CN205156948U - Target pest automatic monitoring circuit - Google Patents
Target pest automatic monitoring circuit Download PDFInfo
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- CN205156948U CN205156948U CN201520944902.0U CN201520944902U CN205156948U CN 205156948 U CN205156948 U CN 205156948U CN 201520944902 U CN201520944902 U CN 201520944902U CN 205156948 U CN205156948 U CN 205156948U
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Abstract
The utility model provides a target pest automatic monitoring circuit, characterized by includes 1 -4 strip acquisition circuit, communication circuit, central control circuit, acquisition circuit includes first timing chip LM555, second timing chip LM555 and infrared detection geminate transistors HS0038B, acquisition circuit is responsible for gathering and makeing statistics of the pest quantity of traping, communication circuit is responsible for the communication between acquisition circuit and the central control circuit, the data processing that the pest detected is responsible for to the central control circuit. It can accomplish the real -time supervision of pest, the material resources of using manpower sparingly, and convenient operation, it is with low costs.
Description
Technical field
The utility model relates to agricultural insect protected field, particularly relates to a kind of target pest automatic monitoring circuit.
Background technology
China is agricultural production big country is also the multiple country of diseases and pests of agronomic crop, and insect pest forecast forecast accurately spreads control diseases and pests of agronomic crop, it is particularly important to reduce economic loss to greatest extent.
At present, China's worm monitoring is also main mainly with personal monitoring, in the majority with paper resources such as the charts of text description, manual drawing and record.This traditional detection technique exists that accuracy is not high, poor in timeliness, utilization factor are low, gathers the problems such as labour intensity is large, performance is not directly perceived, gathers, adds up, analyzes and the shared of information brings much inconvenience to insect information.
Utility model content
In order to solve the problems of the technologies described above, the utility model proposes a kind of target pest automatic monitoring circuit, it can complete the Real-Time Monitoring of insect, uses manpower and material resources sparingly, easy to operate, and cost is low.
To achieve these goals, the technical solution of the utility model is:
A kind of target pest automatic monitoring circuit, comprises 1-4 bar Acquisition Circuit, telecommunication circuit, central control circuit; Described Acquisition Circuit comprises the first timing chip LM555, the second timing chip LM555 and infrared detection to pipe HS0038B, described Acquisition Circuit is responsible for gathering and is added up the number of pest of traping and arriving, described telecommunication circuit is responsible for the communication between Acquisition Circuit and central control circuit, and described central control circuit is responsible for the data processing of pest detection.
The 1st pin ground connection of described first timing chip LM555, the 2nd pin of described first timing chip LM555 is by electric capacity C1 ground connection, and the 3rd pin of described first timing chip LM555 is successively by resistance R4, light emitting diode D1 ground connection; 4th pin of described first timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described first timing chip LM555 is by electric capacity C2 ground connection, 6th pin of described first timing chip LM555 is connected the 7th pin of the first timing chip LM555 with resistance R3 by the resistance R2 that is connected in series, the 6th pin of the first timing chip LM555 also connects the 2nd pin of the first timing chip LM555.
The 1st pin ground connection of described second timing chip LM555, the collector of the 2nd pin connecting triode Q2 of described second timing chip LM555, 3rd pin of described second timing chip LM555 is successively by resistance R10, resistance R11, light emitting diode D2 ground connection, 4th pin of described second timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described second timing chip LM555 is by electric capacity C6 ground connection, 6th pin of described second timing chip LM555 is by electric capacity C5 ground connection, 7th pin of described second timing chip LM555 meets power supply VCC by resistance R9, 6th pin of described second timing chip LM555 connects the 7th pin of the second timing chip LM555, described resistance R10 is connected the 2nd pin of pin P1 with the node between resistance R11, 2nd pin of described pin is by stabilivolt D3 ground connection, 3rd pin of described pin P1 meets power supply VCC, the 1st pin ground connection of described pin P1.
Described infrared detection passes through electric capacity C4 ground connection to pipe HS0038B the 1st pin, described infrared detection is to the base stage of pipe HS0038B the 1st pin by resistance R7 connecting triode Q2, described infrared detection is to pipe HS0038B the 2nd pin ground connection, described infrared detection is to the resistance R5 of pipe HS0038B the 3rd pin by being connected in series, resistance R6 connects infrared detection to the 1st pin of pipe HS0038B, described infrared detection passes through electric capacity C3 ground connection to pipe HS0038B the 3rd pin, described resistance R5 is connected power supply VCC with the node between resistance R6, node between described resistance R5 and resistance R6 is by the collector of resistance R8 connecting triode Q2, the grounded emitter of described triode Q2, described infrared detection to pipe HS0038B and diode D1 with the use of.
