CN210226678U - Micro-nano bubble biopesticide atomizing and spraying system - Google Patents
Micro-nano bubble biopesticide atomizing and spraying system Download PDFInfo
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- CN210226678U CN210226678U CN201921081363.7U CN201921081363U CN210226678U CN 210226678 U CN210226678 U CN 210226678U CN 201921081363 U CN201921081363 U CN 201921081363U CN 210226678 U CN210226678 U CN 210226678U
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Abstract
The utility model discloses a micro-nano bubble biopesticide atomizes sprinkling system, including micro-nano bubble water emergence host computer, the micro-nano bubble aquatic products water tank that has the aeration head, micro-nano bubble water and biopesticide mix water tank, atomized pesticide release pipeline, biopesticide atomized release shower nozzle. The spraying system of the utility model can not block and corrode the spray head when being used for spraying biological pesticide, and the particle diameter of the fog drops is uniform; good diffusivity, automatic control of temperature and humidity, high fungus survival rate and the like, and can meet the operation requirements by setting the number and the direction of the spray heads aiming at the space and the growth height of different planted crops.
Description
Technical Field
The utility model relates to an agricultural technologies field, concretely relates to little nanometer bubble biopesticide atomizes sprinkling system.
Background
With the enhancement of awareness of environmental protection and concern on food safety, the problem of pesticide residue is one of the most serious food safety problems at present. The development of the biological pesticide technology is suddenly advanced, and the biological pesticide is widely applied to agricultural production. The laggard and low efficiency of the pesticide application system is a main reason for excessive use of pesticide and pesticide residue.
The biological pesticide is prepared by using animals, plants or microorganisms or metabolites produced by the animals, the plants or the microorganisms as raw materials, and has the function of killing or inhibiting agricultural pests (including pests, germs or viruses). The biological pesticide has the advantages of easy decomposition, strong pertinence, weak drug resistance, high cost performance, small environmental pollution, safety to natural enemies and the like which are not comparable to chemical pesticides. Therefore, the biological pesticide is one of the important means for plant protection with high efficiency, low toxicity and low residue, which are widely popularized at present.
The common pesticide applying system in the market at present has the advantages of high pesticide applying efficiency, reduced labor intensity and convenient use, but has the problems of wide droplet particle spectrum, large droplets, pesticide liquid consumption, easy environmental pollution, easy pesticide poisoning of pesticide applying personnel under special conditions, easy damage, high cost and the like, and is difficult to popularize and apply in a large area.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a design is simple, easy-to-use, and the droplet is little, and the grain spectrum is concentrated, and the micro-nano bubble biopesticide of the deposit volume of liquid medicine active substance on the target object and the cover density on the target object and the distribution quality is more ideal atomizes sprinkling system (or sprinkler).
According to the utility model discloses a little nano-bubble biopesticide atomizes sprinkling system includes: the device comprises a micro-nano bubble water generation host, a micro-nano bubble water generation water tank, a mixed water tank, a biological pesticide adjusting tank, a conveying pipeline and a spray head.
The micro-nano bubble water generating host is connected with the micro-nano bubble water generating water tank through a water inlet pipe on one way, is connected with the micro-nano bubble water generating water tank through a water outlet pipe on the other way, and an aeration head is arranged at the tail end of the water outlet pipe positioned in the micro-nano bubble water generating water tank.
The micro-nano bubble water generation water tank is connected with the mixed water tank through a connecting pipe, and a water pump is arranged on the connecting pipe; the biological pesticide regulating box is connected with the mixed water tank through a biological pesticide suction pipe, and a metering pump is arranged on the biological pesticide suction pipe.
The spray head is connected with the mixed water tank through a conveying pipeline, and a pressure pump and an electromagnetic valve are arranged on the conveying pipeline.
Further, the delivery pipeline comprises a main release pipe, a main release pipe and a branch release pipe which are sequentially connected, the pressure pump and the electromagnetic valve are arranged on the main release pipe, and the spray head is connected with the branch release pipe.
Furthermore, the conveying pipeline further comprises an elevating pipe, one end of the elevating pipe is connected with the release branch pipe, and the other end of the elevating pipe is connected with the spray head.
Further, the system further comprises an environment temperature and humidity sensor, a data acquisition instrument and a PLC control system, the micro-nano bubble water generation host is connected with the PLC control system, the PLC control system is connected with the data acquisition instrument, the data acquisition instrument is connected with the PLC control system, and the PLC control system is further connected with the electromagnetic valve.
Furthermore, a floating ball liquid level switch is arranged in the mixing water tank.
Furthermore, a bottom valve is arranged at the tail end of a water outlet pipe positioned in the micro-nano bubble water generating water tank.
Further, a filter is connected between the release manifold and the spray head.
