A device for intelligent atomization insecticide in a container
By using an intelligent atomizing insecticide device inside the container, the liquid pesticide is sprayed into the container through a pump and atomizing structure, solving the technical problem of insecticide control in containers, achieving a highly efficient insecticide effect, and ensuring the ecological security of international trade.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- COMPREHENSIVE TECH SERVICE CENT OF QUANZHOU ENTRY EXIT INSPECTION & QUARANTINE BUREAU OF P R C
- Filing Date
- 2025-05-19
- Publication Date
- 2026-06-23
AI Technical Summary
Existing technologies lack efficient pest control devices suitable for use inside containers, making it impossible to effectively prevent the introduction of harmful organisms that threaten ecosystems and public health security.
A smart atomizing insecticide device for use inside shipping containers has been designed, comprising a medicine tank, a medicine pump, a battery, an atomizing structure, and a drug delivery tube. The medicine pump drives the liquid medicine to atomize and spray it into the container for insecticidal purposes. It is equipped with a liquid level sensor and a magnetic positioning structure for easy operation.
It achieves efficient pest control inside containers, ensures uniform distribution of pesticide solution, improves the ability to prevent the invasion of alien organisms, and safeguards the security of international trade.
Smart Images

Figure CN224386571U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of insecticidal device technology, and in particular to a device for intelligent atomization insecticidal treatment inside containers. Background Technology
[0002] Against the backdrop of rapid global trade development, containers, as the primary carriers for cross-border cargo transportation, are directly related to the ecological security, agricultural production, and public health of importing countries. However, containers are highly susceptible to carrying harmful organisms during transportation. Once introduced, these organisms can cause serious damage to local ecosystems, threaten crop yields, and even trigger public health emergencies.
[0003] Therefore, efficient and safe pest control of containers by customs is a key link in preventing the invasion of alien species and ensuring the security of international trade. Currently, there is an urgent need for a device suitable for pest control of containers. Utility Model Content
[0004] The purpose of this invention is to provide a device for intelligent atomization insect control inside shipping containers. The technical problem to be solved is how to provide a device suitable for insect control in shipping containers.
[0005] To achieve the above objectives, the solution of this utility model is: a device for intelligent atomizing insecticide in a container, comprising a main body, a drug delivery hose, and a handheld part;
[0006] The main body is equipped with a medicine tank, a medicine pump and a battery. The medicine tank is used to store the medicine liquid. The medicine pump inlet is connected to the medicine tank and the medicine pump outlet is connected to the medicine supply hose inlet. The battery is electrically connected to the medicine pump, which drives the medicine pump to pump the medicine liquid in the medicine tank into the medicine supply hose.
[0007] The handheld part is for human hand movement. The drug dispensing hose is connected to the handheld part. A drug dispensing tube extends from the handheld part and is used to be inserted into the container. The end of the drug dispensing tube has a drug dispensing port, which is connected to the drug dispensing hose.
[0008] An atomizing structure is provided between the drug delivery port and the drug pump outlet. The atomizing structure is used to atomize the drug liquid, so that the atomized drug liquid is sprayed out from the drug delivery port.
[0009] Furthermore, a positioning groove is provided on the top surface of the main body for the lower part of the handheld part to be inserted. A magnet is provided in the positioning groove for the handheld part to be magnetically attracted.
[0010] Furthermore, casters are installed on the bottom surface of the body.
[0011] Furthermore, a liquid level sensor is installed inside the medicine container to collect the liquid level of the medicine inside the container.
[0012] Furthermore, the main body is a closed box, and the inside of the box is divided into an electrical compartment and a medicine compartment. The battery is installed in the electrical compartment, and the medicine tank and medicine pump are installed in the medicine compartment. The electrical compartment is equipped with an electrical compartment door, and the medicine compartment is equipped with a medicine compartment door.
[0013] Furthermore, a transparent liquid level viewing window is provided on the door of the medicine container corresponding to the location of the medicine container, and the medicine container is made of transparent material.
[0014] Furthermore, it also includes a container gap insertion cone tube, which is used by a person to hold and insert into the container gap. It has a cone tip at the front end, a handle at the back end, and a drug delivery tube insertion channel running through it.
[0015] Furthermore, a protective tube is fixed to the outside of the handheld part. The protective tube is made of a rigid material, and the end of the protective tube extends away from the handheld part. The drug delivery tube is inserted into the protective tube and protected.
[0016] Furthermore, the protective tube and the handheld part are separated by a heat insulation sleeve.
[0017] Furthermore, a handle is provided on the handheld part.
