor, described return line is provided with the 2nd PH sensor, a described PH sensor, the 2nd PH sensor are electrically connected with control device respectively.

Wherein, described water supply installation comprises cistern, and the water inlet of described cistern is provided with moisturizing magnetic valve; Described supply channel is disposed with self priming pump, cistern filter and fluid level control valve, described self priming pump is electrically connected with described control device.

Wherein, described feeding device comprises acid solution tank, alkali liquid tank, fertilizer tank, described supply lines is provided with for sour branch road, for alkali branch road and fertilizer branch road, described acid solution tank is communicated with described supply lines by the sour branch road of described confession, the sour branch road of described confession is disposed with acid liquor filter, acid solution magnetic valve and acid solution fat absorption device, and described acid solution magnetic valve is electrically connected with described control device; Described alkali liquid tank is communicated with described supply lines for alkali branch road by described, and be disposed with alkali lye filter, alkali lye magnetic valve and alkali lye fat absorption device described on alkali branch road, described alkali lye magnetic valve is electrically connected with described control device; Described fertilizer tank is communicated with described supply lines by described fertilizer branch road, and described fertilizer branch road is disposed with fertilizer filter, fertilizer magnetic valve and fertilizer fat absorption device; Described fertilizer magnetic valve is electrically connected with described control device.

Wherein, described Fertilizer mixer comprises blending tank, in blending tank, be provided with float switch, and described float switch is connected with described fluid level control valve; Described water outlet main pipe road is provided with booster pump, and described booster pump is electrically connected with described control device; Described water outlet main pipe road be provided with fertigation loop, loop of voltage regulation and join fertile branch road, described fertigation loop is communicated with described irrigation rig, described loop of voltage regulation is provided with pressure electromagnetic valve for adjusting, described pressure electromagnetic valve for adjusting is electrically connected with described control device; Describedly join fertile branch road and the acid solution fat absorption device on the sour branch road of described confession, to be describedly connected for the alkali lye fat absorption device on alkali branch road and the fertilizer fat absorption device on described fertilizer branch road.

Beneficial effect: by this control method and device, can effectively improve nutrition liquid acidityalkalinity control accuracy, reduce the rotten equivalent risk that root system of plant causes due to acid-base value, the method and device are with the pH value of blending tank place monitoring, the pH value at cistern place, pH value three indexs at cistern place compare with the pH value of setting as with reference to foundation simultaneously, can guarantee that nutrient solution PH monitors reliable, and accurately control to provide reliable basis for nutrient solution PH, thus avoid fertigation machine course of work Middle nutrition liquid acid-base value to control coarse problem, improve the production efficiency of water planting.

Accompanying drawing explanation

Fig. 1 is the structural representation of Greenhouse Water Culture cyclic irrigation system of the present utility model;

In figure: 1 the one PH sensor, 2 the 2nd PH sensors, 3 control device, 4 acid solution fat absorption devices, 5 alkali lye fat absorption devices, 6 acid solution magnetic valves, 7 alkali lye magnetic valves, 8 acid liquor filters, 9 acid solution tanks, 10 alkali lye filters, 11 alkali liquid tanks, 12 fertilizer filters, 13 fertilizer tanks, 14 fertilizer magnetic valves, 15 fertilizer fat absorption devices, 16 self priming pumps, 17 cisterns, 18 moisturizing magnetic valves, 19 cistern filters, 20 fluid level control valves, 21 float switches, 22 blending tanks, 23 booster pumps, 24 pressure electromagnetic valve for adjustings, 25 way solenoid valves, 26 water planting grooves.

Embodiment

Greenhouse Water Culture cyclic irrigation system in Fig. 1 comprises: water supply installation, feeding device, Fertilizer mixer, irrigation rig and control device 3 and accordingly pipeline and circuit, and water supply installation is communicated with Fertilizer mixer by supply channel; Feeding device is communicated with by supply lines with Fertilizer mixer; Irrigation rig is communicated with Fertilizer mixer by water outlet main pipe road, and irrigation rig passes through back fertile pipeline and is communicated with water supply installation; Control device 3 is electrically connected with water supply installation, feeding device, Fertilizer mixer, irrigation rig respectively, receives Detection Information and sending controling instruction.