Compared with the prior art, the utility model has the advantages of it is following:
(1) the micro-nano bubble water has the characteristics of small bubbles, charged surface and promotion of biological activity.
(2) The form of atomizing and spraying after mixing micro-nano bubbles and biological pesticide is adopted, the liquid medicine is sufficiently atomized, the medicine mist particles are small, and the medicine mist can permeate the operation area for a long time.
(3) The PLC control system is adopted to realize atomization spraying of the biological pesticide without manpower, so that the labor is saved, the environment is protected, and the use is convenient.
(4) The lifting pipe on the release branch pipe can adjust the height of the release spray head according to the growth height of the planted crops, the release spray head can realize free spraying from bottom to top and from top to bottom from the bottom of the crops, the contact area of the crops is large, and the pesticide effect and the atomization efficiency are improved.
Drawings
Figure 1 is according to the utility model discloses a micro-nano bubble biopesticide atomizes sprinkling system's schematic structure.
Wherein each symbol represents: 1-micro-nano bubble water generating host, 2-water inlet pipe, 3-bottom valve, 4-water outlet pipe, 51-aeration head, 61-micro-nano bubble water generating water tank, 62-mixing water tank, 63-biopesticide regulating tank, 7-connecting pipe, 8-water pump, 9-biopesticide sucking pipe, 10-metering pump, 11-floating ball liquid level switch, 12-pressure pump, 13-release main pipe, 20-electromagnetic valve, 14-release main pipe, 141-release branch pipe, 151-spray head, 161-lifting pipe, 17-environment temperature and humidity sensor, 18-data acquisition instrument, and 19-PLC control system.
Detailed Description
The following description will be made in detail with reference to the accompanying drawings, but the present invention is not limited to the following embodiments.
Referring to fig. 1, according to the utility model discloses a little nano-bubble biopesticide atomizes sprinkling system mainly includes: the device comprises a micro-nano bubble water generating host 1, a micro-nano bubble water generating water tank 61, a mixed water tank 62, a biological pesticide adjusting tank 63, a conveying pipeline and a spray head 151.
Micro-nano bubble water takes place host computer 1 all the way and is connected with micro-nano bubble water production water tank 61 through inlet tube 2 and bottom valve 3, and another way is connected with micro-nano bubble water production water tank 61 through outlet pipe 4, and the outlet pipe 4 end that is arranged in micro-nano bubble water production water tank 61 is provided with a plurality of aeration heads 51. The micro-nano bubble water generating main machine 1 sucks water from the micro-nano bubble water generating water tank 61, mixes the water with air, and then carries out high-pressure rotary cutting through the aeration head 51 to generate micro-nano bubble water, the structures and the working principles of the micro-nano bubble water generating main machine 1 and the aeration head 51 are well known to those skilled in the art, and further description of the structures and the working principles is omitted here.
Micro-nano bubble water produces water tank 61 and is connected with mixed water tank 62 through connecting pipe 7, is provided with water pump 8 on the connecting pipe 7. The biological pesticide regulating box 63 is connected with the mixed water tank 62 through a biological pesticide draft tube 9, and a metering pump 10 is arranged on the biological pesticide draft tube 9. The mixed water tank 62 is provided with a float level switch 11, and the biological pesticide adjusting tank 63 is filled with biological pesticide stock solution which is prepared according to the planting area.
The conveying pipeline comprises a main releasing pipe 13, a main releasing pipe 14 and branch releasing pipes 141 which are connected in sequence, a pressure pump 12 and an electromagnetic valve 20 are arranged on the main releasing pipe 13, the main releasing pipe 14 can be connected with a plurality of branch releasing pipes 141 in parallel, a plurality of lifting pipes 161 are distributed on each branch releasing pipe 141, one end of each lifting pipe 161 is connected with the branch releasing pipe 141, and the other end of each lifting pipe 161 is connected with a spray head 151. The conveying pipeline can be set for the spacing and the growth height of different planted crops. The lifting pipe 161 on the releasing branch pipe 141 can adjust the height of the spray nozzle 151 according to the growth height of the planted crops, the spray nozzle 151 can realize free spraying from bottom to top and from top to bottom from the bottom of the crops, the contact area of the crops is large, and the pesticide effect and the atomization efficiency are improved.
Further, the system further comprises an environment temperature and humidity sensor 17, a data acquisition instrument 18 and a PLC control system 19, the micro-nano bubble water generation host 1 is connected with the PLC control system 19, the PLC control system 19 is connected with the data acquisition instrument 18, the data acquisition instrument 18 is connected with the PLC control system 19, and the PLC control system 19 is further connected with an electromagnetic valve 20.
The utility model discloses a micro-nano bubble atomizing sprinkler system's of biopesticide application method, including following step:
(1) the environment temperature and humidity sensor monitors the temperature and the humidity of the environment and feeds data back to the data acquisition instrument.
