CN206323904U - A kind of Based Intelligent Control drip irrigation system - Google Patents

Abstract

The utility model is related to a kind of Based Intelligent Control drip irrigation system.A kind of Based Intelligent Control drip irrigation system, wherein, including drip irrigation water tank, at least one liquid manure pond, main water pipeline, interval pipeline, drip head, soil information collecting system and control system, the drip irrigation water tank is connected by suction pump and pipeline with water source, the liquid manure pond is connected by Water fertilizer pump and pipeline with the drip irrigation water tank, the main water pipeline is connected by drip irrigation pump with the drip irrigation water tank, the interval pipeline is both connected on the main water pipeline, and the interval pipeline is distributed in each drip irrigation interval, the drip head is located on the interval pipeline, the soil information collecting system is located in the interval soil of each drip irrigation, and the soil information collecting system is connected with the control system, the suction pump, Water fertilizer pump and drip irrigation pump are connected with the control system.The utility model can take into account water droplet and fill and fertile drip irrigation, and drip irrigation process is more intelligent.

Description

A kind of Based Intelligent Control drip irrigation system

Technical field

The utility model is related to agricultural irrigation technology, relates more specifically to a kind of Based Intelligent Control drip irrigation system.

Background technology

Drip irrigation equipment is mainly used in wide row, the crop of high economic worth, such as：Fruit tree, cotton, potato, vegetables, nursery, In the irrigation of chamber crop etc., in the irrigation of the plant such as forestry kind tree and gardens arbor, shrub, flowers.According to irrigation method Difference can be divided into sprinkling irrigation, slight irrigation, drip irrigation etc., and wherein drip irrigation is by the water with certain pressure, through pipe network and water outlet after filtering Pipeline（Drip irrigation zone）Or water dropper slowly and is equably instilled one kind of soil near plant root in the form of water droplet and poured water Method.Under condition of drip irrigation, the effective rate of utilization of water is high, irrigation water moistening part soil surface, is effectively reduced soil moisture Invalid evaporation.Simultaneously as drip irrigation only moistens crop root soil nearby, other regional soil moistures are relatively low, because This, can prevent the growth of weeds, drip irrigation does not produce surface runoff, and easily grasp accurately applies water depth, very water-saving.But Most of current drip irrigation equipment is all hand or auto-manual system mode of operation, this pattern due to the reasonable of irrigation with No, depending on the knowledge of administrative staff, experience etc., this tends to cause crop to the demand degree and the experience of administrative staff of water It cannot get efficient combination；Also, current drip irrigation system is all that single water droplet is filled mostly, it is impossible to while taking into account fertilising.

Utility model content

The utility model is that there is provided a kind of Based Intelligent Control drip irrigation system at least one defect for overcoming described in above-mentioned prior art System.The utility model is simple in construction, easy to use, can take into account water droplet and fill and fertile drip irrigation, and drip irrigation process is more intelligent, greatly Reduce influence of the artifact to drip irrigation effect greatly.

In order to solve the above technical problems, the technical solution adopted in the utility model is：A kind of Based Intelligent Control drip irrigation system, its In, including drip irrigation water tank, at least one liquid manure pond, main water pipeline, interval pipeline, drip head, soil information collecting system and Control system, the drip irrigation water tank is connected by suction pump and pipeline with water source, and the liquid manure pond passes through Water fertilizer pump and pipeline It is connected with the drip irrigation water tank, the main water pipeline is connected by drip irrigation pump with the drip irrigation water tank, the drip irrigation pump leads to The hydraulic pressure crossed in Frequency Converter Control main water pipeline is constant pressure, and the interval pipeline is both connected on the main water pipeline, and described Interval pipeline is distributed in each drip irrigation interval, and the drip head is located on the interval pipeline, the soil information collecting system It is located in the interval soil of each drip irrigation, and the soil information collecting system is connected with the control system, the suction pump, water Fertile pump and drip irrigation pump are connected with the control system.There are two kinds of drip irrigation patterns in control system, one kind is that water droplet fills pattern, All it is the minimum for pre-setting a soil moisture in the controls under one seed manure drip irrigation pattern, any drip irrigation pattern. Soil information collecting system can gather the humidity of soil in real time, then be to control by the data transfer collected System, and compared with the minimum humidity value pre-set in control system, pre-set if the humidity value of the soil of collection is less than Minimum humidity value, then control system will send corresponding instruction, drip irrigation system is made corresponding action.Multiple water are set The effect in fertile pond is, can be other as standby liquid manure pond using one of them as main liquid manure pond, to prevent a liquid manure pond not Enough situations, can also contain different liquid manure respectively in multiple liquid manure ponds, then be used cooperatively according to ratio.

