CN112385630A - Disease and pest monitoring device and remote monitoring system thereof - Google Patents

Abstract

The invention is suitable for the technical field of agricultural pest control, and provides a pest monitoring device and a remote monitoring system thereof. Through setting up the cutting ferrule that has electric wire netting and moth-killing lamp, the cutting ferrule is fixed on the sleeve to at night, can utilize the moth-killing lamp to attract the pest, then kill the larva through the electric wire netting. The invention can carry out high-efficiency information acquisition, can provide the deinsectization function, is convenient to integrally disassemble and maintain and transport, and is suitable for popularization.

Description

Disease and pest monitoring device and remote monitoring system thereof

Technical Field

The invention belongs to the technical field of agricultural pest control, and particularly relates to a pest monitoring device and a remote monitoring system thereof.

Background

The major diseases and pests of apple trees include rot, brown spot, ring spot, leaf mites, aphids, scale insects, budworms, leaf miners, leaf rollers, cockchafers, scarab beetles and the like. In the planting process, the occurrence frequency of plant diseases and insect pests is high, the quality and the yield are seriously influenced, and even the dead crop and even the withered whole tree can be caused when the disease and insect pests are serious. Therefore, the method is very important for controlling apple pests.

Currently, in orchard ecological disease and pest monitoring work, a specific ecological pest is usually required to be trapped, statistical analysis is carried out according to pest data obtained by trapping, pest development trend is predicted, comprehensive prevention and control suggestions are given, the method has very important guiding significance for ensuring grain harvest in the current year, at present, pest and pest investigation is still manual investigation, the experience and the skill of professional technicians are required to be relied on, time and labor are wasted, the workload is high, and the method can not meet the requirement of modern measurement and reporting.

Disclosure of Invention

The invention provides a pest and disease monitoring device and a remote monitoring system thereof, and aims to solve the problems in the prior art.

The invention is realized in this way, a pest and disease monitoring device, including supporting the assembly, monitoring assembly and disinsection assembly;

the supporting assembly comprises a base, an inserting pile is fixed at the bottom of the base, a sleeve is fixed at the top of the base, an inner rod is movably connected in the sleeve, the lower end of the inner rod extends into the sleeve from the upper end of the sleeve, a top plate with a V-shaped structure is fixed at the top of the inner rod, a plurality of fixing holes are formed in the inner rod in the vertical direction, a fixing bolt matched with the fixing holes is installed on the sleeve, and a wireless communication module is fixed at the top of the top plate;

the monitoring assembly comprises a control box, the control box is fixedly connected with a sleeve seat, the sleeve seat is detachably fixed on the inner rod, and at least one infrared camera and one environmental sensor are fixed on the control box;

the insect killing assembly comprises a clamping sleeve, the clamping sleeve is detachably fixed on the outer wall of the sleeve, two clamping plates which are oppositely arranged are fixed on the sleeve, an insect trapping lamp and a cylindrical-structure power grid are fixed between the two clamping plates, and the insect trapping lamp is located on the inner side of the power grid;

a controller and a storage battery are arranged in the control box, and the controller is electrically connected with the infrared camera, the environment sensor, the wireless communication module, the trap lamp and the power grid; the storage battery is electrically connected with the controller, the infrared camera, the environment sensor, the wireless communication module, the trap lamp and the power grid so as to provide a power source.

Preferably, the top of the top plate is provided with two plate grooves, and a solar cell panel is fixed in each plate groove;

the solar cell panel is electrically connected with the storage battery.

Preferably, the stake is a tapered structure, and the long diameter end of the stake is connected to the central position of the lower surface of the base.

Preferably, a plurality of reinforcing piles are fixed on the lower surface of the base, and the reinforcing piles are of conical structures;

a plurality of the reinforcing piles are annularly and uniformly distributed at intervals around the inserted piles.

Preferably, the outer wall of the sleeve is provided with an annular binding belt groove formed by a recess;

many bandages, each are rolled up on the strap groove the one end of bandage all is fixed with an auxiliary pile.

Preferably, the cutting ferrule has an arc-shaped clamping groove, the clamping groove is tightly attached to the outer wall of the sleeve, and the cutting ferrule is connected with the sleeve through a plurality of bolts.

Preferably, the environment sensor is provided with a temperature and humidity sensor, a PM2.5 sensor and a wind speed sensor.

The invention also provides a remote monitoring system using any one of the above pest monitoring devices, comprising:

the infrared camera is used for acquiring image information of a monitoring area;

the environment sensor is used for acquiring environment parameter information of the detection area;

an electrical grid for killing insects contacting the electrical grid when energized;

the insect attracting lamp is used for attracting pests to get close to the power grid;

the controller is used for receiving the image information and the environmental parameter information and uploading the image information and the environmental parameter information to a center console through the wireless communication module; the controller is also used for controlling the working states of the infrared camera, the environment sensor, the wireless communication module and the trap lamp.