[0018] The beneficial effects of this utility model after adopting the above solution are as follows: the medicine is stored in the medicine tank, and the medicine is pumped out of the medicine tank by the medicine pump so that the medicine reaches the hand-held part. The user holds the hand-held part and inserts the medicine tube into the container. The atomizing structure atomizes the medicine, and the atomized medicine is sprayed into the container from the medicine port at the end of the medicine tube to kill insects inside the container, thus providing a device that can kill insects in containers. Attached Figure Description
[0019] Figure 1 This is a perspective view of the present utility model;
[0020] Figure 2 This is a perspective view of the present invention from another angle;
[0021] Figure 3 A 3D view showing the area behind the medicine storage compartment door;
[0022] Figure 4 A 3D view showing the area behind the appliance compartment door;
[0023] Figure 5 A perspective view showing the handle removed from the main body and the bellows removed;
[0024] Figure 6 This is a cross-sectional view of the handheld part;
[0025] Figure 7 This is a cross-sectional view of the protective pipe;
[0026] Figure 8This is a schematic diagram of the controller's communication connections;
[0027] Figure 9 A cross-sectional view of a tapered tube inserted into a container gap.
[0028] Labeling Explanation: 1-Main Body, 2-Medication Supply Hose, 3-Handheld Part, 4-Medication Tank, 5-Medication Pump, 6-Battery, 7-Medication Pump Inlet, 8-Medication Pump Outlet, 9-Medication Supply Hose Inlet, 10-Medication Supply Hose Outlet, 11-Administration Tube, 12-Administration Port, 14-Positioning Groove, 15-Magnet, 16-Cast, 17-Level Sensor, 18-Electrical Compartment, 19-Medication Liquid Compartment, 20-Electrical Compartment Door, 21-Medication Liquid Compartment Door, 22-Transparent Level Viewing Window, 23-Container Gap Insertion Conical Tube, 24-Conical Tip, 25-Handle, 26-Administration Tube Insertion Channel, 27-Protective Tube, 28-Insulation Sleeve, 29-Handle, 35-Corrugated Pipe. Detailed Implementation
[0029] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
[0030] Embodiments of the invention will now be described in full with reference to the accompanying drawings. It should be noted that the invention may be implemented in various forms and is not limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
[0031] This utility model provides a device for intelligent atomized insect control inside shipping containers, such as... Figure 1-9 As shown, it includes a main body 1, a drug delivery tube 2, and a handheld part 3;
[0032] The main body 1 is equipped with a medicine tank 4, a medicine pump 5, and a battery 6. In a preferred embodiment, the main body 1 is a closed box, the interior of which is divided into an electrical compartment 18 and a medicine compartment 19. The battery 6 is installed in the electrical compartment 18, and the medicine tank 4 and the medicine pump 5 are installed in the medicine compartment 19, achieving isolation between the electrical circuit and the liquid circuit. The electrical compartment 18 is equipped with an electrical compartment door 20, and the medicine compartment is equipped with a medicine compartment door 21. Thus, opening the electrical compartment door 20 allows for maintenance of the electrical circuit, while opening the medicine compartment door 21 allows for maintenance of the liquid circuit. 1. Casters 16 are installed on the bottom surface. Specifically, four casters 16 are set and located at the four corners of the bottom surface of the box. This allows the user to push the main body to move on the ground and move the main body 1 to a position close to the container. The medicine tank 4 is used to store the medicine liquid. The medicine pump inlet 7 is connected to the medicine tank 4, and the medicine pump outlet 8 is connected to the medicine supply hose inlet 9 (the connection to is not limited to a direct connection, and may also include other medicine liquid flow pipelines). The battery 6 is electrically connected to the medicine pump 5 to drive the medicine pump 5 to pump the medicine liquid in the medicine tank 4 into the medicine supply hose 2.
[0033] The handheld part 3 is for human hand-held movement. For ease of use, the handheld part 3 preferably has a handle 29. To facilitate placement and fixation of the handheld part 3 when not in use, the top surface of the main body 1 preferably has a positioning groove 14 for the lower part of the handheld part 3 to be inserted. A magnet 15 is placed inside the positioning groove 14 to magnetically attract the handheld part 3. The dispensing end 10 of the medication tubing is connected to the handheld part 3. A medication tube 11 extends from the handheld part 3 and is inserted into a container. The end of the medication tube 11 has a medication port 12, which is connected to the dispensing end 10 of the medication tubing. Of course, the handheld part 3... Other liquid path for medication is provided between the administration port 12 and the dispensing end 10 of the medication delivery tube, which will be described in detail later. In a preferred embodiment, to prevent mechanical damage to the administration tube 11, a protective tube 27 is fixed to the outside of the handheld part 3. The protective tube 27 is made of a rigid material, and the end of the protective tube 27 extends away from the handheld part 3. The administration tube 11 is inserted into the protective tube 27 and protected. Furthermore, to prevent the administration tube 11 from conducting high temperature to the surface of the handheld part 3 and burning the user, the protective tube 27 is preferably separated from the handheld part 3 by a heat insulation sleeve 28. In this embodiment, the heat insulation sleeve 28 is made of Teflon.
[0034] An atomizing structure is provided between the drug delivery port 12 and the drug pump outlet 8. The atomizing structure can be any existing device that can heat and atomize liquid, without specific limitations, as long as the atomizing structure is used to atomize the drug liquid so that the atomized drug liquid is sprayed out from the drug delivery port 12. When in use, the atomized drug liquid enters the container and kills insects inside the container.