It is preferred that, the quantity in the liquid manure pond is two, respectively the first liquid manure pond and the second liquid manure pond, first water Fertile pond and the second liquid manure pond are connected by the first Water fertilizer pump and the second Water fertilizer pump with the drip irrigation water tank respectively, first water Fertile pump and the second Water fertilizer pump are connected with the control system.

Further, the control system include master control system and be connected with the master control system from control be System, the quantity from control system is corresponding with the quantity that drip irrigation is interval, the soil information collecting in each drip irrigation interval System with the drip irrigation it is interval it is corresponding connected from control system, the suction pump, Water fertilizer pump and drip irrigation pump with the master Control system is connected.Set with drip irrigation it is interval it is corresponding from control system be in order to which the drip irrigation in each drip irrigation interval can be independent Control, will not produce influence from each other, it is ensured that the interval drip irrigation effect of each drip irrigation.

Further, the main water pipeline is provided with main solenoid valve and hydraulic pressure sensor, and the main solenoid valve and hydraulic pressure are passed Sensor is connected with the master control system, and the hydraulic pressure Real-time Feedback in main water pipeline can be given main control system by hydraulic pressure sensor System, it is ensured that the normal work of drip irrigation system；Interval pipeline in each drip irrigation interval is provided with a point magnetic valve, described point of electromagnetism Valve is corresponding from control system connection.

Further, water reserve sensor, the liquid manure pond and the drip irrigation water tank are provided with the drip irrigation water tank Between pipeline be provided with liquid manure flow sensor, the water reserve sensor and liquid manure flow sensor with the main control System is connected.Water reserve sensor can monitor the water level in drip irrigation water tank in real time, and by the data transfer detected to master Pre-set the maximum stage and lowest water level of drip irrigation water tank in control system, master control system, master control system according to The water level information that water reserve sensor is transmitted controls the start and stop of suction pump and drip irrigation pump；Liquid manure flow sensor can record from Liquid manure pond is transported to the amount of the liquid manure in drip irrigation water tank, and the data transfer to master control system, master control system according to The data that liquid manure flow sensor is transmitted control the start and stop of Water fertilizer pump.

Further, the master control system includes main website PLC and the first AD numbers being connected respectively with the main website PLC According to modular converter, touch control screen, water reserve sensor and liquid manure flow sensor are connected with the first AD data conversion modules Connect, what water reserve sensor and liquid manure flow sensor were detected is analog quantity, and the effect of the first AD data conversion modules is Analog quantity is converted into digital quantity and is then passed to main website PLC, and is compared with corresponding preset value, described each preset value is all It is provided in main website PLC, the digital quantity after main website PLC can also change the first AD data conversion modules is shown in touch On control flow, allow operating personnel very clear to the situation of drip irrigation system well.In addition, selection and the liquid manure of drip irrigation pattern Ratio these all inputted by touch control screen.

The 2nd AD data conversion modules for including slave station PLC from control system and being connected with the slave station PLC, institute State slave station PLC to be connected with the main website PLC, and utilize the wired real-time communications of RS485, contrasted with wireless telecommunications, antijamming capability By force, capacity is big, and signal transmission is linearly stablized, and data interchange is quick, accurately, safety；The soil information collecting system includes soil Earth temperature sensor, soil humidity sensor, air temperature sensor and air humidity sensor, therefore, the soil information Acquisition system is not only that can only gather the humidity value of soil, but also can gather air near the temperature of soil, soil Humidity and temperature value, can so be better understood by the crop of the interval interior growth of each drip irrigation or the growing environment of vegetation；The soil Earth temperature sensor, soil humidity sensor, air temperature sensor and air humidity sensor are corresponding from control System is connected, and the soil temperature sensor, soil humidity sensor, air temperature sensor and air humidity sensor are in fact It is directly to be connected with from the 2nd AD data conversion modules in control system, the 2nd AD data conversion modules and the first AD data The effect of modular converter is identical；Digital quantity after slave station PLC can change the 2nd AD data conversion modules is transferred to main website PLC, and compare with corresponding preset value, the digital quantity after main website PLC can also change the 2nd AD data conversion modules is shown In touch control screen.