Compared with the prior art, the invention has the beneficial effects that: according to the pest and disease monitoring device and the remote monitoring system thereof, the sleeve and the inner rod which can be lifted are arranged, and the infrared camera used for collecting image information and the environment sensor used for collecting environment parameter information are fixed on the inner rod, so that information in a monitoring area can be efficiently and comprehensively collected, a backstage worker can conveniently judge pest and disease damage, the height of the infrared camera can be adjusted by adjusting the height of the inner rod, and the image collecting efficiency is further improved. Through setting up the cutting ferrule that has electric wire netting and moth-killing lamp, the cutting ferrule is fixed on the sleeve to at night, can utilize the moth-killing lamp to attract the pest, then kill the larva through the electric wire netting. The invention can carry out high-efficiency information acquisition, can provide the deinsectization function, is convenient to integrally disassemble and maintain and transport, and is suitable for popularization.

Drawings

Fig. 1 is a schematic view of the overall structure of a pest monitoring device of the present invention.

Fig. 2 is a top view of the ferrule of the present invention.

Fig. 3 is a schematic structural view of the top plate of the present invention.

Fig. 4 is a system schematic diagram of the remote pest monitoring system of the present invention.

In the figure: 1-supporting component, 11-base, 111-slope, 12-pile inserting, 13-sleeve, 131-fixing bolt, 132-strap slot, 14-inner rod, 141-fixing hole, 15-strap, 16-auxiliary pile, 17-reinforcing pile, 18-top plate, 181-plate slot, 2-monitoring component, 21-control box, 22-infrared camera, 23-environment sensor, 24-sleeve seat, 25-mounting bolt, 26-wireless communication module, 27-solar panel, 3-deinsectization component, 31-sleeve, 32-clamping plate, 33-insect-attracting lamp and 34-power grid.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a plant diseases and insect pests monitoring devices and remote monitoring system thereof, plant diseases and insect pests monitoring devices includes supporting component 1, monitoring component 2 and deinsectization subassembly 3.

The supporting component 1 comprises a base 11, the bottom of the base 11 is fixed with an inserting pile 12, the top of the base 11 is fixed with a sleeve 13, an inner rod 14 is movably connected in the sleeve 13, the lower end of the inner rod 14 extends into the sleeve 13 from the upper end of the sleeve 13, the top of the inner rod 14 is fixed with a top plate 18 of a V-shaped structure, a plurality of fixing holes 141 are formed in the inner rod 14 along the vertical direction, a fixing bolt 131 matched with the fixing hole 141 is installed on the sleeve 13, and a wireless communication module 26 is fixed at the top of the top plate 18.

The base 11 may be a circular plate or a square plate. In the present embodiment, the base 11 is a square plate. And the height of the upper surface of the base 11 is sequentially decreased from the center to the edge, thereby forming a slope 111. The stake 12 is used to be embedded in the ground to fix the base 11. The inner rod 14 is telescopically movable within the sleeve 13 and is secured in place by a retaining bolt 131. The roof 18 is used to provide a shelter for the equipment below, and in the event of rain, rain can flow out to both sides along the roof of the V-shaped structure. The wireless communication module 26 employs a GPRS communication module.

The monitoring assembly 2 comprises a control box 21, the control box 21 is fixedly connected with a sleeve seat 24, the sleeve seat 24 is detachably fixed on the inner rod 14, and at least one infrared camera 22 and one environmental sensor 23 are fixed on the control box 21. The control box 21 is internally provided with a controller and a storage battery, and the controller is electrically connected with the infrared camera 22, the environment sensor 23 and the wireless communication module 26. The battery is electrically connected to the controller, the infrared camera 22, the environmental sensor 23, and the wireless communication module 26 to provide a source of power.

The inside of the sleeve seat 24 has an inner hole for the inner rod 14 to pass through, and the sleeve seat 24 is connected to the fixing hole 141 of the inner rod 14 by two mounting bolts 25, thereby fixing the sleeve seat 24. The infrared camera 22 is used for collecting image information of a monitored area, and day and night 24-hour monitoring can be realized. In the embodiment, the dot matrix infrared camera is adopted, and has the advantages of long irradiation distance, fine and clear image quality and long service life. The environmental sensor 23 is used to detect environmental parameter information of the monitored area. The storage battery is used for providing a power source. The wireless communication module 26 may be used to upload information collected by the infrared camera 22 and the environmental sensor 23 received by the controller.

