Insect disorienting smart dispenser

CN224402728UActive Publication Date: 2026-06-26广州瑞丰生物科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
广州瑞丰生物科技有限公司
Filing Date
2025-08-01
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing insect maze diffusers cannot adjust the amount and timing of drug release according to the insect's habits. The efficiency of the light source and drug spray working together is low, and the drug release range is small and uncontrollable.

Method used

The device employs a combination of a three-pronged sustained-release carrier rod and an atomizing plate with an electronic control unit. The control board dynamically adjusts the working status of the interference light source and the atomizing plate, and the software connected via Bluetooth controls the drug release time and cycle, thereby expanding the drug spraying range and achieving wide drug distribution through multiple nozzles.

Benefits of technology

It optimized the prevention and control effect, reduced drug waste, improved the synergistic working efficiency of drug spraying and interference light source, and expanded the drug spraying range.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224402728U_ABST
    Figure CN224402728U_ABST
Patent Text Reader

Abstract

The utility model relates to the field of agricultural insecticidal device, especially insect disorientation intelligent dispenser, including shell, medicine bottle, atomization device and electric control device, atomization device and electric control device install in the inside of shell, shell and medicine bottle are detachably connected, atomization device includes connecting pipe, atomization piece and nozzle, and electric control device includes control panel and interference light source, after using mobile equipment and control panel carry out bluetooth connection, according to the work and rest rule of different insects, control the working condition of atomization device and interference light source on the software to reach the effect of accurate control of the use amount and use time of drug, help to improve insect control efficiency and reduce drug waste, interference light source sets up on the shell, is used for attracting insects to gather, cooperates the work of atomization device to optimize the control effect, atomization device helps to control the release rate of drug, the outside wall of shell is equipped with a plurality of injection holes, helps to increase the spraying range of drug.
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Description

Technical Field

[0001] This utility model relates to the field of agricultural insecticidal devices, and in particular to an intelligent insect-attracting diffuser. Background Technology

[0002] With the widespread use of pheromones in agricultural pest control, diffusers for releasing attraction pheromones have become common agricultural pest control devices.

[0003] Existing diffusers have limited functions. For example, they are insecticide devices that attract insects with a light source and then spray pesticides through infrared sensors; they are electrical distribution boxes that attract insects with a light source and then kill insects through pesticide volatilization; and they are diffusers that use a microcontroller to control a solenoid valve or gear device to spray pesticides.

[0004] Existing diffusers will encounter the following problems during long-term use: they cannot adjust the release amount and time of the drug and the switching on and off of the light source in a timely manner according to different insect habits and other actual conditions, resulting in waste of resources and reduced control efficiency; the synergistic working efficiency of the light source and drug spray is low; the spraying range of the drug is small; and the release rate of the drug is uncontrollable. Utility Model Content

[0005] In view of the shortcomings of the prior art, the purpose of this utility model is to provide an intelligent insect-attracting transmitter, which is conducive to the promotion and large-scale application of insect-attracting technology.

[0006] An intelligent insect-attracting diffuser includes a housing, a medicine bottle, an electronic control device, and an atomizing device. The housing is detachably connected to the medicine bottle, which contains the medicine. The atomizing device includes a connecting tube, an atomizing plate, and a nozzle. One end of the connecting tube is connected to the atomizing plate, and the other end extends into the medicine bottle to contact the medicine. The nozzle is located on the outer wall of the housing, and the atomizing plate is located inside the housing and connected to the nozzle. The electronic control device includes a control board, an interference light source, and a battery. The control board and the battery are located inside the housing, and the interference light source is located outside the housing. The battery supplies power to the interference light source and the control board, and the control board controls the switching of the interference light source and the vibration of the atomizing plate.

[0007] Specifically, the outer casing includes a lower casing and an upper casing covering the upper end of the lower casing. The top of the upper casing is provided with a fixing hole, and the upper casing is fixed to the lower casing by screws passing through the fixing hole. The interference light source is disposed on the side of the upper casing, the nozzle is disposed on the side of the upper casing, the side of the lower casing is provided with a through hole that mates with the nozzle, and the control board is disposed inside the lower casing.

[0008] Specifically, the lower housing has a groove for placing the connecting tube and a battery slot for placing the battery inside, and the groove is fixedly connected to the through hole; the bottom of the lower housing has a connecting tube outlet, and the end of the connecting tube away from the atomizing plate extends out from the connecting tube outlet.