Further, the main water pipeline is provided with filter, and filter can filter big impurity, it is to avoid clogging drip irrigation Head.Recirculation unit is provided with the drip irrigation water tank, the recirculation unit is connected with the control system, works as liquid manure When being proportionally added in drip irrigation water tank, control system can start recirculation unit so that liquid manure and clear water mixing are equal It is even.

Operation principle of the present utility model：When certain drip irrigation interval is under water droplet filling pattern, soil information collecting system When the humidity value of the soil of collection is less than default minimum humidity value in control system, control system is then instructed on main water pipeline Point magnetic valve on main solenoid valve and the interval interval pipeline of the drip irrigation is opened, drip irrigation pump startup（Water tank is non-minimum to be set Value）, draw water pump startup（The non-maximum arranges value of water tank）, to the interval drip irrigation of the drip irrigation, when the interval soil moisture of the drip irrigation rises During to more than default minimum humidity value, PLC instructs the interval suction pump, and drip irrigation pump stops, and main solenoid valve and point magnetic valve are closed Close.

When certain drip irrigation interval is under fertile drip irrigation pattern, the humidity value of the soil of soil information collecting system collection is less than In control system during default minimum humidity value,（One）Control system instructs the pump startup that draws water to be added water for drip irrigation water tank, reaches Stop during setting water；（Two）Control system instructs liquid manure pump startup, stops when reaching setting plus fertilizer amount；（Three）Control system refers to Make recirculation unit start, stop when reaching setting time；（Four）Control system instructs main solenoid valve and drip irrigation interval Point magnetic valve on interval pipeline is opened, drip irrigation pump startup to the interval drip irrigation of the drip irrigation, when drip irrigation water tank reserves drop to it is pre- If lowest water level value when, stop drip irrigation pump, if now soil humidity sensor read humidity also be not more than it is default most Low humidity angle value, then repeat above-mentioned（One）（Two）（Three）（Four）Step, until the humidity of soil humidity sensor reading is more than default Minimum humidity value, control system instruction drip irrigation pump stops, point magnetic valve on main solenoid valve and the interval interval pipeline of the drip irrigation Close.

Compared with the existing technology, the beneficial effects of the utility model are：

1st, drip irrigation water tank and liquid manure pond are provided with drip irrigation system of the present utility model, such set of system just can be simultaneous Turn round and look at water droplet to fill and fertile drip irrigation, and multiple liquid manure ponds can be set in drip irrigation system of the present utility model so that be different types of Liquid manure can be used in mixed way according to certain ratio, to reach more preferable drip irrigation effect.

2nd, master control system and point control system are also provided with drip irrigation system of the present utility model, divide control system and each Drip irrigation interval is corresponding, and the drip irrigation process and control in can thus causing each drip irrigation interval can be controlled individually, mutually Between do not interfere with, to reach optimal drip irrigation effect.

3rd, water reserve sensor, liquid manure flow sensor and soil information are provided with drip irrigation system of the present utility model Acquisition system, and multiple preset values are all pre-set in the controls, control is fed back to according to sensor and acquisition system The data of system and corresponding preset value can relatively control the action of whole drip irrigation system, more intelligently, more accurately.

Brief description of the drawings

Fig. 1 is overall structure diagram of the present utility model.

Embodiment

Accompanying drawing being given for example only property explanation, it is impossible to be interpreted as the limitation to this patent；It is attached in order to more preferably illustrate the present embodiment Scheme some parts to have omission, zoom in or out, do not represent the size of actual product；To those skilled in the art, Some known features and its explanation may be omitted and will be understood by accompanying drawing.Being given for example only property of position relationship described in accompanying drawing Explanation, it is impossible to be interpreted as the limitation to this patent.