Described central control circuit comprises central processing unit ATmega128-16AI.
Described telecommunication circuit comprises communication chip SIM900.
Also comprise display circuit, described display circuit comprises display chip LCD12864.
The beneficial effects of the utility model are the statistics that can realize insect data to the detection of pipe by infrared detection, thus complete the collection of the active situation to insect, the active situation of insect is obtained, for agricultural defence insect provides reference data by central processing unit process.
Accompanying drawing explanation
Fig. 1 Acquisition Circuit structural drawing.
Fig. 2 central processing unit structural representation.
Fig. 3 telecommunication circuit schematic diagram.
Fig. 4 display circuit schematic diagram.
Embodiment
In order to better understand the technical solution of the utility model, below in conjunction with accompanying drawing, the utility model is described in further detail.
A kind of target pest automatic monitoring circuit, comprises 1-4 bar Acquisition Circuit, telecommunication circuit, central control circuit; Described every bar Acquisition Circuit comprises the first timing chip LM555, the second timing chip LM555 and infrared detection to pipe HS0038B, described Acquisition Circuit is responsible for gathering and is added up the number of pest of traping and arriving, described telecommunication circuit is responsible for the communication between Acquisition Circuit and central control circuit, and described central control circuit is responsible for the data processing of pest detection.
Acquisition Circuit is set to 1-4 bar, means that maximum central control circuit can control four dishes with regard to circuit, and the existing wall scroll Acquisition Circuit that can only control, so the technical solution of the utility model saves resource, improve collecting efficiency.
As shown in Figure 1,
The 1st pin ground connection of described first timing chip LM555, the 2nd pin of described first timing chip LM555 is by electric capacity C1 ground connection, and the 3rd pin of described first timing chip LM555 is successively by resistance R4, light emitting diode D1 ground connection; 4th pin of described first timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described first timing chip LM555 is by electric capacity C2 ground connection, 6th pin of described first timing chip LM555 is connected the 7th pin of the first timing chip LM555 with resistance R3 by the resistance R2 that is connected in series, the 6th pin of the first timing chip LM555 also connects the 2nd pin of the first timing chip LM555.
The 1st pin ground connection of described second timing chip LM555, the collector of the 2nd pin connecting triode Q2 of described second timing chip LM555, 3rd pin of described second timing chip LM555 is successively by resistance R10, resistance R11, light emitting diode D2 ground connection, 4th pin of described second timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described second timing chip LM555 is by electric capacity C6 ground connection, 6th pin of described second timing chip LM555 is by electric capacity C5 ground connection, 7th pin of described second timing chip LM555 meets power supply VCC by resistance R9, 6th pin of described second timing chip LM555 connects the 7th pin of the second timing chip LM555, described resistance R10 is connected the 2nd pin of pin P1 with the node between resistance R11, 2nd pin of described pin is by stabilivolt D3 ground connection, 3rd pin of described pin P1 meets power supply VCC, the 1st pin ground connection of described pin P1.
Described infrared detection passes through electric capacity C4 ground connection to pipe HS0038B the 1st pin, described infrared detection is to the base stage of pipe HS0038B the 1st pin by resistance R7 connecting triode Q2, described infrared detection is to pipe HS0038B the 2nd pin ground connection, described infrared detection is to the resistance R5 of pipe HS0038B the 3rd pin by being connected in series, resistance R6 connects infrared detection to the 1st pin of pipe HS0038B, described infrared detection passes through electric capacity C3 ground connection to pipe HS0038B the 3rd pin, described resistance R5 is connected power supply VCC with the node between resistance R6, node between described resistance R5 and resistance R6 is by the collector of resistance R8 connecting triode Q2, the grounded emitter of described triode Q2, described infrared detection to pipe HS0038B and diode D1 with the use of.
As shown in Figure 2, described central processing circuit comprises central processing unit ATmega128-16AI.
As shown in Figure 3, described telecommunication circuit comprises communication chip SIM900.
As shown in Figure 4, also comprise display circuit, described display circuit comprises display chip LCD12864.
