CN115226700A - Grain surface pest trapper and trapping system - Google Patents

Abstract

The invention discloses a grain surface pest trap and a trapping system, wherein the trap comprises a main shell and a trap part, the lower part of the main shell is provided with a plurality of pest climbing holes, the trap part is arranged at the top of the main shell, a pest sucking part and a pest storage chamber which are mutually communicated and fixedly arranged in the main shell are sequentially arranged below the trap part, the trap part comprises a main board and a plurality of UVA ultraviolet semiconductor chip light sources, the main board is erected at the top of the pest sucking part, the UVA ultraviolet semiconductor chip light sources are uniformly arranged around the main board and are electrically connected with the main board, and the pest climbing holes are communicated with the pest storage chamber. The invention avoids the defects of traditional physical control and mechanical control, has excellent killing effect on crawling and flying pests, does not produce harmful residues, and is safe and reliable; the whole trapping system realizes networked management, facilitates the control of the trap switch and pest statistics by workers under the condition of not entering a granary, reduces the labor intensity of the workers and improves the efficiency.

Description

Grain surface pest trapper and trapping system

Technical Field

The invention relates to the technical field of pest traps, in particular to a grain pest trap and a grain pest trapping system.

Background

When the granary is used as a grain storage warehouse, various pests are prone to breeding inside the granary, so that grain storage loss in an industrial chain is serious, and the quantity of the pests in the granary needs to be strictly controlled in order to improve grain storage technology of the grain. The traditional method is that before the grain is put into a warehouse, the pesticide is firstly used for killing pests in the warehouse in advance, however, pesticide residue becomes the primary problem of agricultural product and food safety, and in order to realize the quality safety of the agricultural product and food, the chemical pesticide is not used or is not used in the agricultural production and storage links. Then, in order to know insect pest situations of grains in storage at any time, insect pest traps are often placed in the granary, and the existing common insect pest traps mainly comprise extension pipes, insect catching cages, insect killing lamps and the like; the extension tube and the insect catching cage can only attract crawling grain storage pests, and have no trapping effect on flying grain storage pests. The deinsectization lamp is lured flight class storage grain pest through light, then hits the pest through the electric wire netting of configuration on the deinsectization lamp and kills, but the deinsectization lamp of this structure can only produce the effect to the pest that contacts the electric wire netting, and the deinsectization efficiency to crawling class storage grain pest is comparatively low, and the limitation is great.

Other insect killing methods such as grain fumigation and the use of an insect attractant adopt technical measures that the compounds such as the fumigant kill pests, germs or other harmful organisms in a sealable place, but the grain fumigation operation has high danger and has a toxic action on human bodies, and if the compounds are improperly used or carelessly, accidents can be caused, so that the life safety is threatened. The attractant for preventing and controlling the grain storage pests is a variety which is determined after strict research and screening, the residual quantity of the insecticide in the grain must be lower than the MRL level, otherwise, the attractant is not allowed to be used, so the inestimable danger is brought due to the excessively high residual quantity of the attractant, different pesticide effects are required to be realized on different grain storage pests, and the attractant is strong in limitation and not suitable for being used comprehensively.

Therefore, the existing trapping scheme is not enough in stability and single in trapping effect, and the efficiency and effectiveness on pest killing are not very strong, so that the efficiency is not high. Some granaries have large area, a large number of pest traps need to be placed, the operation is very troublesome, time and labor are wasted, and the great working difficulty is increased for workers.

Disclosure of Invention

The invention aims to provide a grain pest trapper and a grain pest trapping system aiming at the defects of the prior art, so that the defects of traditional physical prevention and mechanical prevention are overcome, the excellent killing effect is realized on crawling and flying pests, no harmful residue is generated, and the safety and the reliability are realized; the whole trapping system realizes networked management, facilitates the control of the opening and closing of the trapper and pest statistics by workers under the condition that the workers do not enter a granary, reduces the labor intensity of the workers and improves the efficiency.

The technical scheme for realizing the aim of the invention is as follows:

the utility model provides a grain pest trapper, is equipped with the main casing body of a plurality of wormholes and locates the insect trapping part at main casing body top including the lower part, the below of insect trapping part is equipped with mutual intercommunication and fixed mounting in proper order at the inside trematode portion of main casing body and stores up the insect room, insect trapping part is including erectting the mainboard at trematode portion top and surrounding the even a plurality of UVA ultraviolet semiconductor chip light sources that set up and link with the mainboard electricity of mainboard, the wormhole intercommunication stores up the insect room.

