CN117412007A - Laboratory tobacco beetle condition comprehensive prevention and control system, method, equipment and medium - Google Patents

Abstract

The application discloses a laboratory tobacco first insect pest situation comprehensive prevention and control system, method, equipment and medium, mainly relates to the technical field of pest situation comprehensive prevention and control, and is used for solving the problems that an existing pest-raising laboratory lacks pest situation monitoring means, and control measures are not enough in system and lack of standardization. Comprising the following steps: the trapping monitoring module is used for acquiring basic information of the tobacco nail trapper arranged in the laboratory; generating a replacement task and a viewing task containing basic information; the internal prevention and control module is used for acquiring the number of the uploaded tobacco nails so as to determine whether to send a tobacco nail killing instruction or not; collecting a shooting picture to detect whether the insect-proof net is in an installation state, whether the ground insect-proof line is in a presence state and whether the air curtain machine on the door is in an installation state or not through the shooting picture; the external prevention and control module is used for controlling the air curtain machine at the entering position to start when entering personnel appear; and the frequency vibration type insect trapping and killing lamp is controlled to be turned on and off.

Description

Laboratory tobacco beetle condition comprehensive prevention and control system, method, equipment and medium

Technical Field

The application relates to the technical field of insect pest comprehensive prevention and control, in particular to a laboratory tobacco beetle pest comprehensive prevention and control system, method, equipment and medium.

Background

Tobacco first is an insect of the class hexapoda, class entomophaea, family Choerosidae. The tobacco leaves, tea leaves and the like in the storage period can be eaten by young worms, and can also be eaten by eating stored matters such as grains and the like. The method is characterized in that the insect bodies are smaller, hidden and hidden easily, the adults have flying capacity, can overflow and spawn for reproduction, and can be largely transmitted to the pest when being slightly unnoticed.

The insect breeding laboratory is used as a test field, an insect source is arranged in the laboratory, and the environment is kept at constant temperature and humidity, so that favorable conditions are provided for the propagation of the tobacco beetles. For an open insect-raising laboratory, personnel enter and exit frequently, once the tobacco beetles overflow from the raising room for transmission, and the insect pest outbreak is extremely easy to cause due to the strong reproductive capacity, so that economic loss is caused.

At present, a comprehensive prevention and control system for the insect pest situation of the tobacco beetles is not formed in an insect breeding laboratory, so that the prevention and control of the tobacco beetles are neglected, and the tobacco beetles are easy to escape into the external environment. If the insect breeding laboratory is closer to the tobacco warehouse, tobacco nails are transmitted into the tobacco warehouse, so that tobacco is eaten by the insects, the tobacco shredding rate is reduced, and the tobacco is polluted by insect corpses and insect manure, so that the use value of the tobacco is reduced and even scrapped, and larger economic loss is caused.

Therefore, there is a need for a laboratory tobacco beetle pest comprehensive prevention and control system, method, equipment and medium for monitoring trapping of tobacco beetles, laboratory internal prevention and control, and laboratory external prevention and control, and finally constructing a laboratory tobacco beetle pest comprehensive prevention and control system.

Disclosure of Invention

Aiming at the defects in the prior art, the application provides a laboratory tobacco beetle pest situation comprehensive prevention and control system, method and medium, so as to solve the problems that the existing pest-raising laboratory lacks pest situation monitoring means, and prevention and control measures are not systematic enough and lack of standardization.

In a first aspect, the present application provides a laboratory tobacco first insect pest condition comprehensive prevention and control system, the system comprising: the trapping monitoring module is used for acquiring basic information of the tobacco nail trapper arranged in the laboratory; wherein, the basic information at least comprises: location information and total number of traps; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; based on the preset checking time, generating a checking task containing basic information to a preset checking personnel terminal; the internal prevention and control module is used for generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal based on a preset timing task; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; generating a detection report and sending the detection report to a preset detection personnel terminal; the external prevention and control module is used for detecting whether an entering person appears at the entering position of the isolation area outside the laboratory, so as to control the air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

Further, the trapping monitoring module comprises a monitoring unit, a first control unit and a second control unit, wherein the monitoring unit is used for acquiring a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

Further, the internal prevention and control module comprises an instruction sending unit, which is used for determining to send a tobacco first killing instruction to a preset tobacco first killing personnel terminal when the number of tobacco first is larger than a preset tobacco first number threshold value.

