CN213246519U - Visual insect situation automatic detecting and reporting system - Google Patents

Abstract

The utility model discloses a visual insect condition automatic detecting and reporting system, which comprises a power supply, a controller, a monitoring terminal, a top cover, an insect trap lamp below the top cover, a collision screen around the insect trap lamp, an insect catching funnel below the insect trap lamp, an insect killing pipeline and an insect drying pipeline connected with the insect catching funnel, an insect condition monitoring platform below the insect drying pipeline, and an insect recovery device below the insect condition monitoring platform; the insect pest situation monitoring platform is provided with an insect pest body dispersing and tiling mechanism electrically connected with the controller, the insect pest situation monitoring platform is provided with a camera electrically connected with the controller and used for collecting insect pest images, and the insect pest situation monitoring platform bottom is provided with an insect pest falling funnel. The utility model discloses can accurately make statistics of pest kind and figure, can adjust insecticidal efficiency and insecticidal speed according to real-time pest situation data, can adjust the photochromic of moth-killing lamp according to real-time environment, can accomplish system operation such as moth-killing, insecticidal, polypide dispersion, transportation, collection automatically.

Description

Visual insect situation automatic detecting and reporting system

Technical Field

The utility model relates to an insect pest situation forecast system, concretely relates to automatic forecast system of visual insect pest situation.

Background

The insect pest situation forecasting is of great significance to agricultural production, and the insect pest situation forecasting is basically realized by fixedly installing an insect pest situation forecasting system, such as an insect pest situation forecasting lamp, in a certain fixed area. The pest situation observation lamp is the most frequently used tool in the pest situation investigation and statistics process, and is widely applied to the observation and report fields of agriculture, forestry, customs, gardening, universities and colleges and the like.

Most rely on manual operation, traditional pest situation forecast lamp still needs the user regularly to go to on-the-spot monitoring or statistics pest situation, and this has not only consumed a large amount of time, and the pest situation data of monitoring record is also not timely and accurate to a certain extent to show the trend with the complicacy along with agriculture and forestry pest in recent years, traditional pest situation forecast lamp is not enough to satisfy user's needs.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, but a real-time supervision is provided, automatic luring worm, insecticidal, the worm body disperses, the visual automatic pest situation survey and report system of system operation such as transportation, collection.

The purpose of the utility model is realized through the following technical scheme:

a visual insect condition automatic detecting and reporting system comprises a power supply for supplying power to the whole system, a controller, a monitoring terminal in communication connection with the controller, a top cover, an insect trapping lamp arranged at the central position below the top cover, an impact screen arranged around the insect trapping lamp, an insect trapping funnel arranged below the insect trapping lamp, an insect killing pipeline connected with the insect trapping funnel, an insect body drying pipeline connected with the insect killing pipeline, an insect condition monitoring platform arranged below the insect body drying pipeline, and an insect body recycling device arranged below the insect condition monitoring platform; the insect pest situation monitoring platform is provided with an insect pest body dispersing and tiling mechanism electrically connected with the controller, the insect pest situation monitoring platform is provided with a camera electrically connected with the controller and used for collecting insect pest images, and the insect pest situation monitoring platform bottom is provided with an insect pest falling funnel.

Furthermore, the upper part of the top cover is provided with a rainfall detection sensor and a light detection sensor which are electrically connected with the controller.

Further, insecticidal pipeline and polypide stoving pipeline outer wall all are provided with the far infrared heating paster of being connected with the controller electricity, insecticidal pipeline and polypide stoving pipeline inner wall all are provided with the temperature detection sensor who is connected with the controller electricity, insecticidal pipeline and polypide stoving pipeline bottom all are provided with the solenoid valve who is connected with the controller electricity.

Further, worm body dispersion tiling mechanism is including setting up in worm body stoving pipeline solenoid valve below and connecing worm conveyer belt, the conveying motor who is used for the drive to connect the worm conveyer belt that is connected with the controller electricity.

Furthermore, one side of the insect receiving conveyor belt is arranged below an electromagnetic valve of the insect body drying pipeline, and the other side of the insect receiving conveyor belt is arranged above the insect falling funnel.

Furthermore, the insect body recovery device comprises a turntable, a turntable motor and a controller, wherein the surface of the turntable is uniformly provided with a plurality of equidistant insect falling through holes, and the turntable motor is electrically connected with the controller and is used for driving the turntable; and insect body recovery bags are clamped on the insect falling through holes.