Further, the trematode portion includes that top-down fixes the air inlet graticule mesh that links to each other in proper order, first connection cover, suction fan, second connection cover and baffle, the baffle is made for transparent material, the top of first connection cover and the outer lane of baffle all link to each other with the inner wall of the main casing body is fixed, the suction fan is connected with the mainboard electricity.

Further, the air inlet graticule mesh includes integrated into one piece's annular connecting portion and the air inlet portion that has the hexagon to lead to the check that is full of, annular connecting portion inner wall is big-end-up's domatic.

Further, the first connecting cover is funnel-shaped.

Further, the central authorities of air inlet graticule mesh are equipped with the installation boss, the PCB that fixedly connected with is located central authorities on the installation boss shelters from the panel beating, PCB shelters from and installs many reference columns on the panel beating perpendicularly, the mainboard shelters from the panel beating through reference column and PCB and links to each other fixedly.

Furthermore, an annular radiator is fixedly arranged on the mounting boss, a plurality of mounting grooves are uniformly formed in the outer wall of the annular radiator, a copper substrate attached to the inner side is arranged in each mounting groove, and the UVA ultraviolet semiconductor chip light source is fixedly mounted on the copper substrate.

Furthermore, a reflecting seat surrounding the UVA ultraviolet semiconductor chip light source is embedded in the mounting groove.

Furthermore, the bottom of baffle is equipped with the spout in parallel, the lower part of main casing body is equipped with the pull mouth, store up the worm room and adopt the slip to locate between two spouts and with the worm box of pull mouth looks adaptation.

Further, the bottom of the main shell is coaxially and fixedly connected with a tray with the outer diameter larger than that of the main shell

The utility model provides a grain pest trapping system, includes remote control system and a plurality of as above grain pest trapper, be equipped with the wifi module with the wireless intercommunication of remote control system on the mainboard, the inner wall fixed mounting of the main casing body has the camera that is connected and integrate the wifi chip with the mainboard electricity, the outer wall fixed mounting of the main casing body has the antenna of being connected with the mainboard electricity.

By adopting the technical scheme, the invention has the following beneficial effects:

(1) The pest trapping part is arranged, so that pests in the granary are trapped, crawling pests enter the pest storage chamber from crawler holes in the lower portion, flying pests enter the pest storage chamber under the action of the pest sucking part when arriving near the pest trapping part, killing is achieved, the defects of traditional physical control and mechanical control are avoided, and the pest trapping part is safe and reliable; the novel UVA ultraviolet semiconductor chip light source is adopted to replace the traditional mercury lamp, the light source intensity is controllable, the irradiation energy density exceeds ten times or even tens of times, meanwhile, the service life is longer, the irradiation area is larger, and the pest killing effect is obviously improved; in addition, the semiconductor chip is leading-edge technology of world development, iteration upgrading is very fast, processing efficiency can be rapidly improved, later-stage upgrading is facilitated, and optimization cost is reduced.

(2) The insect suction part adopts the suction fan, and forms an air duct with the upper connecting cover and the lower connecting cover, thereby forming airflow for sucking winged insects and simultaneously playing a good role in radiating UVA ultraviolet semiconductor chip light source.

(3) The annular connecting part of the air inlet grid adopts a slope design, so that a certain guiding effect is formed on the airflow, and the blockage of the air inlet grid on the airflow is reduced to the maximum extent.

(4) The first connecting cover is funnel-shaped, the inclination angle is 35-45 degrees, the suction fan forms larger air flow, and the insect suction effect is further improved.

(5) The installation boss is arranged to provide an installation position for the mainboard, and the PCB shielding metal plate and the positioning column are used for realizing the overhead arrangement of the mainboard, so that the mainboard has a larger heat dissipation space, the burning-out in long-term use is avoided, and the service life is prolonged.

(6) The invention is provided with the annular radiator, and the UVA ultraviolet semiconductor chip light source quickly transfers heat to the annular radiator through the copper substrate, thereby further improving the heat dissipation effect, effectively solving the problem that the UVA ultraviolet semiconductor chip light source generates heat during working and prolonging the service life.