[0009] Specifically, the battery is a lithium battery; the connecting tube is a three-pronged slow-release carrier rod, the lower part of the connecting tube is a main tube, and the upper end of the main tube extends into three independent branch tubes; the tube groove is a "Y"-shaped groove, the "Y"-shaped groove includes three independent tube grooves radially dispersed along the center of the lower shell, the outlet of the connecting tube is located at the center of the intersection of the independent tube grooves, the main tube extends out of the outlet of the connecting tube, and the branch tubes are accommodated in the independent tube grooves; each of the three branch ends of the tube groove is provided with an atomizing plate slot for accommodating the atomizing plate; the outer side wall of the upper shell is provided with three nozzles that cooperate with the tube groove, and the outer side wall of the lower shell is provided with three through holes that cooperate with the nozzles; the atomizing device also includes a "Y"-shaped connecting piece, the "Y"-shaped connecting piece is disposed in the tube groove and covers the top of the connecting tube to limit and fix the connecting tube.

[0010] Specifically, the control board includes a light source control board and an atomization control board. The light source control board controls the switching of the interfering light source, and the atomization control board controls the operation of the atomizing plate. The atomization control board is connected to a button battery, which is fixed to the atomization control board. The light source control board is located inside the housing. The atomization control board has several mounting holes, and the atomization control board is fixed to the inside of the housing by screws passing through the mounting holes.

[0011] Specifically, the outer shell is connected to a support rod fixing mechanism, which includes a support rod sleeve and a support rod retainer. The support rod sleeve is fixedly connected to the outside of the outer shell, and the support rod sleeve is provided with a fixed connection screw hole. The support rod retainer is screwed through the fixed connection screw hole to limit and fix the support rod.

[0012] Specifically, the bottom of the outer shell is provided with an internal thread, and the upper end of the medicine bottle is provided with an external thread that mates with the internal thread. The outer shell is threadedly connected to the medicine bottle.

[0013] Specifically, the electronic control device also includes a power switch, which is located at the bottom of the housing and controls the power-on state of the control board.

[0014] Specifically, the electronic control device also includes a solar photovoltaic panel, which is disposed on the top of the housing and is electrically connected to the battery.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] 1. After connecting to the control board via Bluetooth, users can dynamically control the working status of the interference light source and the atomizing plate on the accompanying software. They can adjust and control the switching on and off of the light source and the application time and cycle of the pesticide according to the activity patterns of different types of insects, optimize the control effect, reduce pesticide waste, and improve the synergistic working efficiency of pesticide spraying and interference light source.

[0017] 1. The use of tri-pronged sustained-release carrier rods and atomizing plates facilitates the adjustment and control of the amount of drug sprayed per burst and the fineness of atomization, thereby helping to control the drug release rate and reduce drug waste;

[0018] 3. The three nozzles on the outer casing enable three-hole mist output, expanding the spraying distance range of the drug. Attached Figure Description

[0019] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0020] Figure 1 Schematic diagram of the structure of the intelligent diffuser for insect enthusiasts Figure 1 ;

[0021] Figure 2 An explosion image of an insect enthusiast heading toward a smart diffuser;

[0022] Figure 3 The image shows the front view of the smart dispenser after the insect enthusiast removed the medicine bottle. The image also shows the cross-sectional structure of the main tube from direction A.

[0023] Figure 4 A schematic diagram of the bottom of an insect-attracting intelligent diffuser.

[0024] The attached figures are labeled as follows: outer shell 10, medicine bottle 20, support rod fixing mechanism 50, interference light source 32, solar photovoltaic panel 35, nozzle 43, electronic control device 30, atomizing device 40, upper shell 11, control board 31, button battery 36, battery 33, "Y" shaped connecting piece 44, atomizing plate 42, connecting pipe 41, support rod sleeve 51, support rod fixer 52, lower shell 12, power switch 34, fixing hole 111, light source control board 311, atomizing control board 312, main pipe 411, branch pipe 412, pipe groove 122, through hole 121, battery groove 123, mounting hole 3121, independent pipe groove 1221, atomizing plate slot 1222, connecting pipe outlet 124. Detailed Implementation

[0025] This utility model provides an intelligent insect dispersing device. To make the purpose, technical solution, and effects of this utility model clearer and more explicit, the following describes this utility model in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain this utility model and are not intended to limit this utility model.