The insect killing assembly 3 comprises a clamping sleeve 31, the clamping sleeve 31 is detachably fixed on the outer wall of the sleeve 13, two clamping plates 32 which are oppositely arranged are fixed on the sleeve 13, an insect attracting lamp 33 and a power grid 34 with a cylindrical structure are fixed between the two clamping plates 32, and the insect attracting lamp 33 is positioned on the inner side of the power grid 34. The trap lamp 33 and the power grid 34 are both electrically connected with the controller and the storage battery. The controller may control the operation of the light trap 33 and the power grid 34, and the battery is used to provide a source of power to the light trap 33 and the power grid 34. The trap lamp 33 can attract pests to approach the power grid 34 at night, and the power grid 34 can kill the pests after being electrified.

The top of the top plate 18 is provided with two plate grooves 181, and a solar cell panel 27 is fixed in each plate groove 181; the solar cell panel 27 is electrically connected to the battery. The solar panel 27 supplies current to the battery through a corresponding control device, thereby charging the battery. The solar cell panel 27 is mounted through the plate 181 and is convenient to detach.

The stake 12 is of a tapered configuration and the long diameter end of the stake 12 is attached to the lower surface of the base 11 at a central location. The inserting pile 12 with the conical structure can be more conveniently inserted into the ground and can be stably fixed on the base 11.

A plurality of reinforcing piles 17 are fixed on the lower surface of the base 11, and the reinforcing piles 17 are of conical structures; a plurality of reinforcing piles 17 are evenly spaced around the insert 12 in a ring. The reinforcing piles 17 are used to further reinforce the base 11, and the length of the reinforcing piles 17 is shorter than that of the insertion piles 12, thereby forming the insertion piles 12 as main piles and the reinforcing piles 17 as fixing structures of the subsidiary piles, and the stability is better.

The outer wall of the sleeve 13 is provided with a recessed annular strap groove 132; a plurality of straps 15 are wound around the strap slot 132, and an auxiliary pile 16 is fixed to one end of each strap 15. The upper outer edge and the lower outer edge of the strap slot 132 are both in circular arc transition. The binding band 15 is fixed in the binding band groove 132 by a winding and knotting manner, and the auxiliary pile 16 is used when the stability of the base 11 is threatened by the weather of strong wind or the like in the monitored area, and in use, one end of the binding band 15 may be fixed in the binding band groove 132, the binding band 15 may be tightened, and the auxiliary pile 16 may be inserted into the ground. In this embodiment, at least four auxiliary piles 16 are provided and are uniformly distributed in the circumferential direction when being installed, so that the four auxiliary piles 16 can be uniformly stressed to provide stable tension for the sleeve 13.

The ferrule 31 has an arc-shaped slot which is tightly attached to the outer wall of the sleeve 13, and the ferrule 31 is connected to the sleeve 13 by a plurality of bolts. The radian of the clamping groove is the same as the peripheral wall of the sleeve 13, so that the clamping groove can be tightly attached.

The environment sensor 23 is provided with a temperature and humidity sensor, a PM2.5 sensor, and a wind speed sensor. The temperature and humidity sensor can detect the temperature and humidity information of the monitoring area. The PM2.5 sensor may detect PM2.5 information for the monitored area. The wind speed sensor can detect wind speed information of the monitored area.

Referring to fig. 4, the remote monitoring system of a pest monitoring device according to the present invention utilizes the pest monitoring device to realize corresponding functions, and includes an infrared camera 22, an environmental sensor 23, a power grid 34, a trap lamp 33, a controller, a wireless communication module 26, and a console.

The infrared camera 22 is used for collecting image information of the monitored area.

The environment sensor 23 is used for collecting environment parameter information of the detection area. The environmental parameter information includes, but is not limited to, temperature and humidity information detected by a temperature and humidity sensor, PM2.5 information detected by a PM2.5 sensor, and wind speed information detected by a wind speed sensor.

The electrical grid 34 is used to kill insects that contact the electrical grid 34 when energized. The trap lamp 33 is used to attract pests close to the electric grid 34. The killed insect carcasses can slide along the inclined ramp 111 to the ground where they can decay, providing a certain amount of fertility.

The controller is used for receiving the image information and the environmental parameter information and uploading the image information and the environmental parameter information to the center console through the wireless communication module 26. The controller is also used for controlling the working states of the infrared camera 22, the environment sensor 23, the wireless communication module 26, the power grid 34 and the trap lamp 33. The controller can control the trap lamp 33 and the power grid 34 to be turned on and off at regular time, and in the embodiment, the trap lamp 33 and the power grid 34 can be turned on only at night, so that more energy is saved.

According to the pest and disease monitoring device and the remote monitoring system thereof, the sleeve 13 and the inner rod 14 which can be lifted are arranged, the infrared camera 22 for collecting image information and the environment sensor 23 for collecting environment parameter information are fixed on the inner rod 14, so that information in a monitoring area can be efficiently and comprehensively collected, a backstage worker can conveniently judge pest and disease damage, the height of the infrared camera 22 can be adjusted by adjusting the height of the inner rod 14, and the image collecting efficiency is further improved. By providing the sleeve 31 with the electrical network 34 and the light trap 33, the sleeve 31 is fixed to the sleeve 13 so that at night, the light trap can be used to attract pests which are then killed by the electrical network 34. The invention can carry out high-efficiency information acquisition, can provide the deinsectization function, is convenient to integrally disassemble and maintain and transport, and is suitable for popularization.

