CN110192515A - A kind of agricultural intelligent change system for adapting to environmental change - Google Patents

Abstract

The invention discloses a kind of agricultural intelligent change systems for adapting to environmental change, including the first delivery pump, droping irrigating pipe, drip head, irrigation pipe, spray head, water storage box and controller, first delivery pump is mounted on liquid-transport pipe-line, the left end of liquid-transport pipe-line is equipped with droping irrigating pipe and irrigation pipe, drip head is installed on droping irrigating pipe, soil humidity sensor is installed on the pipeline outer wall of droping irrigating pipe, irrigation pipe is interconnected by connecting tube and spray head, spray head is mounted on fixed bracket, air humidity sensor is installed on fixed bracket, liquid-transport pipe-line is mounted on water storage box, controller is installed on the tank wall of water storage box.The first delivery pump, droping irrigating pipe, drip head, irrigation pipe, spray head, water storage box and the controller that the present invention passes through setting, irrigation can not be controlled according to actual environmental data by solving, the efficiency of irrigation is lower, only with simple sprinkling irrigation or trickle irrigation, the single problem of irrigation method.

Description

A kind of agricultural intelligent change system for adapting to environmental change

Technical field

The present invention relates to agricultural equipment technology field, specially a kind of agricultural intelligence equipment system for adapting to environmental change System.

Background technique

In order to guarantee the normal growth of crops, peasant often pours plant, to guarantee suitable soil Humidity, but traditional method is the equipment access between water source and plant production region, is directly filled the water to field, thus The crop at source can be made since long-time is caused damage and the waste of water resource by water slug, and can not be to plant Quilt and the branches and leaves of plant are cleaned, and also have poured in agricultural irrigation frequently with drip irrigation technique thus, in order to crop Obtain adequate water simultaneously, moreover it is possible to save water.

But existing technology has the following deficiencies:

1. irrigation can not be controlled according to actual environmental data, the efficiency of irrigation is lower；

2. single only with simple sprinkling irrigation or trickle irrigation, irrigation method.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the intelligent change system for adapting to environmental change is used the present invention provides a kind of agricultural, Irrigation can not be controlled according to actual environmental data by solving, and the efficiency of irrigation is lower, only with simple sprinkling irrigation or drop It fills, the single problem of irrigation method.

(2) technical solution

To achieve the above object, the invention provides the following technical scheme: a kind of agricultural intelligence dress for adapting to environmental change Standby system, including the first delivery pump, droping irrigating pipe, drip head, irrigation pipe, spray head, water storage box and controller, described first is defeated Pump is sent to be mounted on liquid-transport pipe-line, the left end of the liquid-transport pipe-line is equipped with droping irrigating pipe and irrigation pipe, the droping irrigating pipe On drip head is installed, soil humidity sensor is installed, the irrigation pipe passes through on the pipeline outer wall of the droping irrigating pipe Connecting tube and spray head are interconnected, and the spray head is mounted on fixed bracket, and air humidity biography is equipped on the fixed bracket Sensor, the liquid-transport pipe-line are mounted on water storage box, and controller, the side of the water storage box are equipped on the tank wall of the water storage box Fertilizer storage bin is installed on wall.

Preferably, first delivery pump is directly positioned on the upper surface of soil horizon, and first delivery pump is connected on On liquid-transport pipe-line, the right end of the liquid-transport pipe-line and the liquid outlet of water storage box are interconnected.

Preferably, the left end of the liquid-transport pipe-line and the end of droping irrigating pipe and irrigation pipe are mutual by tee connector It is connected to, solenoid valve is installed on the liquid-transport pipe-line between first delivery pump and water storage box.

Preferably, the droping irrigating pipe is directly embedded in soil horizon, and the drip head is mounted on droping irrigating pipe at equal intervals On, the right end of the droping irrigating pipe, which is installed in series, first flow control valve.

Preferably, the upper end of the spray head and connecting tube by pipeline be interconnected, the support bracket fastened upper end with Pipeline between spray head and connecting tube is fixedly connected, and the support bracket fastened lower end is fixed on soil horizon.

Preferably, the right end of the irrigation pipe, which is installed in series, second flow control valve, and the irrigation pipe passes through rope Rope ties up on fixed bracket, and the fixed bracket is distributed at equal intervals on irrigation pipe.