(7) The invention is provided with the reflecting seat, so that the irradiation area of the UVA ultraviolet semiconductor chip light source diffused to the granary is enlarged, and the insect attracting and killing effects are further improved.

(8) The insect storage chamber disclosed by the invention adopts a drawing structure, so that the insect storage chamber is more convenient to clean.

(9) The tray is arranged, on one hand, the placing stability is improved, on the other hand, due to the fact that UVA has the insect killing effect, flying insects can be killed without being sucked into the trap, corpses can be scattered on the surface or the periphery of the trap, the tray can receive the falling flying insects, and the cleanliness of the granary is kept.

(10) The grain surface pest trapping system is provided with the remote control system, communication is realized with the traps through the wifi module, so that networked management is realized, the camera is arranged in the main shell of each trap, the types and the number of pests in the pest storage chamber can be intuitively reflected, and shot images are transmitted to the remote control system, so that management is facilitated, workers can conveniently control the on-off of the traps and statistics of the pests under the condition that the workers do not enter a granary, the labor intensity of the workers is reduced, and the efficiency is improved; through setting up the antenna, reinforcing wifi module signal avoids the signal not good.

Drawings

In order that the manner in which the present invention is more fully understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings, wherein:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the structure of an air inlet grid according to the present invention;

FIG. 4 is a schematic view of the structure of the insect attracting portion of the present invention;

FIG. 5 is a schematic view of the insect storage chamber of the present invention.

The reference numbers in the figures are:

the insect attracting device comprises a main shell 1, an insect crawling hole 1-1, a drawing opening 1-2, an insect attracting part 2, a main board 2-1, a UVA ultraviolet semiconductor chip light source 2-2, a PCB shielding metal plate 2-3, a positioning column 2-4, an annular radiator 2-5, a copper substrate 2-6, a light reflecting seat 2-7, an insect sucking part 3, an air inlet grid 3-1, an annular connecting part 3-1-1, an air inlet part 3-1-2, an installation boss 3-1-3, a first connecting cover 3-2, an air suction fan 3-3, a second connecting cover 3-4, a partition plate 3-5, a sliding groove 3-5-1, an insect storage chamber 4, a camera 5, an antenna 6, a button 7, a decoration panel 8 and a tray 9.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

(example 1)

The grain surface pest trapping system comprises a remote control system and a plurality of grain surface pest traps shown in figures 1 to 5, the remote control system is used for operating the traps arranged in a granary to be automatically opened and closed, counting and identifying pest types, pest numbers and the like, meanwhile, the distribution position of each trap can be inquired through background management, networked management is achieved, the labor intensity of workers is reduced, and the efficiency is improved.

Specifically, grain side pest trapper includes main casing body 1 and top-down sets gradually and each other's insect attracting portion 2, trematode portion 3 and storage insect room 4 that communicate, and wherein insect attracting portion 2 locates the top of main casing body 1, and trematode portion 3 and storage insect room 4 are fixed to be located in main casing body 1, and the lower part of main casing body 1 is equipped with a plurality of wormholes 1-1 that communicate storage insect room 4. The pest in the granary is attracted through the pest trapping part 2, the crawling pest enters the pest storage chamber 4 from the crawling pest hole 1-1 in the lower portion, and the flying pest is sucked into the pest storage chamber 4 under the action of the pest sucking part 3 when arriving near the pest trapping part 2, so that the pest killing is realized, the defects of traditional physical control and mechanical control are avoided, and the pest trapping device is safe and reliable.