[0026] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0027] Please see Figure 1 and Figure 2 As shown, an insect-attracting smart diffuser includes a housing 10, a medicine bottle 20, an atomizing device 40, and an electronic control device 30. The housing 10 is detachably connected to the medicine bottle 20, which is used to contain medicine. The atomizing device 40 includes a connecting tube 41, an atomizing plate 42, and a nozzle 43. The electronic control device 30 includes a control board 31, an interference light source 32, a battery 33, and a button battery 36.

[0028] Please refer to Figure 2 and Figure 4 As shown, the outer casing 10 includes a lower casing 12 and an upper casing 11 covering the upper end of the lower casing 12; an interference light source 32 is provided on the side of the upper casing 11, and a solar photovoltaic panel 35 and a fixing hole 111 are provided on the top of the upper casing 11, so that the upper casing 11 can be fixed to the lower casing 12 with screws through the fixing hole 111; a pipe groove 122 and a battery groove 123 are provided inside the lower casing 12, and the battery 33 is placed in the battery groove 123; the bottom of the lower casing 12 is provided with a connecting pipe outlet 124, a power switch 34, and an internal thread that mates with the external thread of the upper end of the medicine bottle 20. The shell 10 is threaded; a through hole 121 is provided on the outer side wall of the lower shell, and the through hole 121 is connected to the nozzle 43 provided on the outer side wall of the upper shell 11; a support rod fixing mechanism 50 is fixedly connected to the side of the lower shell 12. The support rod fixing mechanism 50 includes a support rod sleeve 51 and a support rod fixer 52. The side of the support rod sleeve 50 is provided with a fixing connection screw hole. The support rod sleeve 51 can be used to fit the vertical rod fixed to the ground. The support rod fixer 52 passes through the fixing connection screw hole and is screwed to the fixing connection screw hole to fix the insect-attracting intelligent emitter to the vertical rod.

[0029] Please refer to Figure 2 , Figure 3 and Figure 4As shown, the tube groove 122 includes an independent tube groove 1221 and an atomizing plate slot 1222. The end of the independent tube groove 1221 is fixedly connected to the through hole 121. The atomizing plate slot 1222 is located at the end of the independent tube groove 1221. The atomizing plate 42 is placed in the atomizing plate slot 1222. During installation, the atomizing plate 42 is directly inserted into the atomizing plate slot 1222, which improves the installation efficiency. Moreover, the restriction of the atomizing plate slot 1222 prevents the atomizing plate 42 from shaking, thereby improving the structural stability.

[0030] Please refer to Figure 2 As shown, the connecting tube 41 includes a branch tube 412 and a main tube 411. The upper part of the branch tube 412 is placed in an independent tube groove 1221, and the lower part of the branch tube 412 is wrapped and fixed by the main tube 411. One end of the branch tube 412 is connected to the atomizing plate 42, and the other end extends into the medicine bottle 20 to contact the medicine. The connecting tube 41 uses the branch tube 412 to be embedded in the independent tube groove 1221 for radial positioning, and the lower part is wrapped by the main tube 411 to form a flexible and tight structure. This ensures that one end of the branch tube 412 is accurately aligned with the vibrating end face of the atomizing plate 42, and the other end extends vertically into the medicine bottle 20 to absorb the medicine, so that the medicine can be effectively conducted to the atomizing plate 42 through the cotton core in the branch tube.

[0031] In this embodiment of the insect-attracting intelligent diffuser, the groove 122 is a "Y" shaped groove. The groove 122 includes three independent grooves 1221 that are radially dispersed along the center of the lower shell 12. The center of the "Y" shaped groove is provided with a connecting pipe outlet 124.

[0032] The outer side wall of the upper housing 11 is provided with three nozzles 43 that cooperate with the "Y" shaped groove. The nozzles 43 are provided with a convex structure that is recessed into the upper housing 11. The outer side wall of the lower housing 12 is provided with three through holes 121 and three recesses that cooperate with the convex structure. The through holes 121 are fixedly connected to the recesses.

[0033] The connecting tube 41 is a three-pronged slow-release carrier rod, which includes three branch tubes 412 and a main tube 411. The three branch tubes 412 are placed inside the "Y"-shaped groove. The lower part of the three branch tubes 412 extends out from the connecting port 124 and is wrapped and fixed by a section of the main tube 411. A "Y"-shaped connecting piece 44 is provided above the "Y"-shaped groove. The "Y"-shaped connecting piece is placed on the top of the three-pronged slow-release carrier rod to limit and fix the three-pronged slow-release carrier rod.