By reference to the accompanying drawings embodiment of the present utility model is described although above-mentioned; but the restriction not to the utility model protection domain; one of ordinary skill in the art should be understood that; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.
Claims (7)
1. a target pest automatic monitoring circuit, is characterized in that, comprises 1-4 bar Acquisition Circuit, telecommunication circuit, central control circuit; Described Acquisition Circuit comprises the first timing chip LM555, the second timing chip LM555 and infrared detection to pipe HS0038B, described Acquisition Circuit is responsible for gathering and is added up the number of pest of traping and arriving, described telecommunication circuit is responsible for the communication between Acquisition Circuit and central control circuit, and described central control circuit is responsible for the data processing of pest detection.
2. a kind of target pest automatic monitoring circuit according to claim 1, it is characterized in that, the 1st pin ground connection of described first timing chip LM555,2nd pin of described first timing chip LM555 is by electric capacity C1 ground connection, 3rd pin of described first timing chip LM555 is successively by resistance R4, light emitting diode D1 ground connection; 4th pin of described first timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described first timing chip LM555 is by electric capacity C2 ground connection, 6th pin of described first timing chip LM555 is connected the 7th pin of the first timing chip LM555 with resistance R3 by the resistance R2 that is connected in series, the 6th pin of the first timing chip LM555 also connects the 2nd pin of the first timing chip LM555.
3. a kind of target pest automatic monitoring circuit according to claim 2, it is characterized in that, the 1st pin ground connection of described second timing chip LM555, the collector of the 2nd pin connecting triode Q2 of described second timing chip LM555, 3rd pin of described second timing chip LM555 is successively by resistance R10, resistance R11, light emitting diode D2 ground connection, 4th pin of described second timing chip LM555 is connected power supply VCC with the 8th pin, 5th pin of described second timing chip LM555 is by electric capacity C6 ground connection, 6th pin of described second timing chip LM555 is by electric capacity C5 ground connection, 7th pin of described second timing chip LM555 meets power supply VCC by resistance R9, 6th pin of described second timing chip LM555 connects the 7th pin of the second timing chip LM555, described resistance R10 is connected the 2nd pin of pin P1 with the node between resistance R11, 2nd pin of described pin is by stabilivolt D3 ground connection, 3rd pin of described pin P1 meets power supply VCC, the 1st pin ground connection of described pin P1.
4. a kind of target pest automatic monitoring circuit according to claim 3, it is characterized in that, described infrared detection passes through electric capacity C4 ground connection to pipe HS0038B the 1st pin, described infrared detection is to the base stage of pipe HS0038B the 1st pin by resistance R7 connecting triode Q2, described infrared detection is to pipe HS0038B the 2nd pin ground connection, described infrared detection is to the resistance R5 of pipe HS0038B the 3rd pin by being connected in series, resistance R6 connects infrared detection to the 1st pin of pipe HS0038B, described infrared detection passes through electric capacity C3 ground connection to pipe HS0038B the 3rd pin, described resistance R5 is connected power supply VCC with the node between resistance R6, node between described resistance R5 and resistance R6 is by the collector of resistance R8 connecting triode Q2, the grounded emitter of described triode Q2, described infrared detection to pipe HS0038B and diode D1 with the use of.
5. a kind of target pest automatic monitoring circuit according to claim 3, it is characterized in that, described central control circuit comprises central processing unit ATmega128-16AI.
6. a kind of target pest automatic monitoring circuit according to claim 3, it is characterized in that, described telecommunication circuit comprises communication chip SIM900.
7. a kind of target pest automatic monitoring circuit according to claim 3, it is characterized in that, also comprise display circuit, described display circuit comprises display chip LCD12864.
Priority Applications (1)
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CN201520944902.0U CN205156948U (en) | 2015-11-24 | 2015-11-24 | Target pest automatic monitoring circuit |
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CN201520944902.0U CN205156948U (en) | 2015-11-24 | 2015-11-24 | Target pest automatic monitoring circuit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105333897A (en) * | 2015-11-24 | 2016-02-17 | 济南祥辰科技有限公司 | Target insect automatic monitor circuit |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105333897A (en) * | 2015-11-24 | 2016-02-17 | 济南祥辰科技有限公司 | Target insect automatic monitor circuit |
CN105333897B (en) * | 2015-11-24 | 2018-07-10 | 济南祥辰科技有限公司 | A kind of target pest automatic monitoring circuit |
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