Further, the internal prevention and control module comprises an algorithm detection unit, is used for acquiring a shooting picture through external shooting equipment, and takes the shooting picture as input of a preset depth neural network algorithm model so as to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

In a second aspect, the present application provides a laboratory tobacco first pest control method, the method comprising: acquiring basic information of a tobacco nail trapper arranged inside a laboratory; wherein, the basic information at least comprises: location information and total number of traps; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; based on the preset checking time, generating a checking task containing basic information to a preset checking personnel terminal; based on the preset timing task, generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; generating a detection report and sending the detection report to a preset detection personnel terminal; detecting whether an entering person appears at an entering position of an isolation area arranged outside the laboratory, and controlling an air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

Further, generating a replacement task containing basic information to a preset replacement personnel terminal based on the preset replacement time; after generating the view task containing the basic information to the preset view personnel terminal based on the preset view time, the method further comprises the following steps: acquiring a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

Further, determining whether to send a tobacco first killing instruction to a preset tobacco first killing personnel terminal according to the number of the tobacco first, specifically comprising: and when the number of the tobacco nails is larger than a preset tobacco nail number threshold, determining to send a tobacco nail sterilizing instruction to a preset tobacco nail sterilizing personnel terminal.

Further, through external camera equipment, gather the picture of making a video recording of predetermine window position, predetermine the gate position to whether window fly net in predetermine window position is the installation state, the ground of predetermine gate position sets up the fly line and is the existence state and predetermine the on-door air curtain machine in gate position is the installation state through making a video recording the picture detection, specifically include: acquiring a shooting picture through external shooting equipment, and taking the shooting picture as input of a preset depth neural network algorithm model to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

In a third aspect, the present application provides a laboratory tobacco first insect pest condition comprehensive prevention and control device, the device comprising: a processor; and a memory having executable code stored thereon that, when executed, causes the processor to perform a laboratory tobacco first pest control method as defined in any one of the above.

In a fourth aspect, the present application provides a non-volatile computer storage medium having stored thereon computer instructions which, when executed, implement a laboratory tobacco first pest control method as defined in any one of the preceding claims.

As can be appreciated by those skilled in the art, the present application has at least the following beneficial effects:

the method solves the problems that pest situation monitoring means are lacked in a pest-raising laboratory, and control measures are not systematic enough and lack of standardization. The trapping and monitoring of the tobacco nails are realized through the trapping and monitoring module. The internal prevention and control module is used for monitoring whether the tobacco beetles can enter a laboratory in real time, determining the time for spraying the S-methoprene according to the quantity of the tobacco beetles, preventing and controlling pests, and protecting the environment; an isolation area is arranged outside the laboratory, personnel access is managed, and external insect sources can be isolated from entering. Can prevent the insect pest from spreading when the insect pest bursts, and avoid causing economic loss.

Drawings

Some embodiments of the present disclosure are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic diagram of an internal structure of a comprehensive control system for laboratory tobacco beetle conditions according to an embodiment of the present application.

Fig. 2 is a flowchart of a comprehensive control method for laboratory tobacco beetle conditions according to an embodiment of the present application.

Fig. 3 is a schematic diagram of an internal structure of a laboratory tobacco beetle pest comprehensive prevention and control device according to an embodiment of the present application.

Detailed Description

It should be understood by those skilled in the art that the embodiments described below are only preferred embodiments of the present disclosure, and do not represent that the present disclosure can be realized only by the preferred embodiments, which are merely for explaining the technical principles of the present disclosure, not for limiting the scope of the present disclosure. Based on the preferred embodiments provided by the present disclosure, all other embodiments that may be obtained by one of ordinary skill in the art without inventive effort shall still fall within the scope of the present disclosure.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises an element.

The following describes in detail the technical solution proposed in the embodiments of the present application through the accompanying drawings.

Fig. 1 is a schematic diagram of a laboratory tobacco beetle condition comprehensive prevention and control system according to an embodiment of the present application. As shown in fig. 1, the system provided in the embodiment of the present application mainly includes:

the system acquires basic information of the toenail trap arranged inside the laboratory through the trapping monitoring module 110; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; and generating a viewing task containing basic information to a preset viewing personnel terminal based on the preset viewing time.

It should be noted that, the trap monitoring module 110 may be any device or apparatus that is possible and capable of acquiring basic information of a toenail trap provided inside a laboratory, generating a task, and transmitting the task to a corresponding terminal. The basic information at least comprises: location information and total number of traps.

In addition, the system can remind personnel to complete tasks.

Specifically, a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal is obtained through a monitoring unit 111 in the trapping monitoring module 110; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

The internal prevention and control module 120 in the system generates a spraying task containing S-methoprene spraying to a preset spraying personnel terminal based on a preset timing task; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; and generating a detection report and sending the detection report to a preset detection personnel terminal.