As shown in figure 1, a kind of Based Intelligent Control drip irrigation system, wherein, including drip irrigation water tank 1, the first liquid manure pond 6, second Liquid manure pond 7, main water pipeline 2, interval pipeline 3, drip head, soil information collecting system and control system, the drip irrigation water tank 1 It is connected by suction pump 4 and pipeline with water source, the liquid manure pond 7 of the first liquid manure pond 6 and second passes through the He of the first Water fertilizer pump 8 respectively Second Water fertilizer pump 9 is connected with the drip irrigation water tank 1, and the main water pipeline 2 is connected by drip irrigation pump 5 with the drip irrigation water tank 1 Connect, the drip irrigation pump 5 is constant pressure by the hydraulic pressure in Frequency Converter Control main water pipeline 2, the interval pipeline 3 is both connected to described On main water pipeline 2, and the interval pipeline 3 is distributed in each drip irrigation interval, and the drip head is located on the interval pipeline 3, The soil information collecting system is located in the interval soil of each drip irrigation, and the soil information collecting system is with the control System connection, the suction pump 4, the first Water fertilizer pump 8, the second Water fertilizer pump 9 and drip irrigation pump 5 are connected with the control system.Control There are two kinds of drip irrigation patterns in system processed, one kind is that water droplet is filled under pattern, a seed manure drip irrigation pattern, any drip irrigation pattern, is all The minimum of a soil moisture is pre-set in the controls.Soil information collecting system can gather soil in real time Humidity, then by the data transfer collected to control system, and with the minimum humidity value that is pre-set in control system Compare, if the humidity value of the soil of collection is less than the minimum humidity value pre-set, control system will be sent accordingly Instruction, makes drip irrigation system make corresponding action.Setting the effect in multiple liquid manure ponds is, can assign one of them as main liquid manure Pond, others, to prevent the situation that a liquid manure pond is not enough, can also respectively be contained as standby liquid manure pond in multiple liquid manure ponds Different liquid manure are filled, are then used cooperatively according to ratio.

As shown in figure 1, the control system include master control system and be connected with the master control system from control System, the quantity from control system is corresponding with the quantity that drip irrigation is interval, and the soil information in each drip irrigation interval is adopted Collecting system with the drip irrigation it is interval it is corresponding connected from control system, the suction pump 4, Water fertilizer pump and drip irrigation pump 5 are and institute State master control system connection.Set with drip irrigation it is interval it is corresponding from control system be in order to which the drip irrigation in each drip irrigation interval can Individually control, will not produce influence from each other, it is ensured that the interval drip irrigation effect of each drip irrigation.

As shown in figure 1, the main water pipeline 2 is provided with main solenoid valve 10 and hydraulic pressure sensor 11, the main solenoid valve 10 It is connected with hydraulic pressure sensor 11 with the master control system, hydraulic pressure sensor 11 can be real-time by the hydraulic pressure in main water pipeline 2 Feed back to master control system, it is ensured that the normal work of drip irrigation system；Interval pipeline 3 in each drip irrigation interval is provided with a point electricity Magnet valve 12, described point of magnetic valve 12 is corresponding from control system connection.

As shown in figure 1, being provided with water reserve sensor 13 in the drip irrigation water tank 1, the liquid manure pond is stored up with the drip irrigation Pipeline between water pot 1 is provided with liquid manure flow sensor 14, and the water reserve sensor 13 and liquid manure flow sensor 14 are equal It is connected with the master control system.Water reserve sensor 13 can monitor the water level in drip irrigation water tank 1 in real time, and will detect Data transfer to master control system, the maximum stage and lowest water level of drip irrigation water tank 1 are pre-set in master control system, The water level information that master control system is transmitted according to water reserve sensor 13 controls the start and stop of suction pump 4 and drip irrigation pump 5；Liquid manure stream Quantity sensor 14 can record the amount for the liquid manure being transported to from liquid manure pond in drip irrigation water tank 1, and the data transfer to master control System processed, the data that master control system is transmitted according to liquid manure flow sensor 14 control the start and stop of Water fertilizer pump.

As shown in figure 1, the master control system includes main website PLC15 and be connected respectively with the main website PLC15 the One AD data conversion modules 16, touch control screen 17, water reserve sensor 13 and liquid manure flow sensor 14 are all and the first AD What data conversion module 16 was connected, what water reserve sensor 13 and liquid manure flow sensor 14 were detected is analog quantity, the first AD The effect of data conversion module 16 is that analog quantity is converted into digital quantity to be then passed to main website PLC15, and with corresponding preset value It is compared, described each preset value is all provided in main website PLC15, main website PLC15 can also turn the first AD data Digital quantity after mold changing block 16 is changed is shown in touch control screen 17, and operating personnel are allowed well to the mesh of situation one of drip irrigation system So.In addition, drip irrigation pattern selection and liquid manure ratio these all inputted by touch control screen 17.