Preferably, the top of the water storage box is equipped with case lid, and the top of the case lid is equipped with stirring motor, described to stir It mixes and shaft is installed on the output shaft of motor lower portion, the upper end of the shaft and the output shaft of stirring motor are fixed by shaft coupling Connection.

Preferably, the case lid lower part is equipped with the connection plate agreed with water storage box upper tank mouth, pacifies in the shaft The middle position of stirring rod equipped with equidistantly distributed, the stirring rod is fixedly connected by attachment base with shaft.

Preferably, the fertilizer storage bin is fixedly mounted on the outer wall of water storage box, the fertilizer storage bin and water storage box It is interconnected by fertilizer delivery pipe, the fertilizer delivery pipe, which is located on fertilizer storage bin internal pipeline, is in series with the second conveying Pump.

Preferably, the controller is electrically connected by signal wire and management PC, and the controller is distinguished by call wire With the first delivery pump, first flow control valve, soil humidity sensor, second flow control valve, air humidity sensor, electromagnetism Valve, stirring motor and the second delivery pump are electrically connected.

(3) beneficial effect

The present invention provides it is a kind of agricultural with adapt to environmental change intelligent change system, have it is following the utility model has the advantages that

(1) of the invention, it is wet by the first delivery pump of setting, droping irrigating pipe, first flow control valve, drip head, soil Spend sensor, second flow control valve, spray head, air humidity sensor, aqueduct, water storage box, solenoid valve and controller, soil The humidity of earth humidity sensor operation perception long-term cropping root system position soil, air humidity sensor operation perception long-term cropping The humidity of branches and leaves position air, and perceived the data monitored and be transferred in controller, the data that controller will receive With the data comparison of setting, when soil moisture is lower than setting value, controller controls solenoid valve and first flow control valve is opened, The first conveying pump operation extracts the irrigation water in water storage box using liquid-transport pipe-line at the same time, and its irrigation water is transported to trickle irrigation In pipeline, irrigation water is in the root system for carrying out irrigated crop from the drip head exudation on droping irrigating pipe, when air humidity is lower than setting value When, controller controls solenoid valve and second flow control valve is opened, and the first conveying pump operation is taken out using liquid-transport pipe-line at the same time The irrigation water in water storage box is taken, and its irrigation water is transported in irrigation pipe, irrigation water is from the connecting tube on irrigation pipe Be transported in spray head the branches and leaves of irrigated crop at spray, while irrigating, soil humidity sensor and air humidity sensor after Reforwarding row perceives the humidity of soil and air, and the data monitored are transferred in controller, and are reached in monitoring data When setting value, controller the first delivery pump of control is out of service, and first flow control valve, second flow control valve and solenoid valve close Close, and irrigate while first flow control valve and second flow control valve metering conveying irrigation water conveying capacity, and by its Data are transferred in controller, and the received data of controller are transferred in management PC and check for operator, are passed by soil moisture Sensor and air humidity sensor monitor humidity, and irrigation is controlled using the data of monitoring, convenient for by the data of monitoring come Control is irrigated, and the amount of irrigating also measures irrigation volume with first flow control valve and second flow control valve, improves the efficiency of irrigation, Conveniently do not manipulate person management PC in check the data of irrigation and the humidity data of crop Soil Surrounding and air, convenient for When understanding grasp crop data, irrigation can not be controlled according to actual environmental data by solving, and the efficiency of irrigation is lower Problem.

(2) of the invention, by setting, the first delivery pump, droping irrigating pipe, first flow control valve, drip head, soil are wet Spend sensor, second flow control valve, spray head, air humidity sensor, aqueduct, water storage box, solenoid valve, controller and fertilizer Expect storage bin, while irrigating, soil humidity sensor and air humidity sensor continue to run perception soil and air Humidity, and the data monitored are transferred in controller, and when monitoring data reach setting value, controller control first Delivery pump is out of service, and first flow control valve, second flow control valve and solenoid valve are closed, and first-class while irrigating The conveying capacity of control valve and second flow control valve metering conveying irrigation water, and its data is transferred in controller, it controls The received data of device are transferred in management PC and check for operator, when needing to apply fertilizer, controller control the second conveying pump operation, Fertilizer utilization fertilizer delivery pipe in its fertilizer storage bin is transported in water storage box, subsequent controller control stirring motor operation Shaft rotation is driven, shaft drives stirring rod rotation to be stirred into the fertilizer and irrigation water in water storage box, after mixing The irrigation water that controller has been mixed fertilizer by controlling operation is irrigated onto crop, and the fertilising of fertilizer, sprinkling irrigation and drop are completed Filling is used in mixed way, and greatly improves the efficiency of irrigation, irrigating crop easily and effectively, and needed to apply fertilizer Fertilizer is mixed into irrigation water, is irrigated on crop together in company with irrigation water, both can be with trickle irrigation and sprinkling irrigation, can also be in irrigation It applies fertilizer simultaneously, convenient for crop irrigation and fertilising, solving only with simple sprinkling irrigation or trickle irrigation, irrigation method is single to be asked Topic.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the schematic diagram of internal structure of water storage box in Fig. 1 of the present invention；

