CN215224191U - Prevent pest trapping monitoring devices of repeated count - Google Patents

Abstract

The utility model relates to a pest trapping and monitoring device for preventing repeated counting, which comprises an insect catching barrel, an infrared sensor, a collecting pipe, a high-voltage electric plate and a controller, wherein the collecting pipe is arranged inside the insect catching barrel, the infrared sensor and the high-voltage electric plate are arranged inside the collecting pipe, and the controller is in communication connection with the infrared sensor and the high-voltage electric plate; the collecting pipe is hollow, and two ends of the collecting pipe are opened; the infrared sensors comprise a first infrared sensor and a second infrared sensor, the first infrared sensor is arranged at the middle upper part of the collecting pipe, and the second infrared sensor is arranged at the middle lower part of the collecting pipe; the high-voltage electric plate is arranged between the first infrared sensor and the second infrared sensor; the controller records the quantity of pests entering the insect catching barrel according to a signal fed back by the first infrared sensor; the controller switches on the power supply of the high-voltage electric plate according to signals fed back by the first infrared sensor and the second infrared sensor, and repeated counting is prevented.

Description

Prevent pest trapping monitoring devices of repeated count

Technical Field

The utility model belongs to the technical field of the pest prevention and cure monitoring, concretely relates to prevent pest trapping monitoring devices of repeated count.

Background

The agriculture, forestry and animal husbandry auxiliary industry is an important industry related to the national civilian life, and is a barrier for guaranteeing important materials such as daily grains, wood, meat products and the like of people. In addition to natural disasters, pests are important factors that lead to reduced production. With the progress of chemical fertilizers, pesticides and other technologies, the plant diseases and insect pests are effectively controlled. However, the increasing demand of people puts higher demands on the fine management of the agriculture, forestry and animal husbandry side industry. In the field of pest control, in addition to simple pest trapping, the density or the number of pests in a certain area can be monitored by trapping the pests so as to form more refined management.

At present, in the field of pest quantity monitoring, the technology is simpler, and mainly an infrared or capacitance sensor is used for sensing pests to obtain signals and realize counting. However, due to the biological properties of pests, pests are active, resulting in repeat counts or inaccurate counts; particularly, pests with the body size of less than 2mm are easy to avoid the sensor due to small volume, so that the device is missed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a pest trapping and monitoring device capable of preventing repeated counting, which comprises a pest catching barrel, an infrared sensor, a collecting pipe, a high-voltage electric plate and a controller, wherein the collecting pipe is arranged inside the pest catching barrel, the infrared sensor and the high-voltage electric plate are arranged inside the collecting pipe, and the controller is in communication connection with the infrared sensor and the high-voltage electric plate;

the collecting pipe is hollow, and two ends of the collecting pipe are open, and the collecting pipe is used for communicating the outside with the inside of the insect catching barrel so that pests can enter the insect catching barrel through the collecting pipe;

the infrared sensor comprises a first infrared sensor and a second infrared sensor, the first infrared sensor is arranged at the middle upper part of the collecting pipe and used for sensing pests entering the pest catching barrel from the collecting pipe, and the second infrared sensor is arranged at the middle lower part of the collecting pipe and used for sensing pests returning to the collecting pipe; the high-voltage electric plate is arranged between the first infrared sensor and the second infrared sensor;

the controller records the quantity of pests entering the insect catching barrel according to a signal fed back by the first infrared sensor; the controller switches on the power supply of the high-voltage electric plate according to signals fed back by the first infrared sensor and the second infrared sensor, and repeated counting is prevented.

Optionally, the insect catching barrel comprises an upper barrel body and a lower barrel body, and the upper barrel body and the lower barrel body are detachably connected.

Optionally, the collecting pipe is funnel-shaped, two holes are arranged at the pipe diameter narrowing position of the collecting pipe, and the transmitting end and the receiving end of the first infrared sensor are respectively installed on the collecting pipe; at least one first reflecting plate is arranged on the inner wall of the collecting tube and used for changing the transmission track of the infrared rays emitted by the first infrared sensor.

Optionally, the first reflection plate is arranged obliquely in the vertical direction, and an angle formed by the first reflection plate and the vertical pipe wall of the collection pipe is 10-50 °.

Optionally, the first reflection plate is disposed obliquely in the horizontal direction, and an angle formed by the first reflection plate and the incident infrared ray is 10 to 50 °.

Optionally, the first reflection plate is obliquely arranged in both the horizontal direction and the vertical direction, an angle formed by the first reflection plate and incident infrared rays is 10 to 50 degrees, and an angle formed by the first reflection plate and a vertical tube wall of the collecting tube is 10 to 50 degrees.