As shown in figure 1, the 2nd AD for including slave station PLC18 from control system and being connected with the slave station PLC18 Data conversion module 19, the slave station PLC18 is connected with the main website PLC15, and utilizes the wired real-time communications of RS485, with nothing Line communication contrast, strong antijamming capability, capacity is big, and signal transmission is linearly stablized, and data interchange is quick, accurately, safety；The soil It is wet that earth information acquisition system includes soil temperature sensor 20, soil humidity sensor 21, air temperature sensor 22 and air Sensor 23 is spent, therefore, the soil information collecting system is not only that can only gather the humidity value of soil, but also can be adopted Collect the humidity and temperature value of the neighbouring air of the temperature of soil, soil, can so be better understood by each drip irrigation it is interval in growth Crop or the growing environment of vegetation；The soil temperature sensor 20, soil humidity sensor 21, the and of air temperature sensor 22 Air humidity sensor 23 is corresponding from control system connection, the soil temperature sensor 20, soil moisture sensing Device 21, air temperature sensor 22 and air humidity sensor 23 are directly with turning from the 2nd AD data in control system in fact Change the mold what block 19 was connected, the 2nd AD data conversion modules 19 are identical with the effect of the first AD data conversion modules 16；Slave station PLC18 Digital quantity after 2nd AD data conversion modules 19 being changed is transferred to main website PLC15, and compares with corresponding preset value, Digital quantity after main website PLC15 can also change the 2nd AD data conversion modules 19 is shown in touch control screen 17.

As shown in figure 1, the main water pipeline 2 is provided with filter 24, filter 24 can filter big impurity, it is to avoid stifled Fill in drip head.Recirculation unit is provided with the drip irrigation water tank 1, the recirculation unit connects with the control system Connect, when liquid manure is proportionally added in drip irrigation water tank 1, control system can start recirculation unit so that liquid manure and clear Water is well mixed.

The operation principle of the present embodiment：When certain drip irrigation interval is under water droplet filling pattern, soil information collecting system is adopted When the humidity value of the soil of collection is less than default minimum humidity value in control system, control system is then instructed on main water pipeline 2 A point magnetic valve 12 on main solenoid valve 10 and the interval interval pipeline 3 of the drip irrigation is opened, and drip irrigation pump 5 starts（Water tank is non-most Small arranges value）, suction pump 4 starts（The non-maximum arranges value of water tank）, to the interval drip irrigation of the drip irrigation, when the interval soil of the drip irrigation is wet When degree rises above default minimum humidity value, PLC instructs the interval suction pump 4, and drip irrigation pump 5 stops, the He of main solenoid valve 10 Magnetic valve 12 is divided to close.

When certain drip irrigation interval is under fertile drip irrigation pattern, the humidity value of the soil of soil information collecting system collection is less than In control system during default minimum humidity value,（One）Control system instruction suction pump 4 starts to add water for drip irrigation water tank 1, reaches Stop during to setting water；（Two）Control system instructs liquid manure pump startup, stops when reaching setting plus fertilizer amount；（Three）Control system Instruction cycles agitating device starts, and stops when reaching setting time；（Four）Control system instructs main solenoid valve 10 and the drip irrigation area Between interval pipeline 3 on a point magnetic valve 12 open, drip irrigation pump 5 starts to the interval drip irrigation of the drip irrigation, when the reserves of drip irrigation water tank 1 When dropping to default lowest water level value, stop drip irrigation pump 5, if the humidity that now soil humidity sensor 21 is read is not also big In default minimum humidity value, then repeat above-mentioned（One）（Two）（Three）（Four）Step, until soil humidity sensor 21 read it is wet Degree is more than default minimum humidity value, and control system instruction drip irrigation pump 5 stops, main solenoid valve 10 and the interval interval pipe of the drip irrigation A point magnetic valve 12 on road 3 is closed.