[0034] The drug is transported from the medicine bottle 20 by the tri-pronged sustained-release carrier rod to one end of the tri-pronged sustained-release carrier rod connected to the atomizing plate and sprayed out simultaneously through three nozzles 43, thereby achieving the effect of expanding the drug spraying range.

[0035] In this embodiment of the insect-attracting intelligent diffuser, the branch tube 412 is made of cotton core, and the main tube 411 is made of non-woven fabric. Different types of cotton cores have different water absorption properties, and different types of cotton cores can be replaced according to the required amount of mist output per cycle. Different types of atomizing plates 42 have different pore sizes, and different types of atomizing plates 42 can be replaced according to the required atomization fineness. The drug release rate is affected by both the atomizing plate 42 and the branch tube 412. The ideal configuration can be adjusted according to actual needs to achieve the effect of controlling the drug release rate and reducing drug waste.

[0036] Please refer to Figure 2 As shown, the control board 31 includes a light source control board 311 and an atomization control board 312. The atomization control board 312 is provided with a button battery 36 and a mounting hole 3121. The atomization control board 312 can be fixed in the lower housing 12 by screws passing through the mounting hole 3121. The light source control board 11 above the battery 33 is placed in the battery slot 123.

[0037] In this embodiment of the insect-attracting intelligent diffuser, the light source control board 311 controls the switching of the interference light source 32, and the atomization control board 312 controls the vibration of the atomizing plate 42. After the user turns on the power switch 34, the user can use a control device (such as a mobile phone) to connect with the light source control board 311 and the atomization control board 312 via Bluetooth within a certain distance. The user can dynamically control the switching of the interference light source 32 and the start time and working cycle of the atomizing device 40 on the accompanying software.

[0038] In environments with poor lighting conditions, the interference light source 32 can effectively attract insects to gather near the diffuser after it is turned on. The on / off state of the interference light source 32 can be set according to the actual situation to work in coordination with the drug spray. For example, the interference light source 32 can be turned on for a period of time to attract a certain number of insects before the start time and cycle of the atomizing device 40 are set to improve the efficiency of the coordinated work of the interference light source 32 and the drug spray.

[0039] Users can adjust the spraying time and cycle of the drug according to the different insects' activity patterns and control the switching of the interference light source 32 to achieve precise interference with insect mating and reduce drug waste.

[0040] In this embodiment of the insect-oriented smart diffuser, the button battery 36 supplies power to the clock chip in the control board 31 and is located on the atomization control board 312 to ensure the accuracy of the diffuser's time data.

[0041] As a preferred embodiment, battery 33 is a lithium battery. Lithium batteries are small in size, which can reduce the overall weight of the insect-attracting smart diffuser. They also have a larger capacity and longer battery life for the same volume.

[0042] In a preferred embodiment, the solar photovoltaic panel 35 is electrically connected to the battery 33 and provides power to the battery 33. When sunlight shines on the solar photovoltaic panel 35, its semiconductor material absorbs photons and generates a photovoltaic effect, converting solar energy into direct current. This current flows into the positive electrode of the battery 33 through the circuit, driving lithium ions to be extracted from the positive electrode material and inserted into the negative electrode, realizing chemical energy storage. At the same time, the anti-reverse charging diode connected in series with the solar photovoltaic panel 35 can prevent the battery from reverse discharging at night or in low light conditions. The matching charging controller adjusts the voltage and current in real time to avoid overcharging and over-discharging, ensuring that the battery 33 stores energy efficiently within a safe range, providing a stable power supply for insect enthusiasts to send to the smart generator.

[0043] The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the embodiments described. Those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention. All such equivalent modifications or substitutions are included within the scope defined by the claims of the present invention.

Claims

1. An insect-attracting intelligent diffuser, comprising a casing (10) and a vial (20), characterized in that: The insect-attracting intelligent diffuser also includes an atomizing device (40) and an electronic control device (30); The outer shell (10) is detachably connected to the medicine bottle (20); The medicine bottle (20) is used to hold medicine; The atomizing device (40) includes a connecting tube (41), an atomizing plate (42), and a nozzle (43). One end of the connecting tube (41) is connected to the atomizing plate (42), and the other end extends into the medicine bottle (20) to contact the medicine. The nozzle (43) is disposed on the outer wall of the outer shell (10), and the atomizing plate (42) is disposed inside the outer shell (10) and connected to the nozzle (43). The electronic control device (30) includes a control board (31), an interference light source (32), and a battery (33). The control board (31) and the battery (33) are disposed inside the housing (10), and the interference light source (32) is disposed outside the housing (10). The battery (33) supplies power to the interference light source (32) and the control board (31). The control board (31) controls the switching of the interference light source (32) and the vibration of the atomizing plate (42).