The invention realizes remote monitoring through the center console and the wireless communication module 26, thereby improving the working efficiency.

In addition, the present invention can effectively and stably fix the sleeve 13 by providing the base 11 with one insert 12 and a plurality of reinforcing piles 17. And a strap groove 132 for installing the strap 15 is provided on the outer circumferential wall of the sleeve 13, and the auxiliary pile 16 is fixed to the end of the strap 15, so that the strap 15 can be tightened and the auxiliary pile 16 can be inserted into the ground by fixing one end of the strap 15 in the strap groove 132, to further improve the structural stability of the base 11.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A plant disease and insect pest monitoring device is characterized in that: comprises a supporting component (1), a monitoring component (2) and a deinsectization component (3);

the supporting component (1) comprises a base (11), an inserting pile (12) is fixed at the bottom of the base (11), a sleeve (13) is fixed at the top of the base (11), an inner rod (14) is movably connected in the sleeve (13), the lower end of the inner rod (14) extends into the sleeve (13) from the upper end of the sleeve (13), a top plate (18) with a V-shaped structure is fixed at the top of the inner rod (14), a plurality of fixing holes (141) are formed in the inner rod (14) in the vertical direction, a fixing bolt (131) matched with the fixing holes (141) is installed on the sleeve (13), and a wireless communication module (26) is fixed at the top of the top plate (18);

the monitoring assembly (2) comprises a control box (21), the control box (21) is fixedly connected with a sleeve seat (24), the sleeve seat (24) is detachably fixed on the inner rod (14), and at least one infrared camera (22) and one environmental sensor (23) are fixed on the control box (21);

the insect killing assembly (3) comprises a clamping sleeve (31), the clamping sleeve (31) is detachably fixed on the outer wall of the sleeve (13), two clamping plates (32) which are oppositely arranged are fixed on the sleeve (13), an insect trapping lamp (33) and a power grid (34) with a cylindrical structure are fixed between the two clamping plates (32), and the insect trapping lamp (33) is positioned on the inner side of the power grid (34);

a controller and a storage battery are arranged in the control box (21), and the controller is electrically connected with the infrared camera (22), the environment sensor (23), the wireless communication module (26), the trap lamp (33) and the power grid (34); the storage battery is electrically connected with the controller, the infrared camera (22), the environment sensor (23), the wireless communication module (26), the trap lamp (33) and the power grid (34) to provide a power source.

2. A pest monitoring device according to claim 1 wherein: the top of the top plate (18) is provided with two plate grooves (181), and a solar cell panel (27) is fixed in each plate groove (181);

the solar cell panel (27) is electrically connected with the storage battery.

3. A pest monitoring device according to claim 1 wherein: the inserted pile (12) is of a conical structure, and the long-diameter end of the inserted pile (12) is connected to the central position of the lower surface of the base (11).

4. A pest monitoring device according to claim 3 wherein: a plurality of reinforcing piles (17) are fixed on the lower surface of the base (11), and the reinforcing piles (17) are of a conical structure;

the reinforcing piles (17) are uniformly distributed around the inserted piles (12) in an annular shape at intervals.

5. A pest monitoring device according to claim 1 wherein: the outer wall of the sleeve (13) is provided with an annular binding belt groove (132) formed by a depression;

a plurality of straps (15) are wound on the strap grooves (132), and one end of each strap (15) is fixed with an auxiliary pile (16).

6. A pest monitoring device according to claim 1 wherein: the clamping sleeve (31) is provided with an arc-shaped clamping groove, the clamping groove is tightly attached to the outer wall of the sleeve (13), and the clamping sleeve (31) is connected with the sleeve (13) through a plurality of bolts.

7. A pest monitoring device according to claim 1 wherein: the environment sensor (23) is provided with a temperature and humidity sensor, a PM2.5 sensor and a wind speed sensor.

8. A remote monitoring system for a pest monitoring device according to any one of claims 1 to 7, characterised in that: the method comprises the following steps:

an infrared camera (22) for acquiring image information of the monitored area;

an environment sensor (23) for acquiring environmental parameter information of the detection area;

an electrical grid (34) for killing insects contacting the electrical grid (34) when energized;

a trap lamp (33) for attracting pests close to the electric grid (34);

the controller is used for receiving the image information and the environmental parameter information and uploading the image information and the environmental parameter information to a center console through the wireless communication module (26); the controller is also used for controlling the working states of the infrared camera (22), the environment sensor (23), the wireless communication module (26) and the trap lamp (33).

Images