Furthermore, the trap lamp comprises a plurality of red light LEDs, yellow light LEDs, white light LEDs, green light LEDs and purple light LEDs which are electrically connected with the controller.

Furthermore, the power supply comprises a monocrystalline silicon solar panel, an intelligent solar controller electrically connected with the monocrystalline silicon solar panel, a plurality of storage batteries electrically connected with the intelligent solar controller, an inverter electrically connected with the intelligent solar controller, and a rectifier electrically connected with the intelligent solar controller.

The utility model has the advantages that:

1) the utility model is provided with an insect condition monitoring platform comprising a camera and an insect body dispersing and tiling mechanism, a controller and an insect condition monitoring terminal; the pest body is uniformly distributed through the pest body dispersing and tiling mechanism, pest body images or videos are collected through the camera, pest situations such as pest species statistics and number distribution statistics of each pest are counted based on the existing digital image processing technology, and the pest situations are fed back to the monitoring terminal in real time through the controller, so that the effect of automatically monitoring pest situation data is achieved, and the monitored pest situation data result is timely and more accurate.

2) The utility model discloses still be provided with the insecticidal pipeline including far-infrared heating paster, temperature detection sensor, combine the temperature data that temperature detection sensor feedbacks and the pest situation data that pest situation monitoring terminal feedbacks, rethread controller adjusts the heating power of infrared heating paster to reach different insecticidal efficiency, when pest situation monitoring terminal feedbacks present pest figure and rises, then transfer the heating power of infrared heating paster big through the controller, thereby improve insecticidal efficiency and speed; when the pest situation monitoring terminal feeds back that the number of the pests is reduced at present, the heating power of the infrared heating patches is reduced through the controller, and therefore the energy-saving effect is achieved on the premise that the pest killing rate is guaranteed.

3) The utility model discloses still be provided with moth-killing lamp, rainfall detection sensor, the light detection sensor including different photochromic LED, combine rainfall condition, the illumination condition that rainfall detection sensor, light detection sensor detected respectively, the insect pest situation data of reunion insect pest situation monitoring terminal feedback, switch the photochromic of moth-killing lamp through the controller at last to more corresponding moth-killing has improved insecticidal efficiency.

Drawings

FIG. 1 is a structural diagram of an automatic visual insect pest situation detecting and reporting system of the present invention;

FIG. 2 is the system block diagram of the utility model of a visual insect pest situation automatic detecting and reporting system

FIG. 3 is a structural diagram of an insect body recycling device of the automatic visual insect situation detecting and reporting system of the present invention;

FIG. 4 is a schematic diagram of a transmission device of an automatic visual insect pest situation detecting and reporting system of the present invention;

in the figure, 1-top cover, 11-rainfall detection sensor, 12-light detection sensor, 2-insect attracting lamp, 3-impact screen, 4-insect catching funnel, 5-controller, 6-insect killing pipeline, 7-insect drying pipeline, 8-insect condition monitoring platform, 81-insect body dispersing and tiling mechanism, 811-conveying motor, 812-insect receiving conveying belt, 82-camera, 83-insect falling funnel, 9-insect body recovery device, 91-insect falling through hole, 92-rotary table and 93-insect body recovery bag.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

a visual automatic insect condition detecting and reporting system comprises a power supply for supplying power to the whole system, a controller 5, a monitoring terminal in communication connection with the controller 5, a top cover 1, an insect trap lamp 2 arranged at the central position below the top cover 1, an impact screen 3 arranged around the insect trap lamp 2, an insect catching funnel 4 arranged below the insect trap lamp 2, an insect killing pipeline 6 connected with the insect catching funnel 4, an insect body drying pipeline 7 connected with the insect killing pipeline 6, an insect condition monitoring platform 8 arranged below the insect body drying pipeline 7, and an insect body recycling device 9 arranged below the insect condition monitoring platform 8; be provided with the polypide dispersion tiling mechanism 81 of being connected with controller 5 electricity on the polypide monitoring platform 8, be provided with the camera 82 that is used for gathering the polypide image with controller 5 electricity connection on the polypide monitoring platform 8, it is provided with down worm funnel 83 to locate polypide monitoring platform 8 bottom.