Obviously, above-described embodiment of the present utility model is used for the purpose of clearly demonstrating the utility model example, And it is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, stated upper It can also be made other changes in different forms on the basis of bright.There is no need and unable to give all embodiments With exhaustion.All any modification, equivalent and improvement made within spirit of the present utility model and principle etc., all should be included Within the utility model scope of the claims.

Claims (10)

1. a kind of Based Intelligent Control drip irrigation system, it is characterised in that including drip irrigation water tank（1）, at least one liquid manure pond, water main Road（2）, interval pipeline（3）, drip head, soil information collecting system and control system, the drip irrigation water tank（1）By drawing water Pump（4）And pipeline is connected with water source, the liquid manure pond passes through Water fertilizer pump and pipeline and the drip irrigation water tank（1）Connection, it is described Main water pipeline（2）Pass through drip irrigation pump（5）With the drip irrigation water tank（1）Connection, the interval pipeline（3）It is both connected to the master Waterpipe（2）On, and the interval pipeline（3）It is distributed in each drip irrigation interval, the drip head is located at the interval pipeline（3） On, the soil information collecting system is located in the interval soil of each drip irrigation, and the soil information collecting system and the control System connection processed, the suction pump（4）, Water fertilizer pump and drip irrigation pump（5）It is connected with the control system.

2. a kind of Based Intelligent Control drip irrigation system according to claim 1, it is characterised in that the quantity in the liquid manure pond is two It is individual, respectively the first liquid manure pond（6）With the second liquid manure pond（7）, the first liquid manure pond（6）With the second liquid manure pond（7）Lead to respectively Cross the first Water fertilizer pump（8）With the second Water fertilizer pump（9）With the drip irrigation water tank（1）Connection, first Water fertilizer pump（8）With second Water fertilizer pump（9）It is connected with the control system.

3. a kind of Based Intelligent Control drip irrigation system according to claim 1, it is characterised in that the control system includes master control System processed and be connected with the master control system from control system, the quantity from the control system number interval with drip irrigation Amount is corresponding, and the soil information collecting system in each drip irrigation interval is interval corresponding from control system company with the drip irrigation Connect, the suction pump（4）, Water fertilizer pump and drip irrigation pump（5）It is connected with the master control system.

4. a kind of Based Intelligent Control drip irrigation system according to claim 3, it is characterised in that the main water pipeline（2）On set There is main solenoid valve（10）And hydraulic pressure sensor（11）, the main solenoid valve（10）And hydraulic pressure sensor（11）With the main control System is connected, the interval pipeline in each drip irrigation interval（3）Provided with a point magnetic valve（12）, described point of magnetic valve（12）With it It is corresponding to be connected from control system.

5. a kind of Based Intelligent Control drip irrigation system according to claim 3, it is characterised in that the drip irrigation water tank（1）It is interior Provided with water reserve sensor（13）, the liquid manure pond and the drip irrigation water tank（1）Between pipeline provided with liquid manure flow pass Sensor（14）, the water reserve sensor（13）With liquid manure flow sensor（14）It is connected with the master control system.

6. a kind of Based Intelligent Control drip irrigation system according to claim 3, it is characterised in that the master control system includes master Stand PLC（15）And respectively with the main website PLC（15）First AD data conversion modules of connection（16）, touch control screen （17）.

7. a kind of Based Intelligent Control drip irrigation system according to claim 6, it is characterised in that it is described from control system include from Stand PLC（18）And with the slave station PLC（18）2nd AD data conversion modules of connection（19）, the slave station PLC（18）With The main website PLC（15）Connection.

8. a kind of Based Intelligent Control drip irrigation system according to claim 3, it is characterised in that the soil information collecting system Including soil temperature sensor（20）, soil humidity sensor（21）, air temperature sensor（22）And air humidity sensor （23）, the soil temperature sensor（20）, soil humidity sensor（21）, air temperature sensor（22）Passed with air humidity Sensor（23）It is corresponding to be connected from control system.

9. a kind of Based Intelligent Control drip irrigation system according to claim 1, it is characterised in that the main water pipeline（2）On set There is filter（24）.

10. a kind of Based Intelligent Control drip irrigation system according to claim 1, it is characterised in that the drip irrigation water tank（1）It is interior Provided with recirculation unit.