Further optionally, be equipped with a plurality of first reflecting plate on the collecting pipe inner wall for change the propagation track of the infrared ray of first infrared sensor transmission many times, two adjacent first reflecting plate's setting mode does: the position of the latter first reflecting plate is set to receive the infrared rays reflected or refracted by the former first reflecting plate.

Optionally, the below of first infrared sensor sets up high-voltage electric plate, high-voltage electric plate sets up along the inner wall of collecting pipe to through circuit connection power, high-voltage electric plate is connected in the controller communication, and when the controller received the signal of first infrared sensor feedback, when the count was once, control high-voltage electric plate switch on power, the pest that falls down from first infrared sensor is followed in the electric shock.

Optionally, at least two holes are formed in the wall surface of the collecting pipe corresponding to the second infrared sensor, and the two holes are respectively installed at the transmitting end and the receiving end of the second infrared sensor; and at least one second reflecting plate is arranged on the inner wall of the collecting pipe beside or below the second infrared sensor and used for changing the transmission track of the infrared rays emitted by the second infrared sensor.

The second reflecting plate is arranged in the same manner as the first reflecting plate.

Optionally, the upper cylinder body is provided with an insect inlet cylinder, the top opening of the insect inlet cylinder is the opening of the upper cylinder body, and the bottom opening of the insect inlet cylinder is connected with the top opening of the collecting pipe.

Optionally, monitoring devices is traped to pest still includes temperature sensor and humidity transducer, and establishes advance the well upper portion of an insect section of thick bamboo, temperature sensor and humidity transducer are connected in the controller communication, and the signal of receiving temperature sensor and humidity transducer feedback for the near environment temperature/humidity of real-time detection insect-catching bucket.

Monitoring devices is traped to pest, in order to solve the lower problem of current pest entrapment device count accuracy, to the less pest of the polypide, designed the stronger collecting pipe of pertinence and be used for the count, through first infrared sensor's design, effectively reduced and leaked the note probability, then through second infrared sensor and high-tension electroplax and first infrared sensor's cooperation, effectively prevent the repeated count of pest that has counted, improved the count accuracy greatly.

Drawings

FIG. 1 is a block diagram of the pest trapping monitoring device for preventing double counting.

In the attached figure, 1-an insect catching barrel, 101-an upper barrel, 102-a lower barrel, 103-an insect inlet barrel, 2-an attraction core, 3-a controller, 4-a collecting pipe, 5-a first infrared sensor, 6-a fumigating device, 7-a power supply, 8-a rain-proof shed, 9-a second infrared sensor, 10-a high-voltage electric plate and 11-a first reflection plate.

Detailed Description

The pest trapping and monitoring device for preventing repeated counting, as shown in fig. 1, includes an insect catching barrel 1, an infrared sensor, a collecting pipe 4, a high-voltage electric plate 10 and a controller 3, wherein the collecting pipe 4 is arranged inside the insect catching barrel 1, the infrared sensor and the high-voltage electric plate 10 are arranged inside the collecting pipe 4, and the controller 3 is in communication connection with the infrared sensor and the high-voltage electric plate 10;

the collecting pipe 4 is hollow, has two open ends and is used for communicating the outside with the inside of the insect catching barrel 1, so that pests can enter the insect catching barrel 1 through the collecting pipe 4;

the infrared sensors comprise a first infrared sensor 5 and a second infrared sensor 9, the first infrared sensor 5 is arranged at the middle upper part of the collecting pipe 4 and is used for sensing pests entering the pest catching barrel 1 from the collecting pipe 4, and the second infrared sensor 9 is arranged at the middle lower part of the collecting pipe 4 and is used for sensing pests returning to the collecting pipe 4; the high-voltage electric plate 10 is arranged between the first infrared sensor 5 and the second infrared sensor 9;

the controller 3 records the quantity of the pests entering the pest catching barrel 1 according to the signal fed back by the first infrared sensor; the controller 3 switches on the power supply 7 of the high-voltage electric board 10 according to the signals fed back by the first infrared sensor and the second infrared sensor 9, and prevents repeated counting.

Optionally, the insect-catching barrel 1 comprises an upper barrel 101 and a lower barrel 102, and the upper barrel 101 and the lower barrel 102 are detachably connected.

Optionally, the upper cylinder 101 and the lower cylinder 102 are both cylindrical, and the upper cylinder 101 and the lower cylinder 102 are clamped by a plurality of buckles.