The top cover 1 is used for preventing rain, the insect-luring lamp 2 is used for luring pests, the pests touch the impact screen 3 and fall to the insect-catching funnel 4, the pests slide to the insect-killing pipeline 6 through the insect-catching funnel 4, after the pests are killed, through 7 stoving of polypide drying duct and discharge to pest situation monitoring platform 8 of polypide drying duct, the polypide dispersion tiling mechanism 81 on the pest situation monitoring platform 8 is used for with polypide evenly distributed, camera 82 on the pest situation monitoring platform 8 is used for gathering the polypide image and uploads to controller 5, controller 5 handles the polypide image through current image processing technique, insect situation data such as analysis pest kind and quantity and feed back it to monitor terminal, pest dispersion tiling mechanism 81 continues the operation and carries the polypide to the insect hopper 83 of pest situation monitoring platform 8 below after monitor terminal received the pest situation data, discharge the polypide to pest recovery unit 9 through insect hopper 83, accomplish the concentrated recovery of the polypide.

The upper part of the top cover 1 is provided with a rainfall detection sensor 11 and a light detection sensor 12 which are electrically connected with the controller 5.

The rainfall detection sensor 11 and the light detection sensor 12 are respectively used for detecting the illumination intensity of the real-time rainwater condition and feeding the illumination intensity back to the controller 5, so that the wavelength and the light color of the trap lamp are adjusted through the controller 5.

Insecticidal pipeline 6 and the 7 outer walls of polypide stoving pipeline all are provided with the far infrared heating paster of being connected with controller 5 electricity, insecticidal pipeline 6 and polypide stoving pipeline 7 inner wall all are provided with the temperature detection sensor who is connected with controller 5 electricity, insecticidal pipeline 6 and polypide stoving pipeline 7 bottom all are provided with the solenoid valve who is connected with controller 5 electricity.

In the scheme, a far infrared heating patch is adopted to heat the insect killing pipeline 6 and the insect drying pipeline 7, so that the purpose of killing insects and drying insects is achieved, the temperature detection sensor is used for detecting the internal temperature of the insect killing pipeline 6 and the insect drying pipeline 7 and feeding back the internal temperature to the controller 5, the controller 5 compares the preset insect killing temperature with the actual temperature in the insect killing pipeline 6 according to the preset insect killing temperature, if the actual temperature in the insect killing pipeline 6 is greater than or equal to the preset insect killing temperature, an electromagnetic valve at the bottom of the insect killing pipeline 6 is opened, and the insects enter the drying pipeline 7; the controller 5 opens the electromagnetic valve at the bottom of the worm drying pipeline 7 according to the preset drying time when the time meets the requirement, and the worm falls into the worm dispersing and spreading mechanism 81. In addition, the controller 5 can also control the heating power of the far infrared heating patches in real time according to the real-time insect situation data and the internal temperature data of the insect killing pipeline 6 and the insect body drying pipeline 7.

The worm body dispersing and spreading mechanism 81 comprises a worm receiving conveyor belt 812 arranged below the electromagnetic valve of the worm body drying pipeline 7, and a conveying motor 811 electrically connected with the controller 5 and used for driving the worm receiving conveyor belt 812.

The insect receiving conveyor 812 is used for receiving the insect bodies discharged from the insect body drying pipeline 7, and the insect bodies are uniformly distributed on the insect receiving conveyor 812 under the driving of the conveying motor 811.

One side of the insect receiving conveyor belt 812 is arranged below an electromagnetic valve of the insect body drying pipeline 7, and the other side of the insect receiving conveyor belt 812 is arranged above the insect falling funnel 83.

The insect receiving conveyor belt 812 starts from the insect receiving, and the controller 5 controls the camera 82 to collect the image and the video of the insect body and feed the image and the video back to the insect situation monitoring terminal.

The insect body recovery device 9 comprises a turntable 92 the surface of which is uniformly provided with a plurality of equidistant insect falling through holes 91, and a turntable motor 94 which is electrically connected with the controller 5 and is used for driving the turntable; insect falling through holes 91 are all provided with insect body recycling bags 94 in a clamping mode.

The worm through hole 91 is just opposite to the worm funnel 83, the worm body recovery bag 94 is used for the worm body to retrieve, the controller 5 also counts the worm body number received by the worm body recovery bag 94 when analyzing the insect situation data such as pest species and quantity, when the worm body number received by the worm body recovery bag 94 reaches the preset amount, the controller controls the turntable motor 94 to drive the turntable 92 to rotate, so that the other worm through hole 91 is just opposite to the worm funnel 83, and the process is repeated.