Water supply installation comprises cistern 17, and moisturizing magnetic valve 18 disposed thereon, and moisturizing magnetic valve 18 is arranged on the water inlet of cistern 17, for supply moisture in cistern; Supply channel is disposed with self priming pump 16, cistern filter 19 and fluid level control valve 20, fluid level control valve 20 is connected with the float switch 21 be arranged in Fertilizer mixer, and self priming pump 16 is electrically connected with control device 3.

Feeding device comprises acid solution tank 9, alkali liquid tank 11, fertilizer tank 13, supply lines being provided with three branch roads is respectively for sour branch road, for alkali branch road and fertilizer branch road, acid solution tank 9 is by being communicated with supply lines for sour branch road, be disposed with acid liquor filter 8, acid solution magnetic valve 6 and acid solution fat absorption device 4 on sour branch road, acid solution magnetic valve 6 is electrically connected with control device 3; Alkali liquid tank 11 is by being communicated with supply lines for alkali branch road, and be disposed with alkali lye filter 10, alkali lye magnetic valve 7 and alkali lye fat absorption device 5 on alkali branch road, alkali lye magnetic valve 7 is electrically connected with control device 3; Fertilizer tank 13 is communicated with supply lines by fertilizer branch road, and fertilizer branch road is disposed with fertilizer filter 12, fertilizer magnetic valve 14 and fertilizer fat absorption device 15; Fertilizer magnetic valve 14 is electrically connected with control device 3.Above-mentioned fat absorption device adopts conventional venturi fat absorption device.

Fertilizer mixer comprises blending tank 22, is provided with float switch 21 in blending tank 22, and float switch 21 is for controlling the opening and closing of fluid level control valve 20; Water outlet main pipe road is provided with booster pump 23, and water outlet main pipe road is divided into three branch roads, and the first branch road is fertigation loop, is connected with irrigation rig, for supplying nutrient solution to production area; Second branch road is loop of voltage regulation, this branch road is provided with pressure electromagnetic valve for adjusting 24, and pressure electromagnetic valve for adjusting 24 is electrically connected with control device 3, is used for the pressure of regulating system, in case cause system pressure because of the change of flow in main line cross great fluctuation process; Water outlet main pipe road between Fertilizer mixer and irrigation rig is provided with a PH sensor, a PH sensor 1 is electrically connected with control device 3.

Fertile branch road joined by 3rd branch road, join fertile branch road to be connected with the alkali lye fat absorption device 5 on the acid solution fat absorption device 4 on the sour branch road of confession, confession alkali branch road and the fertilizer fat absorption device 15 on fertilizer branch road, three fat absorption devices can normally be worked, such control device 3 controls the open and close of acid solution magnetic valve 6, alkali lye magnetic valve 7, fertilizer magnetic valve 14 according to inhaling fertile condition, control corresponding fat absorption device and carry nutriment to blending tank 22 or reconcile acid base equilibrium; Booster pump 23 and pressure electromagnetic valve for adjusting 24 are electrically connected with control device 3 respectively.

Irrigation rig comprise water planting groove 26 and irrigate branch road, irrigate on branch road and be provided with a way solenoid valve 25, prop up way solenoid valve 25 to be electrically connected with control device 3 respectively, the return line between irrigation rig with water supply installation is also provided with the 2nd PH sensor 2 and is electrically connected with control device 3.Production area is divided into multiple irrigated area by this irrigation rig, the fertigation branch road in each irrigated area is provided with a way solenoid valve 25, each branch road can be controlled separately, when crop needs fertigation, open the Controlling solenoid valve 25 on this branch road, reduce system energy consumption and improve system availability, thus reaching the object of high-efficient irrigation fertilising.