[0035] To make it easier for users to know the amount of medicine in the medicine container 4, in a preferred embodiment, a liquid level sensor 17 is installed inside the medicine container 4. The liquid level sensor 17 is used to collect the liquid level of the medicine in the medicine container 4. Of course, the liquid level sensor 17 should also be connected to a display device (such as a display screen or display table) that can display the liquid level information collected by the liquid level sensor 17, or connected to a low liquid level alarm device such as a buzzer. Of course, these are all conventional technical means in the art, so they will not be described in detail or specifically limited in this embodiment. This embodiment also provides another structure for users to obtain the amount of medicine in the medicine container 4, as follows: a transparent liquid level viewing window 22 is opened on the medicine container door 21 corresponding to the location of the medicine container 4. The medicine container 4 is made of transparent material, so that users can directly observe the liquid level of the medicine container 4 through the liquid level viewing window 22, and the structure is simpler.
[0036] To facilitate the insertion of the protective tube 27 along with the drug delivery tube 11 inside it into the container, in a preferred embodiment, a container gap insertion cone tube 23 is also included. The container gap insertion cone tube 23 is for a person to hold and insert into the container gap. It has a cone tip 24 at the front end and a handle 25 at the rear end, with a drug delivery tube insertion channel 26 running through it from front to back. Thus, the left hand can hold the handle 25 and insert it through the cone tip 24 into the gap between the container door seals, and then the right hand holds the handle 3 to insert the protective tube 27 along with the drug delivery tube 11 inside it into the container through the drug delivery tube insertion channel 26, making it easier to use.
[0037] Preferably, a corrugated pipe 35 is connected between the handheld part 3 and the main body 1, and the medicine pipeline and electrical circuit between the handheld part 3 and the main body 1 are protected by passing through the corrugated pipe 35.
[0038] The above description is only a preferred embodiment of this utility model and is not intended to limit the design of this case. All equivalent changes made based on the key design of this case shall fall within the protection scope of this case.
Claims
1. A device for intelligent fogging insecticide inside a container, characterized in that: It includes the main body (1), the drug delivery tube (2), and the handheld part (3); The main body (1) is equipped with a medicine tank (4), a medicine pump (5) and a battery (6). The medicine tank (4) is used to store the medicine liquid. The medicine pump inlet (7) is connected to the medicine tank (4), and the medicine pump outlet (8) is connected to the medicine supply hose inlet (9). The battery (6) is electrically connected to the medicine pump (5) to drive the medicine pump (5) to pump the medicine liquid in the medicine tank (4) into the medicine supply hose (2). The handheld part (3) is for people to hold and move. The drug outlet end (10) of the drug supply hose is connected to the handheld part (3). A drug delivery tube (11) extends from the handheld part (3). The drug delivery tube (11) is used to insert into the container. The end of the drug delivery tube (11) has a drug delivery port (12). The drug delivery port (12) is connected to the drug outlet end (10) of the drug supply hose. An atomizing structure is provided between the drug delivery port (12) and the drug pump outlet (8). The atomizing structure is used to atomize the drug liquid so that the atomized drug liquid is sprayed out from the drug delivery port (12).
2. The device for intelligent fogging disinsection in a container according to claim 1, characterized in that: The top surface of the main body (1) is provided with a positioning groove (14), which is used for the lower part of the hand-held part (3) to be inserted. A magnet (15) is provided in the positioning groove (14), which is used to magnetically attract the hand-held part (3).
3. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: The bottom surface of the main body (1) is equipped with casters (16).
4. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: A liquid level sensor (17) is installed inside the medicine container (4). The liquid level sensor (17) is used to collect the liquid level of the medicine in the medicine container (4).
5. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: The main body (1) is a closed box, and the inside of the box is divided into an electrical compartment (18) and a medicine compartment (19). The battery (6) is installed in the electrical compartment (18), and the medicine tank (4) and the medicine pump (5) are installed in the medicine compartment (19). The electrical compartment (18) is equipped with an electrical compartment door (20), and the medicine compartment is equipped with a medicine compartment door (21).
6. A device for intelligent fogging of insecticides inside a container as claimed in claim 5, wherein: A transparent liquid level viewing window (22) is provided on the medicine tank door (21) corresponding to the location of the medicine tank (4), and the medicine tank (4) is made of transparent material.
7. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: It also includes a container gap insertion cone (23), which is used for a person to hold and insert into the container gap. It has a cone tip (24) at the front end, a handle (25) at the rear end, and a drug delivery tube insertion channel (26) running through it.
8. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: A protective tube (27) is fixed to the outside of the handheld part (3). The protective tube (27) is made of a rigid material. The end of the protective tube (27) extends away from the handheld part (3). The drug delivery tube (11) is inserted into the protective tube (27) and protected.
9. A device for intelligent fogging of insecticides inside a container as claimed in claim 8, wherein: The protective tube (27) and the handheld part (3) are separated by a heat insulation sleeve (28).
10. The device for intelligent fogging of insecticides inside a container as claimed in claim 1, wherein: The hand-held part (3) is provided with a handle (29).