Fig. 3 is the control schematic block diagram of controller in Fig. 1 of the present invention.

Appended drawing reference in figure are as follows: 1, soil horizon；2, the first delivery pump；3, droping irrigating pipe；4, first flow control valve；5, it drips Fill head；6, soil humidity sensor；7, irrigation pipe；8, second flow control valve；9, connecting tube；10, spray head；11, fixed branch Frame；12, air humidity sensor；13, liquid-transport pipe-line；14, water storage box；15, solenoid valve；16, controller；17, fertilizer storage bin； 18, fertilizer delivery pipe；19, case lid；20, stirring motor；21, plate is connected；22, shaft；23, stirring rod；24, attachment base；25, Second delivery pump；26, PC is managed.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It please refers to shown in Fig. 1-3, a kind of embodiment provided by the invention；A kind of agricultural intelligence dress for adapting to environmental change Standby system, including the first delivery pump 2, droping irrigating pipe 3, drip head 5, irrigation pipe 7, spray head 10, water storage box 14 and controller 16, First delivery pump 2 is mounted on liquid-transport pipe-line 13, the model MP-70RM of the first delivery pump 2, is the prior art, liquid-transport pipe-line 13 left end is equipped with droping irrigating pipe 3 and irrigation pipe 7, and the first delivery pump 2 is directly positioned on the upper surface of soil horizon 1, the One delivery pump 2 is connected on liquid-transport pipe-line 13, and the right end of liquid-transport pipe-line 13 and the liquid outlet of water storage box 14 are interconnected, perfusion tube The left end in road 13 and the end of droping irrigating pipe 3 and irrigation pipe 7 are interconnected by tee connector, the first delivery pump 2 and storage Solenoid valve 15 is installed, the model SLDF of solenoid valve 15 is the prior art, drip irrigation pipe on the liquid-transport pipe-line 13 between water tank 14 Drip head 5 is installed on road 3, soil humidity sensor 6, soil humidity sensor 6 are installed on the pipeline outer wall of droping irrigating pipe 3 Model Moisture Sensor SKU9527, be the prior art, droping irrigating pipe 3 is directly embedded in soil horizon 1, drip head 5 It is mounted on droping irrigating pipe 3 at equal intervals, the right end of droping irrigating pipe 3, which is installed in series, first flow control valve 4, first flow control The model LDG-MK-C of valve 4 processed is the prior art, and irrigation pipe 7 is interconnected by connecting tube 9 and spray head 10, spray head 10 Be mounted on fixed bracket 11, the upper end of spray head 10 and connecting tube 9 is interconnected by pipeline, the upper end of fixed bracket 11 with Pipeline between spray head 10 and connecting tube 9 is fixedly connected, and the lower end of fixed bracket 11 is fixed on soil horizon 1, irrigation pipe 7 Right end, which is installed in series, second flow control valve 8, the model LDG-MK-C of second flow control valve 8, is the prior art, sprinkling irrigation Pipeline 7 is tied up on fixed bracket 11 by rope, and fixed bracket 11 is distributed at equal intervals on irrigation pipe 7, fixed bracket 11 On air humidity sensor 12 is installed, the model RS-WS-N01-8 of air humidity sensor 12 is the prior art, infusion Pipeline 13 is mounted on water storage box 14, and the top of water storage box 14 is equipped with case lid 19, and the top of case lid 19 is equipped with stirring motor 20, the model PL120 of stirring motor 20 are the prior art, are equipped with shaft 22 on the output shaft of 20 lower part of stirring motor, turn The upper end of axis 22 is fixedly connected with the output shaft of stirring motor 20 by shaft coupling, 19 lower part of case lid be equipped with on water storage box 14 The connection plate 21 that portion's case mouth agrees with is equipped with the stirring rod 23 of equidistantly distributed, the middle position of stirring rod 23 in shaft 22 Place is fixedly connected by attachment base 24 with shaft 22, and controller 16, the model of controller 16 are equipped on the tank wall of water storage box 14 It is the prior art for S7-400, controller 16 is electrically connected by signal wire and management PC26, and controller 16 passes through call wire point It is not sensed with the first delivery pump 2, first flow control valve 4, soil humidity sensor 6, second flow control valve 8, air humidity Device 12, solenoid valve 15, stirring motor 20 and the second delivery pump 25 are electrically connected, and fertilizer storage is equipped on the side wall of water storage box 14 Case 17, containing inside fertilizer storage bin 17 is liquid fertilizer, and fertilizer storage bin 17 is fixedly mounted on the outer wall of water storage box 14, Fertilizer storage bin 17 and water storage box 14 are interconnected by fertilizer delivery pipe 18, and fertilizer delivery pipe 18 is located in fertilizer storage bin 17 The second delivery pump 25 is in series on portion's pipeline, the model 50WQD13-13-1.5 of the second delivery pump 25 is the prior art.