When utilizing this Greenhouse Water Culture cyclic irrigation system to control the pH value in closed circuit, control device 3 can adopt Programmable Logic Controller or single-chip microcomputer, in the following manner water supply installation, feeding device, Fertilizer mixer, irrigation rig are controlled, carry out cyclic irrigation:

(1) on control device 3, PH threshold value is pre-set: be connected with computer by control device 3, under normal circumstances, pH value in system arranges and will arrange corresponding acid or alkali environment according to the plant cultivated, PH threshold value can be modified according to the growing environment of plant in water planting groove 26, for crop, acid or the alkaline environment of the best required for plant growth of PH threshold value, the effect that pH value in closed circuit and the more close then soda acid of this PH threshold value control is better, sets corresponding error threshold simultaneously.

(2) to the monitoring for water replanishing device: float switch 21 exports water level signal to control device 3; Self priming pump 16 pairs of Fertilizer mixers that water level outputs control signals to water supply installation lower than thresholding timed unit 3 supply water; When reaching thresholding, then self priming pump 16 stops supplying water.

(3) to the monitoring of Fertilizer mixer: the pH value on the water outlet main pipe road of a PH sensor 1 pair of blending tank 22 carries out Real-Time Monitoring, and reports control device 3.

(4) monitoring of irrigation rig: the nutrient solution in blending tank 22 pumps into water outlet main pipe road by booster pump 23, control device 3 outputs control signals to a way solenoid valve 25 in certain filling district thus controls the filling of corresponding filling district; PH value on the return line of the 2nd PH sensor 2 pairs of water planting grooves 26 carries out Real-Time Monitoring, and reports control device 3.

(5) to the monitoring of fertilizer device: a PH sensor 1, 2nd PH sensor 2, respectively the pH value of monitoring is uploaded to control device 3, the pH value that each sensor detects by control device 3 and the pH value preset compare, if pre-set pH value in control device 3 when being less than 7, the first pH value that one PH sensor 1 detects, the second pH value that 2nd PH sensor 2 detects and the pH value relative error preset in control device 3 are within 5%, control device 3 cuts out for the acid solution magnetic valve 6 on sour branch road, otherwise open and in blending tank 22, supplement acid solution for the acid solution magnetic valve 6 on sour branch road,

If pre-set pH value in control device 3 when being greater than 7, the second pH value that the first pH value that one PH sensor 1 detects, the 2nd PH sensor 2 detect and the pH value relative error preset in control device 3 are within-5%, control device 3 cuts out for the alkali lye magnetic valve 7 on alkali branch road, otherwise opens for the supplementary alkali lye in blending tank 22 of the alkali lye magnetic valve 7 on alkali branch road.

Such as, plant in water planting groove 26 is oxyphiles, pre-setting pH value by program is 6.2, error threshold is 5%, the pH value that in water outlet main pipe road between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored is 6.6, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is 6.8, the data that PH sensor is uploaded by control device 3 compare with the pH value preset in control device 3 respectively, the pH value that in water outlet main pipe road now between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is respectively 6.45% with the relative error of the pH value preset, 9.7%, exceed error threshold 5%, therefore control device 3 controls sour fertile magnetic valve 6 and opens, acid solution fat absorption device 4 supplements acid solution from acid solution tank 9 to blending tank 22, run a period of time, the pH value that in water outlet main pipe road between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored is 6.4, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is 6.5, the pH value that in water outlet main pipe road now between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is respectively 3.2% with the relative error of the pH value preset, 4.8%, within error threshold 5%, control device 3 cuts out sour fertile magnetic valve 6, acid solution fat absorption device 4 stops to blending tank 22, supplementing acid solution from acid solution tank 9.