The insect attracting part 2 comprises a main board 2-1 erected at the top of the insect sucking part 3 and a plurality of UVA ultraviolet semiconductor chip light sources 2-2 which are uniformly arranged around the main board 2-1 and electrically connected with the main board 2-1, and compared with a traditional mercury lamp, the UVA ultraviolet semiconductor chip light sources 2-2 are controllable in light source intensity, long in service life and large in irradiation area, irradiation energy density exceeds ten times or even tens of times, and the pest killing effect is remarkably improved. In addition, the semiconductor chip is leading-edge science and technology of world development, and the iteration upgrading is very fast, can obtain quick promotion in the treatment effeciency, and the later stage of being convenient for is upgraded, reduces optimization cost. Basic circuits, a power supply and a wifi module wirelessly communicated with a remote control system are integrated on the main board 2-1, various data of the UVA ultraviolet semiconductor chip light source 2-2, such as working duration, temperature, ambient temperature and humidity, can be automatically acquired, and are transmitted to a cloud end through an MQTT communication protocol. The inner wall fixed mounting of the main casing body 1 has the camera 5 of being connected with mainboard 2-1 electricity to the integrated wifi chip that has in the camera 5 can directly shoot the pest kind and the quantity in the insect storage room through the camera, and will shoot through the RSTP agreement and look the screen and transmit to the high in the clouds, carries out analysis, the statistics of data through the target detection yolov3 recognition algorithm, the staff's management of being convenient for. Considering that the internal structure of the trap can cause unstable wifi signal, the antenna 6 electrically connected with the main board 2-1 is fixedly installed on the outer wall of the main casing 1 in the embodiment. The button 7 is arranged above the main board 2-1, so that the trap can be controlled to be opened and closed through a remote control system, and the trap can be manually controlled to be opened and closed through the button 7, and the use is convenient. Meanwhile, the outer ring of the button 7 is provided with a decoration panel 8, so that the appearance of the embodiment is more attractive.

The insect suction part 3 comprises an air inlet grid 3-1, a first connecting cover 3-2, a suction fan 3-3, a second connecting cover 3-4 and a partition plate 3-5 which are sequentially and fixedly connected from top to bottom. The top of the first connecting cover 3-2 and the outer ring of the partition plate 3-5 are fixedly connected with the inner wall of the main shell 1, so that the fixed installation of the insect sucking part 3 is realized. The suction fan 3-3 is electrically connected with the main board 2-1 and forms an air channel with the upper connecting cover and the lower connecting cover, when the suction fan is started, air flow can be formed to suck winged insects, and meanwhile, the suction fan plays a good heat dissipation role in the UVA ultraviolet semiconductor chip light source 2-2.

The air inlet grid net 3-1 is integrally of an annular structure and comprises an integrally formed annular connecting portion 3-1-1 and an air inlet portion 3-1-2 which is full of hexagonal through grids, the inner wall of the annular connecting portion 3-1-1 is a slope surface with a large upper part and a small lower part, a certain guiding effect is formed on air flow generated by the insect sucking portion 3, and the air inlet grid net 3-1 is maximally reduced to block the air flow.

The inner ring of the air inlet portion 3-1-2 is provided with an installation boss 3-1-3, a PCB shielding metal plate 2-3 covering the center is fixedly connected to the installation boss 3-1-3, four positioning columns 2-4 are vertically installed on the PCB shielding metal plate 2-3, and the main board 2-1 is fixedly connected with the PCB shielding metal plate 2-3 through the positioning columns 2-4 to be erected at the top of the insect sucking portion 3, so that the main board 2-1 has a large heat dissipation space, burning of the main board in long-term use is avoided, and the service life is prolonged.

The annular radiators 2-5 are fixedly arranged on the mounting bosses 3-1-3, four mounting grooves are uniformly formed in the outer walls of the annular radiators 2-5, copper substrates 2-6 attached to the inner sides are arranged in the mounting grooves, eight UVA ultraviolet semiconductor chip light sources 2-2 are arranged, and every two of the UVA ultraviolet semiconductor chip light sources are vertically distributed and fixedly mounted on the copper substrates 2-6. The optimal distance of illumination of the two light sources in each group is larger than 50cm, which is just the optimal moving range of the booklice and the corn elephant, and the trapping effect is optimal. In order to increase the irradiation area, a reflecting seat 2-7 surrounding the UVA ultraviolet semiconductor chip light source 2-2 is also embedded in the mounting groove.

The first connecting cover 3-2 is funnel-shaped, the inclination angle of the first connecting cover is 40 degrees, air flow at the inlet of the insect suction part 3 is increased, and the insect suction effect is further improved. The bottom of the partition board 3-5 is provided with a sliding chute 3-5-1 in parallel, the lower part of the main shell 1 is provided with a drawing opening 1-2, and the insect storage chamber 4 adopts an insect box which is arranged between the two sliding chutes 3-5-1 in a sliding way and is matched with the drawing opening, so that the internal pests can be cleaned more conveniently. Meanwhile, in order to ensure that the camera 5 can shoot normally, the partition plates 3-5 of the embodiment are made of transparent materials.