The utility model discloses to the less pest of bodily form, the polypide is not more than 2mm, and the infrared count degree of difficulty is great, and the probability of missing note and repeated count is very high. The utility model discloses the people is through long-term research practice, discovers that should not adopt collecting pipe 4 to reduce the method of internal diameter, and the precision of not only processing the preparation can not reach, and the cost is higher, moreover only one collecting pipe 4 in the insect-catching bucket 1, if the pipe diameter is too thin, then trap efficiency too low, consequently the above-mentioned collecting pipe 4 structure to the worm is not suitable for the little worm.

Optionally, the collecting pipe 4 is funnel-shaped, two holes are arranged at the pipe diameter narrowing position of the collecting pipe 4, and the emitting end and the receiving end of the first infrared sensor 5 are respectively installed; at least one first reflecting plate 11 is arranged on the inner wall of the collecting pipe 4 and used for changing the propagation track of the infrared rays emitted by the first infrared sensor 5.

Optionally, the first reflection plate 11 is arranged in a tilted manner in the vertical direction, and an angle formed by the first reflection plate 11 and a vertical tube wall of the collection tube 4 is 10 to 50 degrees, so that infrared rays before reflection and infrared rays after reflection are arranged up and down, more areas are covered, and the line collision probability of bugs is increased.

Optionally, the first reflection plate 11 is arranged in a tilted manner in the horizontal direction, and an angle formed by the first reflection plate 11 and incident infrared rays is 10 to 50 degrees, so that infrared rays before reflection and infrared rays after reflection are arranged left and right, more areas are covered, and the probability of line collision of small insects is increased.

Optionally, the first reflection plate 11 is obliquely arranged in both the horizontal direction and the vertical direction, an angle formed by the first reflection plate 11 and the incident infrared ray is 10 to 50 °, and an angle formed by the first reflection plate 11 and the vertical tube wall of the collection tube 4 is 10 to 50 °.

Further optionally, a plurality of first reflection plates 11 are arranged on the inner wall of the collection pipe 4 and used for changing the propagation track of the infrared rays emitted by the first infrared sensor 5 for multiple times, and the arrangement mode of two adjacent first reflection plates 11 is as follows: the rear first reflective plate 11 may be positioned to receive infrared rays reflected or refracted by the front first reflective plate 11.

The utility model discloses to the little pest of bodily form, designed first reflecting plate 11, on the basis that does not increase 5 quantity of first infrared sensor, increase infrared coverage area in the collecting pipe 4, improve the line collision probability of little worm.

In order to prevent the same bug from touching the infrared ray emitted by the first infrared sensor 5 and the infrared ray reflected by the first reflecting plate 11 for multiple times, when the bug touches the line for the first time, the controller 3 starts timing while counting once, and all the signals fed back by the touch of the first infrared sensor 5 in 2-3s are not counted again.

Optionally, the below of first infrared sensor 5 sets up high-tension electricity board 10, high-tension electricity board 10 sets up along the inner wall of collecting pipe 4 to through circuit connection 7, high-tension electricity board 10 is connected in the communication of controller 3, and when controller 3 received the signal of first infrared sensor 5 feedback, when once counting, control high-tension electricity board 10 switch on power 7, the pest that the electric shock fell from first infrared sensor 5.

Optionally, at least two holes are formed in the wall surface of the collecting pipe 4 corresponding to the second infrared sensor 9, and the two holes are respectively installed at the transmitting end and the receiving end of the second infrared sensor 9; at least one second reflecting plate is arranged on the inner wall of the collecting pipe 4 beside or below the second infrared sensor 9 and used for changing the transmission track of the infrared rays emitted by the second infrared sensor 9.

Optionally, the second reflection plate is arranged obliquely in the vertical direction, and an angle formed by the second reflection plate and the vertical pipe wall of the collection pipe 4 is 10-30 °.

Optionally, the second reflecting plate is arranged obliquely in the horizontal direction, and an angle formed by the second reflecting plate and the incident infrared ray is 10-30 °.

Optionally, the second reflection plate is obliquely arranged in both the horizontal and vertical directions, an angle formed by the second reflection plate and the incident infrared ray is 10 to 30 °, and an angle formed by the second reflection plate and the vertical tube wall of the collection tube 4 is 10 to 30 °.

Further optionally, a plurality of second reflecting plates are arranged on the inner wall of the collecting pipe 4 and used for changing the propagation track of the infrared rays emitted by the second infrared sensor 9 for multiple times, and the arrangement mode of two adjacent second reflecting plates is as follows: the position of the second reflecting plate can receive the infrared rays reflected or refracted by the first second reflecting plate.