Again such as, the plant in water planting groove 26 is basophilous plant, and pre-setting pH value by program is 7.8, and error threshold is set to-5%, to reach good control effects, control device 3 presets pH value 7.8, preset pH value and be greater than 7, the pH value that in water outlet main pipe road between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored is 7.4, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is 7.3, the data that PH sensor is uploaded by control device 3 compare with the pH value preset in control device 3 respectively, the pH value that in water outlet main pipe road now between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is respectively-5.1% with the relative error of the pH value preset,-6.4%, exceed error threshold-5%, therefore control device 3 controls the fertile magnetic valve 7 of alkali and opens, alkali lye fat absorption device 5 supplements alkali lye from alkali liquid tank 11 to blending tank 22, run a period of time, the pH value that in water outlet main pipe road between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored is the pH value that the 2nd PH sensor 2 in the return line between 7.6 irrigation rigs and water supply installation is monitored is 7.5, the pH value that in water outlet main pipe road now between Fertilizer mixer and irrigation rig, a PH sensor 1 is monitored, the pH value that the 2nd PH sensor 2 in return line between irrigation rig and water supply installation is monitored is respectively-2.6% with the relative error of the pH value preset,-3.8%, within error threshold 5%, control device 3 cuts out the fertile magnetic valve 7 of alkali, alkali lye fat absorption device 5 stops to blending tank 22, supplementing alkali lye from alkali liquid tank 11.

More than describe preferred embodiment of the present utility model in detail; but; the utility model is not limited to the detail in above-mentioned embodiment; within the scope of technical conceive of the present utility model; can carry out multiple equivalents to the technical solution of the utility model, these equivalents all belong to protection domain of the present utility model.

Claims (5)

1. a Greenhouse Water Culture cyclic irrigation system, comprising: water supply installation, Fertilizer mixer, feeding device, irrigation rig and control device; Described water supply installation is communicated with by supply channel with described Fertilizer mixer; Described feeding device is communicated with by supply lines with described Fertilizer mixer; Described irrigation rig one end is communicated with described Fertilizer mixer by water outlet main pipe road, and the other end is communicated with water supply installation by return line, is formed and irrigates closed circuit; It is characterized in that, described water outlet main pipe road is provided with a PH sensor, described return line is provided with the 2nd PH sensor, a described PH sensor, the 2nd PH sensor are electrically connected with control device respectively.

2. Greenhouse Water Culture cyclic irrigation system according to claim 1, it is characterized in that, described water supply installation comprises: cistern and be arranged on the moisturizing magnetic valve of water inlet; Described supply channel is disposed with self priming pump and fluid level control valve, described self priming pump is electrically connected with described control device.

3. Greenhouse Water Culture cyclic irrigation system according to claim 1, it is characterized in that, described feeding device comprises acid solution tank, alkali liquid tank, fertilizer tank, described supply lines is provided with for sour branch road, for alkali branch road and fertilizer branch road, described acid solution tank is communicated with described supply lines by the sour branch road of described confession, the sour branch road of described confession is disposed with acid liquor filter, acid solution magnetic valve and acid solution fat absorption device, and described acid solution magnetic valve is electrically connected with described control device; Described alkali liquid tank is communicated with described supply lines for alkali branch road by described, and be disposed with alkali lye filter, alkali lye magnetic valve and alkali lye fat absorption device described on alkali branch road, described alkali lye magnetic valve is electrically connected with described control device; Described fertilizer tank is communicated with described supply lines by described fertilizer branch road, and described fertilizer branch road is disposed with fertilizer filter, fertilizer magnetic valve and fertilizer fat absorption device; Described fertilizer magnetic valve is electrically connected with described control device.

4. Greenhouse Water Culture cyclic irrigation system according to claim 3, it is characterized in that, described Fertilizer mixer comprises blending tank, in blending tank, be provided with float switch, and described float switch is for controlling the water level in described blending tank; Described water outlet main pipe road is provided with booster pump, and described booster pump is electrically connected with described control device; Described water outlet main pipe road be provided with fertigation loop, loop of voltage regulation and join fertile branch road, described fertigation loop is communicated with described irrigation rig, described loop of voltage regulation is provided with pressure electromagnetic valve for adjusting, described pressure electromagnetic valve for adjusting is electrically connected with described control device; Describedly join fertile branch road and the acid solution fat absorption device on the sour branch road of described confession, to be describedly connected for the alkali lye fat absorption device on alkali branch road and the fertilizer fat absorption device on described fertilizer branch road.

5. Greenhouse Water Culture cyclic irrigation system according to claim 1, is characterized in that, described control device is Programmable Logic Controller or single-chip microcomputer.