Because UVA deep ultraviolet has the effect of insecticidal, can lead to the winged insect just to be killed in not being inhaled the trapper, the corpse can scatter on trapper surface or around, and this embodiment is in the coaxial fixedly connected with tray 9 that the external diameter is greater than main casing 1 external diameter in main casing 1's bottom for receive the winged insect that drops, keep the clean of granary, improve the stability of putting to the grain face simultaneously.

The pest control device avoids the defects of traditional physical control and mechanical control, attracts pests in a granary by arranging the pest attracting part, and for crawling pests, the crawling pests enter the pest storage chamber from the crawler holes in the lower part, and for flying pests, the flying pests enter the pest storage chamber under the action of the pest sucking part when reaching the position close to the pest attracting part, so that killing is realized, the defects of traditional physical control and mechanical control are avoided, and the pest control device is safe and reliable; a brand-new UVA ultraviolet semiconductor chip light source is adopted to replace a traditional mercury lamp, the light source intensity is controllable, the irradiation energy density exceeds ten times or even tens of times, meanwhile, the service life is longer, the irradiation area is larger, and the pest killing effect is obviously improved. Realize communication through wifi module and trapper to realize the networked management, all be equipped with the camera in the main casing of each trapper, can reflect out the pest kind and the quantity in the storage insect room directly perceivedly, and convey the image of shooting to remote control system, the management of being convenient for makes things convenient for the staff to control the switch and the pest statistics of trapper under the condition that does not get into the granary, reduces staff intensity of labour, raises the efficiency.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A grain pest trapper is characterized in that: be equipped with the main casing body of a plurality of wormholes and locate the insect trapping part at main casing body top including the lower part, the below of insect trapping part is equipped with mutual intercommunication and fixed mounting in proper order at the inside trematode portion of main casing body and stores up the insect room, insect trapping part is including erectting the mainboard at trematode portion top and surrounding a plurality of UVA ultraviolet semiconductor chip light sources that the mainboard evenly set up and link with the mainboard electricity, the wormhole intercommunication stores up the insect room.

2. The grain pest trap of claim 1, wherein: the insect sucking part comprises an air inlet grid, a first connecting cover, a suction fan, a second connecting cover and a partition plate which are sequentially and fixedly connected from top to bottom, the top of the first connecting cover and the outer ring of the partition plate are fixedly connected with the inner wall of the main shell, and the suction fan is electrically connected with the main board.

3. The grain pest trap of claim 2, wherein: the air inlet graticule mesh includes integrated into one piece's annular connecting portion and is full of the air inlet portion that has the hexagon to lead to the check, annular connecting portion inner wall is big-end-up's domatic down.

4. The grain pest trap of claim 2, wherein: the first connecting cover is funnel-shaped.

5. The grain pest trap of claim 2, wherein: the central authorities of air inlet graticule mesh are equipped with the installation boss, the PCB that fixedly connected with is located central authorities on the installation boss shelters from the panel beating, PCB shelters from and installs many reference columns on the panel beating perpendicularly, the mainboard shelters from the fixed linking to each other of panel beating through reference column and PCB.

6. The grain pest trap of claim 5, wherein: the mounting boss is fixedly provided with an annular radiator, the outer wall of the annular radiator is uniformly provided with a plurality of mounting grooves, a copper substrate tightly attached to the inner side is arranged in each mounting groove, and the UVA ultraviolet semiconductor chip light source is fixedly mounted on the copper substrate.

7. The grain pest trap of claim 5, wherein: and a reflecting seat surrounding the UVA ultraviolet semiconductor chip light source is embedded in the mounting groove.

8. The grain pest trap of claim 2, wherein: the bottom parallel of baffle is equipped with the spout, the lower part of main casing body is equipped with the pull mouth, store up the worm room and adopt the slip to locate between two spouts and with the worm box of pull mouth looks adaptation.

9. The grain pest trap of claim 1, wherein: the bottom of the main shell is coaxially and fixedly connected with a tray with the outer diameter larger than that of the main shell.

10. The utility model provides a grain pest trapping system which characterized in that: the grain surface pest trapper comprises a remote control system and a plurality of grain surface pest trappers as claimed in any one of claims 1 to 9, wherein a wifi module wirelessly communicated with the remote control system is arranged on the main board, a camera which is electrically connected with the main board and integrated with a wifi chip is fixedly arranged on the inner wall of the main shell, and an antenna which is electrically connected with the main board is fixedly arranged on the outer wall of the main shell.

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