When the small insects fall into the collecting pipe 4, although the high-voltage electric plate 10 may not be touched, the small insects can directly fall into the lower cylinder 102, and the small insects cannot return to the first infrared sensor 5 in a short time to influence counting; when the bugs climb into the collecting pipe 4, the bugs inevitably touch the high-voltage electric plate 10 and fall into the lower cylinder 102 after being shocked, and the bugs cannot return to the first infrared sensor 5 in a short time to influence counting; when the bugs in the lower cylinder 102 are not killed and crawl back to the collecting pipe 4, the bugs firstly touch the second infrared sensor 9 to start the high-voltage electric plate 10 to work, and the bugs crawl and touch the high-voltage electric plate 10 to be knocked down; when the bugs in the lower cylinder 102 fly back to the collecting pipe 4, the bugs may not touch the high-voltage electric plate 10 and fly to the first infrared sensor 5, so that counting is affected, in this case, if the bugs enter the upper part of the collecting pipe 4 at the same time, the two bugs fall into the lower cylinder 102 after colliding with each other with a high probability, counting is not affected, if the bugs do not enter the upper part of the collecting pipe 4, the second infrared sensor 9 firstly feeds back signals, and the first infrared sensor 5 feeds back signals, and the controller 3 does not count when processing the signals.

Optionally, the upper cylinder 101 is provided with an insect inlet cylinder 103, an opening at the top end of the insect inlet cylinder 103 is an opening of the upper cylinder 101, and an opening at the bottom end of the insect inlet cylinder 103 is connected with an opening at the top end of the collecting pipe 4.

Optionally, monitoring devices is traped to pest still includes temperature sensor and humidity transducer, and establishes advance the well upper portion of an insect cylinder 103, 3 communication connection temperature sensor of controller and humidity transducer receive the signal of temperature sensor and humidity transducer feedback for the environment temperature/humidity near real-time detection insect-catching bucket 1.

Optionally, the pest trapping and monitoring device further comprises a lure core 2, and the lure core 2 is arranged at the middle upper part of the pest inlet cylinder 103; the horizontal position of the collector tube 4 is in the centre of the lower cylinder 102.

Optionally, the insect inlet cylinder 103 is funnel-shaped, an opening at the top end of the insect inlet cylinder 103 is formed in the upper surface of the upper cylinder 101 to form an opening of the upper cylinder 101, the horizontal position of the insect inlet cylinder 103 is located at the center of the upper cylinder 101, and the insect inlet cylinder 103 penetrates through the upper cylinder 101 in the vertical direction. When the pest trapping device is used, pests enter the pest trapping barrel 1 from the pest inlet barrel 103 under the attraction of the trapping core 2, and due to the design of the funnel-shaped pest inlet barrel 103, more pests can enter the upper barrel body 101, and the excessive pests can be controlled to enter the collecting pipe 4 at the same time to influence the sensing and counting of the first infrared sensor 5.

Optionally, a gap is left between the bottom end of the collecting pipe 4 and the bottom surface of the lower cylinder 102, so that pests passing through the collecting pipe 4 can enter the interior of the lower cylinder 102.

Optionally, the bottom of the lower cylinder 102 is provided with a fumigating device 6, fumigant is placed in the fumigating device 6, harmful gas is released after heating by field sunlight irradiation, pests in the lower cylinder 102 are killed or fumigated, the pests in the lower cylinder 102 enter the lower cylinder 102 through the collecting pipe 4, the pests are counted once through the first infrared sensor 5 during entering, and the fumigating device 6 can prevent the pests entering the lower cylinder 102 from climbing upwards along the collecting pipe 4 to touch the first infrared sensor 5, so that repeated counting is caused.

Optionally, a power supply 7 is arranged on the lower surface of the upper cylinder 101, the power supply 7 is connected with the infrared sensor and the fumigating device 6 through a circuit to supply power to the infrared sensor and the fumigating device, and the power supply 7 is preferably a solar battery or a rechargeable battery.

The controller 3 may be disposed on the lower surface of the upper cylinder 101, or may be externally disposed in a monitoring room to remotely monitor the infrared sensor. The controller 3 is in communication connection with an external terminal, such as a computer or a mobile phone, and controls the controller 3 by controlling corresponding professional software on the computer or the mobile phone.

Optionally, a rainproof shed 8 is arranged above the insect catching barrel 1, and a space is reserved between the rainproof shed 8 and the insect catching barrel 1 and used for pests to enter the insect catching barrel 1.