2. The insect-attracting intelligent disperser according to claim 1, characterized in that: The outer shell (10) includes a lower shell (12) and an upper shell (11) covering the upper end of the lower shell (12). The top of the upper shell (11) is provided with a fixing hole (111). The upper shell (11) is fixed to the lower shell (12) by screws passing through the fixing hole (111). The interference light source (32) is disposed on the side of the upper housing (11), the nozzle (43) is disposed on the side of the upper housing (11), the side of the lower housing (12) is provided with a through hole (121) that cooperates with the nozzle (43), and the control plate (31) is disposed inside the lower housing (12).

3. The insect-attracting intelligent diffuser according to claim 2, characterized in that: The lower housing (12) is provided with a tube groove (122) for placing the connecting tube (41) and a battery groove (123) for placing the battery (33) inside. The tube groove (122) is fixedly connected to the through hole (121). The bottom of the lower housing (12) is provided with a connecting pipe outlet (124), and the end of the connecting pipe (41) away from the atomizing plate (42) extends out from the connecting pipe outlet (124).

4. The insect-attracting intelligent disperser according to claim 3, characterized in that: The battery (33) is a lithium battery; The connecting tube (41) is a three-pronged slow-release carrier rod. The lower part of the connecting tube (41) is a main tube (411), and the upper end of the main tube (411) extends out three independent branch tubes (412). The groove (122) is a "Y" shaped groove, which includes three independent grooves (1221) radially distributed along the center of the lower shell (12). The connecting pipe outlet (124) is located at the center of the intersection of the independent grooves (1221). The main pipe (411) extends out of the connecting pipe outlet (124), and the branch pipe (412) is accommodated in the independent groove (1221). The three branch ends of the tube (122) are each provided with an atomizing plate slot (1222) for accommodating the atomizing plate (42); The outer side wall of the upper housing (11) is provided with three nozzles (43) that cooperate with the tube groove (122), and the outer side wall of the lower housing (12) is provided with three through holes (121) that cooperate with the nozzles (43). The atomizing device (40) also includes a "Y"-shaped connecting piece (44), which is disposed in the groove (122) and covers the top of the connecting tube (41) to limit and fix the connecting tube (41).

5. The insect-attracting intelligent diffuser according to claim 1, characterized in that: The control board (31) includes a light source control board (311) and an atomization control board (312). The light source control board (311) controls the switching of the interference light source (32), and the atomization control board (312) controls the operation of the atomizing plate (42). The atomization control board (312) is connected to a button battery (36), and the button battery (36) is fixed on the atomization control board (312); The light source control board (311) is disposed inside the housing (10); The atomization control board (312) is provided with a plurality of mounting holes (3121), and the atomization control board (312) is fixed to the inside of the outer shell (10) by screws passing through the mounting holes (3121).

6. The insect-attracting intelligent diffuser according to claim 1, characterized in that: The outer shell (10) is connected to a support rod fixing mechanism (50), which includes a support rod sleeve (51) and a support rod retainer (52). The support rod sleeve (51) is fixedly connected to the outside of the outer shell (10). The support rod sleeve (51) is provided with a fixed connection screw hole. The support rod retainer (52) is screwed through the fixed connection screw hole to limit and fix the support rod.

7. The insect-attracting intelligent diffuser according to claim 1, characterized in that: The bottom of the outer shell (10) is provided with an internal thread, and the upper end of the medicine bottle (20) is provided with an external thread that mates with the internal thread. The outer shell (10) and the medicine bottle (20) are threadedly connected.

8. The insect-attracting intelligent diffuser according to claim 1, characterized in that: The electronic control device (30) also includes a power switch (34), which is located at the bottom of the housing (10) and controls the power-on state of the control board (31).

9. The insect-attracting intelligent disperser according to claim 1, characterized in that: The electronic control device (30) also includes a solar photovoltaic panel (35), which is disposed on the top of the housing (10) and is electrically connected to the battery (33).