(2) The data acquisition instrument analyzes the data, and feeds the data back to the PLC control system when the temperature is 20-30 ℃ and the humidity is 40% -50%.
(3) The control system starts the micro-nano bubble water generation host to prepare micro-nano bubble water, and the micro-nano bubble water is sucked into the mixed water tank through the water pump after aeration in the micro-nano bubble water generation water tank.
(4) The biological pesticide of the biological pesticide regulating box is sucked into the mixing water tank through the suction pipe under the action of the metering pump to be fully mixed.
(5) The micro-nano bubble biopesticide fully mixed is sucked into the main release pipe through the pressure pump, and finally reaches the release spray head through the main release pipe and the branch release pipe.
(6) And according to the planting area of the crops, setting the atomization time and the atomization concentration in parameters in the PLC control system.
(7) The height of the release spray head can be adjusted through the lifting pipe according to the growth height change of crops.
It should be noted that the above-described embodiments may enable those skilled in the art to more fully understand the present invention, but do not limit the present invention in any way. It will be apparent to those skilled in the art that modifications and improvements can be made to the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.
Claims (7)
1. The utility model provides a little nanometer bubble biopesticide atomizing sprinkler system which characterized in that: the system comprises: the device comprises a micro-nano bubble water generating host (1), a micro-nano bubble water generating water tank (61), a mixed water tank (62), a biological pesticide adjusting tank (63), a conveying pipeline and a spray head (151);
one path of the micro-nano bubble water generating host machine (1) is connected with the micro-nano bubble water generating water tank (61) through a water inlet pipe (2), the other path of the micro-nano bubble water generating host machine is connected with the micro-nano bubble water generating water tank (61) through a water outlet pipe (4), and an aeration head (51) is arranged at the tail end of the water outlet pipe (4) in the micro-nano bubble water generating water tank (61);
the micro-nano bubble water generating water tank (61) is connected with the mixed water tank (62) through a connecting pipe (7), and a water pump (8) is arranged on the connecting pipe (7); the biological pesticide adjusting box (63) is connected with the mixed water tank (62) through a biological pesticide suction pipe (9), and a metering pump (10) is arranged on the biological pesticide suction pipe (9);
the spray head (151) is connected with the mixed water tank (62) through a conveying pipeline, and a pressure pump (12) and an electromagnetic valve (20) are arranged on the conveying pipeline.
2. The micro-nano bubble biopesticide atomizing and spraying system according to claim 1, characterized in that: the conveying pipeline comprises a main releasing pipe (13), a main releasing pipe (14) and a branch releasing pipe (141) which are sequentially connected, a pressure pump (12) and an electromagnetic valve (20) are arranged on the main releasing pipe (13), and a spray head (151) is connected with the branch releasing pipe (141).
3. The micro-nano bubble biopesticide atomizing and spraying system according to claim 2, characterized in that: the conveying pipeline further comprises an elevating pipe (161), one end of the elevating pipe (161) is connected with the release branch pipe (141), and the other end of the elevating pipe is connected with the spray head (151).
4. The micro-nano bubble biopesticide atomizing and spraying system according to claim 1, characterized in that: the system further comprises an environment temperature and humidity sensor (17), a data acquisition instrument (18) and a PLC control system (19), the micro-nano bubble water generation host (1) is connected with the PLC control system (19), the PLC control system (19) is connected with the data acquisition instrument (18), the data acquisition instrument (18) is connected with the PLC control system (19), and the PLC control system (19) is further connected with the electromagnetic valve (20).
5. The micro-nano bubble biopesticide atomizing and spraying system according to claim 1, characterized in that: a floating ball liquid level switch (11) is arranged in the mixed water tank (62).
6. The micro-nano bubble biopesticide atomizing and spraying system according to claim 1, characterized in that: a bottom valve (3) is arranged at the tail end of a water outlet pipe (4) positioned in the micro-nano bubble water generating water tank (61).
7. The micro-nano bubble biopesticide atomizing and spraying system according to claim 1, characterized in that: a filter is connected between the release branch 141 and the spray head 151.
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CN201921081363.7U CN210226678U (en) | 2019-07-11 | 2019-07-11 | Micro-nano bubble biopesticide atomizing and spraying system |
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CN201921081363.7U CN210226678U (en) | 2019-07-11 | 2019-07-11 | Micro-nano bubble biopesticide atomizing and spraying system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113229005A (en) * | 2021-05-20 | 2021-08-10 | 广西特色作物研究院 | Method for preventing and treating black spot disease of kiwi fruits |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113229005A (en) * | 2021-05-20 | 2021-08-10 | 广西特色作物研究院 | Method for preventing and treating black spot disease of kiwi fruits |
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