The step of operating with is as follows:

S1, using when first by its droping irrigating pipe 3 and irrigation pipe 7 determined according to actual use demand pipeline be distributed Spacing and the density that is distributed of drip head 5 and spray head 10, its droping irrigating pipe 3 and irrigation pipe 7 are then connected to infusion again On pipeline 13, while first flow control valve 4, installation second flow control on irrigation pipe 7 are also installed on droping irrigating pipe 3 Valve 8；

S2, it is then stored in water storage box 14 by the water of its irrigation, and its fertilizer is stored in fertilizer storage bin 17 In, simultaneously, the humidity of the operation perception long-term cropping root system position soil of soil humidity sensor 6, air humidity sensor The humidity of 12 operation perception long-term cropping branches and leaves position air, and perceived the data monitored and be transferred in controller 16, Controller 16 is by the data comparison of the data received and setting；

S3, when soil moisture is lower than setting value, controller 16 controls solenoid valve 15 and first flow control valve 4 and opens, First delivery pump 2 operation at the same time extracts the irrigation water in water storage box 14 using liquid-transport pipe-line 13, and its irrigation water is conveyed Into droping irrigating pipe 3, irrigation water is in the root system for carrying out irrigated crop from the exudation of drip head 5 on droping irrigating pipe 3, when air humidity is low When setting value, controller 16 controls solenoid valve 15 and second flow control valve 8 is opened, and the first delivery pump 2 is run at the same time Extract the irrigation water in water storage box 14 using liquid-transport pipe-line 13, and its irrigation water be transported in irrigation pipe 7, irrigation water from Connecting tube 9 on irrigation pipe 7 is transported to the branches and leaves of irrigated crop at spray in spray head 10；

S4, while irrigating, soil humidity sensor 6 and air humidity sensor 12 continue to run perception soil and sky The humidity of gas, and the data monitored are transferred in controller 16, and when monitoring data reach setting value, controller 16 It is out of service to control the first delivery pump 2, first flow control valve 4, second flow control valve 8 and solenoid valve 15 are closed, and are being filled The conveying capacity of first flow control valve 4 and the metering conveying irrigation water of second flow control valve 8 while irrigating, and its data is transmitted Into controller 16, the received data of controller 16 are transferred in management PC26 and check for operator；

S5, when needing to apply fertilizer, controller 16 control the second delivery pump 25 operation, by the fertilizer in its fertilizer storage bin 17 It is transported in water storage box 14 using fertilizer delivery pipe 18, subsequent controller 16 controls the operation of stirring motor 20 and drives 22 turns of shaft Dynamic, shaft 22 drives the rotation of stirring rod 23 to be stirred into the fertilizer and irrigation water in water storage box 14, controls after mixing Device 16 is irrigated by the irrigation water that the operation in above-mentioned S3 and S4 has been mixed fertilizer onto crop, and the fertilising of fertilizer is completed；

When S6, needs debug change crop irrigation control, operator directly operates controller 16 by management PC26, more Change the coefficient of the control of controller 16.