The lure core and the fumigant are common lure cores and fumigants in the market.

Claims (10)

1. A pest trapping and monitoring device capable of preventing repeated counting is characterized by comprising a pest trapping barrel, an infrared sensor, a collecting pipe, a high-voltage electric plate and a controller, wherein the collecting pipe is arranged inside the pest trapping barrel, the infrared sensor and the high-voltage electric plate are arranged inside the collecting pipe, and the controller is in communication connection with the infrared sensor and the high-voltage electric plate;

the collecting pipe is hollow, and two ends of the collecting pipe are open, and the collecting pipe is used for communicating the outside with the inside of the insect catching barrel so that pests can enter the insect catching barrel through the collecting pipe;

the infrared sensor comprises a first infrared sensor and a second infrared sensor, the first infrared sensor is arranged at the middle upper part of the collecting pipe and used for sensing pests entering the pest catching barrel from the collecting pipe, and the second infrared sensor is arranged at the middle lower part of the collecting pipe and used for sensing pests returning to the collecting pipe; the high-voltage electric plate is arranged between the first infrared sensor and the second infrared sensor;

the controller records the quantity of pests entering the insect catching barrel according to a signal fed back by the first infrared sensor; the controller switches on the power supply of the high-voltage electric plate according to signals fed back by the first infrared sensor and the second infrared sensor, and repeated counting is prevented.

2. A pest trapping and monitoring device according to claim 1, wherein said barrel includes an upper barrel and a lower barrel, the upper barrel and the lower barrel being removably connected.

3. A pest trapping and monitoring device according to claim 2, wherein said collecting pipe is funnel-shaped, two holes are provided at the pipe diameter narrowing of the collecting pipe, and a transmitting end and a receiving end of said first infrared sensor are respectively installed;

at least one first reflecting plate is arranged on the inner wall of the collecting tube and used for changing the transmission track of the infrared rays emitted by the first infrared sensor.

4. A pest trapping and monitoring device according to claim 3, wherein said first reflecting plate is inclined in a vertical direction at an angle of 10-50 ° to the vertical tubular wall of the collecting pipe.

5. A pest trapping and monitoring device according to claim 3, wherein said first reflecting plate is disposed obliquely in a horizontal direction, the angle of the first reflecting plate to the incident infrared ray being 10-50 °.

6. A pest trapping and monitoring device according to claim 3, wherein said first reflecting plate is disposed obliquely in both the horizontal and vertical directions, the angle which the first reflecting plate makes with the incident infrared ray is 10-50 °, and the angle which the first reflecting plate makes with the vertical pipe wall of the collecting pipe is 10-50 °.

7. A pest trapping and monitoring device according to any one of claims 4 to 6, wherein a plurality of first reflecting plates are provided on the inner wall of the collecting duct for changing the propagation locus of the infrared rays emitted from the first infrared sensor a plurality of times, and two adjacent first reflecting plates are arranged in such a manner that: the position of the latter first reflecting plate is set to receive the infrared rays reflected or refracted by the former first reflecting plate.

8. A pest trapping and monitoring device according to claim 7, wherein a high voltage electric board is provided below said first infrared sensor, said high voltage electric board being provided along an inner wall of the collecting pipe and connected to the power source through the electric circuit, said controller being communicatively connected to the high voltage electric board;

when the controller receives a signal fed back by the first infrared sensor, the high-voltage electric plate is controlled to be powered on while counting once, and pests falling from the first infrared sensor are electrically shocked.

9. A pest trapping and monitoring device according to claim 8, wherein said second infrared sensor has at least two holes on its corresponding wall surface, and said two holes are respectively installed on the emitting end and the receiving end of said second infrared sensor; and at least one second reflecting plate is arranged on the inner wall of the collecting pipe beside or below the second infrared sensor and used for changing the transmission track of the infrared rays emitted by the second infrared sensor.

10. A pest trapping and monitoring device according to claim 2, wherein said upper cylinder is provided with an insect inlet cylinder, the top end opening of said insect inlet cylinder being the opening of the upper cylinder, the bottom end opening of the insect inlet cylinder being connected to the top end opening of the collection pipe;

the pest trapping and monitoring device further comprises a temperature sensor and a humidity sensor, and is arranged on the middle upper portion of the pest inlet cylinder, the controller is in communication connection with the temperature sensor and the humidity sensor and receives signals fed back by the temperature sensor and the humidity sensor, and the temperature/humidity sensor is used for detecting the temperature/humidity of the environment nearby the pest trapping barrel in real time.

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