The trap lamp 2 comprises a plurality of red light LEDs, yellow light LEDs, white light LEDs, green light LEDs and purple light LEDs which are electrically connected with the controller 5.

The controller 5 can select and switch the light color of the trap lamp by combining the rainfall condition and the illumination condition respectively detected by the rainfall detection sensor and the light detection sensor and combining the insect condition data fed back by the insect condition monitoring terminal, so that the insect is more targeted, and the insect killing efficiency is improved.

The power supply comprises a monocrystalline silicon solar panel, an intelligent solar controller electrically connected with the monocrystalline silicon solar panel, a plurality of storage batteries electrically connected with the intelligent solar controller, an inverter electrically connected with the intelligent solar controller, a rectifier electrically connected with the intelligent solar controller and a motor, a camera, a heating patch and the like, wherein the inverter is used for supplying power to the trap lamp after inversion.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. The utility model provides a visual insect pest situation automatic measurement and report system, includes the power that is the whole system power supply, top cap (1), sets up moth-killing lamp (2) that put in top cap (1) below central point, sets up striking screen (3) around moth-killing lamp (2), sets up in insect-catching funnel (4) of moth-killing lamp (2) below, its characterized in that: the system also comprises a controller (5) and a monitoring terminal in communication connection with the controller (5); the insect-killing device comprises an insect-killing pipeline (6) connected with an insect-catching funnel (4), an insect-body drying pipeline (7) connected with the insect-killing pipeline (6), an insect-condition monitoring platform (8) arranged below the insect-body drying pipeline (7), and an insect-body recovering device (9) arranged below the insect-condition monitoring platform (8); be provided with on pest situation monitoring platform (8) and tile mechanism (81) with the worm body dispersion that controller (5) electricity is connected, be provided with on pest situation monitoring platform (8) and be connected camera (82) that are used for gathering the worm body image with controller (5) electricity, pest situation monitoring platform (8) bottom is provided with down worm funnel (83).

2. The system according to claim 1, wherein the system comprises: and the upper part of the top cover (1) is provided with a rainfall detection sensor (11) and a light detection sensor (12) which are electrically connected with the controller (5).

3. The system according to claim 1, wherein the system comprises: insecticidal pipeline (6) and polypide stoving pipeline (7) outer wall all are provided with the far infrared heating paster of being connected with controller (5) electricity, insecticidal pipeline (6) and polypide stoving pipeline (7) inner wall all are provided with the temperature-detecting sensor who is connected with controller (5) electricity, insecticidal pipeline (6) and polypide stoving pipeline (7) bottom all is provided with the solenoid valve who is connected with controller (5) electricity.

4. The system according to claim 1, wherein the system comprises: the worm body dispersing and tiling mechanism (81) comprises a worm receiving conveyor belt (812) arranged below an electromagnetic valve of the worm body drying pipeline (7) and a conveying motor (811) which is electrically connected with the controller (5) and used for driving the worm receiving conveyor belt (812).

5. The automatic visual pest situation detecting and reporting system according to claim 4, wherein: one side of the insect receiving conveyor belt (812) is arranged below an electromagnetic valve of the insect body drying pipeline (7), and the other side of the insect receiving conveyor belt (812) is arranged above the insect falling funnel (83).

6. The system according to claim 1, wherein the system comprises: the worm body recovery device (9) comprises a turntable (92) the surface of which is uniformly provided with a plurality of equidistant worm falling through holes (91), and a turntable motor (94) which is electrically connected with the controller (5) and is used for driving the turntable; insect body recycling bags (93) are arranged on the insect falling through holes (91) in a clamping mode.

7. The system according to claim 1, wherein the system comprises: the trap lamp (2) comprises a plurality of red light LEDs, yellow light LEDs, white light LEDs, green light LEDs and purple light LEDs which are electrically connected with the controller (5).

8. The system according to claim 1, wherein the system comprises: the power supply comprises a monocrystalline silicon solar panel, an intelligent solar controller electrically connected with the monocrystalline silicon solar panel, a plurality of storage batteries electrically connected with the intelligent solar controller, an inverter electrically connected with the intelligent solar controller and a rectifier electrically connected with the intelligent solar controller.

Images