It can to sum up obtain, first delivery pump 2, droping irrigating pipe 3, drip head 5, irrigation pipe 7, spray head of the present invention by setting 10, water storage box 14 and controller 16, irrigation can not be controlled according to actual environmental data by solving, and the efficiency of irrigation is lower, Only with simple sprinkling irrigation or trickle irrigation, the single problem of irrigation method.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (10)

1. a kind of agricultural intelligent change system for adapting to environmental change, including the first delivery pump (2), droping irrigating pipe (3), trickle irrigation Head (5), irrigation pipe (7), spray head (10), water storage box (14) and controller (16), it is characterised in that: first delivery pump (2) it being mounted on liquid-transport pipe-line (13), the left end of the liquid-transport pipe-line (13) is equipped with droping irrigating pipe (3) and irrigation pipe (7), It is equipped with drip head (5) on the droping irrigating pipe (3), soil moisture biography is installed on the pipeline outer wall of the droping irrigating pipe (3) Sensor (6), the irrigation pipe (7) are interconnected by connecting tube (9) and spray head (10), and the spray head (10) is mounted on fixation On bracket (11), it is equipped with air humidity sensor (12) on the fixed bracket (11), the liquid-transport pipe-line (13) is mounted on It on water storage box (14), is equipped with controller (16) on the tank wall of the water storage box (14), pacifies on the side wall of the water storage box (14) Equipped with fertilizer storage bin (17).

2. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: described First delivery pump (2) is directly positioned on the upper surface of soil horizon (1), and first delivery pump (2) is connected on liquid-transport pipe-line (13) on, the right end of the liquid-transport pipe-line (13) and the liquid outlet of water storage box (14) are interconnected.

3. a kind of agricultural intelligent change system for adapting to environmental change according to claim 2, it is characterised in that: described The left end and droping irrigating pipe (3) of liquid-transport pipe-line (13) and the end of irrigation pipe (7) are interconnected by tee connector, described Solenoid valve (15) are installed on liquid-transport pipe-line (13) between first delivery pump (2) and water storage box (14).

4. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: described Droping irrigating pipe (3) is directly embedded in soil horizon (1), and the drip head (5) is mounted at equal intervals on droping irrigating pipe (3), described The right end of droping irrigating pipe (3), which is installed in series, first flow control valve (4).

5. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: described The upper end of spray head (10) and connecting tube (9) is interconnected by pipeline, the upper end of the fixed bracket (11) with spray head (10) Pipeline between connecting tube (9) is fixedly connected, and the lower end of the fixed bracket (11) is fixed on soil horizon (1).

6. a kind of agricultural intelligent change system for adapting to environmental change according to claim 5, it is characterised in that: described The right end of irrigation pipe (7), which is installed in series, to be had second flow control valve (8), and the irrigation pipe (7) ties up to fixation by rope On bracket (11), the fixed bracket (11) is distributed at equal intervals on irrigation pipe (7).

7. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: described The top of water storage box (14) is equipped with case lid (19), and the top of the case lid (19) is equipped with stirring motor (20), the stirring It is equipped with shaft (22) on the output shaft of motor (20) lower part, the upper end of the shaft (22) and the output shaft of stirring motor (20) It is fixedly connected by shaft coupling.

8. a kind of agricultural intelligent change system for adapting to environmental change according to claim 7, it is characterised in that: described Case lid (19) lower part is equipped with the connection plate (21) agreed with water storage box (14) upper tank mouth, is equipped on the shaft (22) The middle position of the stirring rod (23) of equidistantly distributed, the stirring rod (23) is fixed by attachment base (24) and shaft (22) Connection.

9. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: described Fertilizer storage bin (17) is fixedly mounted on the outer wall of water storage box (14), and the fertilizer storage bin (17) passes through with water storage box (14) Fertilizer delivery pipe (18) is interconnected, and the fertilizer delivery pipe (18), which is located on fertilizer storage bin (17) internal pipeline, is in series with the Two delivery pumps (25).

10. a kind of agricultural intelligent change system for adapting to environmental change according to claim 1, it is characterised in that: institute It states controller (16) to be electrically connected by signal wire and management PC (26), the controller (16) is by call wire respectively with first Delivery pump (2), first flow control valve (4), soil humidity sensor (6), second flow control valve (8), air humidity sensing Device (12), solenoid valve (15), stirring motor (20) and the second delivery pump (25) are electrically connected.