It should be noted that, the task in the preset time may specifically be to generate a spraying task including spraying S-methoprene to a terminal of a preset spraying person daily, so that the relevant person performs spraying S-methoprene daily. The method for determining whether to send the tobacco first killing instruction to the preset tobacco first killing personnel terminal according to the number of the tobacco first is specifically that when the number of the tobacco first exceeds a preset tobacco first number threshold, the emergency state is considered to be entered, and the tobacco first killing instruction is sent to the preset tobacco first killing personnel terminal so that related personnel can kill the tobacco first.

The internal prevention and control module 120 may be any available device or apparatus capable of acquiring the number of uploaded tobacco nails, sending a tobacco nail disinfection instruction to the outside, performing image recognition and detection, and generating a detection report.

The determining, according to the number of the tobacco nails, whether to send the tobacco nail disinfection instruction to the preset tobacco nail disinfection personnel terminal in the internal prevention and control module 120 may be specifically:

the instruction sending unit 121 in the internal prevention and control module 120 determines to send a tobacco first killing instruction to a preset tobacco first killing personnel terminal when the number of tobacco first is greater than a preset tobacco first number threshold.

The scheme for detecting the picture by the internal prevention and control module 120 may be specifically:

the algorithm detecting unit 122 in the internal prevention and control module 120 collects a shooting picture through the external shooting equipment, and takes the shooting picture as the input of a preset depth neural network algorithm model to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

The system detects whether an entering person appears at the entering position of the isolation area outside the laboratory through the external prevention and control module 130 so as to control the air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

In addition, the embodiment of the application also provides a comprehensive control method for the tobacco beetle situation in a laboratory, as shown in fig. 2, the method provided by the embodiment of the application mainly comprises the following steps:

step 210, obtaining basic information of a tobacco nail trapper arranged inside a laboratory; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; and generating a viewing task containing basic information to a preset viewing personnel terminal based on the preset viewing time.

It should be noted that the basic information at least includes: location information and total number of traps.

In addition, the system can remind personnel to complete tasks. The method specifically comprises the following steps:

acquiring a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

Step 220, generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal based on a preset timing task; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; and generating a detection report and sending the detection report to a preset detection personnel terminal.

The method for determining whether to send the tobacco first killing instruction to the terminal of the preset tobacco first killing personnel according to the quantity of the tobacco first specifically can be as follows:

and when the number of the tobacco nails is larger than a preset tobacco nail number threshold, determining to send a tobacco nail sterilizing instruction to a preset tobacco nail sterilizing personnel terminal.

Wherein, through external camera equipment, gather the picture of making a video recording of predetermineeing window position, predetermineeing the gate position to whether window fly net of predetermineeing window position is the installation state, the ground of predetermineeing the gate position sets up the insect-proof line and is the state and predetermineeing the on-door air curtain machine of gate position and be the installation state through making a video recording the picture, specifically can be:

acquiring a shooting picture through external shooting equipment, and taking the shooting picture as input of a preset depth neural network algorithm model to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

Step 230, detecting whether an entering person appears at the entering position of the isolation area outside the laboratory, so as to control the air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

The method embodiment in the application is based on the same inventive concept, and the embodiment of the application also provides laboratory tobacco beetle situation comprehensive prevention and control equipment. As shown in fig. 3, the apparatus includes: a processor; and a memory having executable code stored thereon that, when executed, causes the processor to perform a laboratory tobacco first pest control method as in the above embodiments.

Specifically, a server side acquires basic information of a tobacco nail trapper arranged in a laboratory; wherein, the basic information at least comprises: location information and total number of traps; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; based on the preset checking time, generating a checking task containing basic information to a preset checking personnel terminal; based on the preset timing task, generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; generating a detection report and sending the detection report to a preset detection personnel terminal; detecting whether an entering person appears at an entering position of an isolation area arranged outside the laboratory, and controlling an air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

In addition, the embodiment of the application also provides a nonvolatile computer storage medium, wherein executable instructions are stored on the nonvolatile computer storage medium, and when the executable instructions are executed, the laboratory tobacco beetle situation comprehensive prevention and control method is realized.

Thus far, the technical solution of the present disclosure has been described in connection with the foregoing embodiments, but it is easily understood by those skilled in the art that the protective scope of the present disclosure is not limited to only these specific embodiments. The technical solutions in the above embodiments may be split and combined by those skilled in the art without departing from the technical principles of the present disclosure, and equivalent modifications or substitutions may be made to related technical features, which all fall within the scope of the present disclosure.

Claims (10)

1. A laboratory tobacco beetle condition comprehensive prevention and control system, the system comprising:

the trapping monitoring module is used for acquiring basic information of the tobacco nail trapper arranged in the laboratory; wherein, the basic information at least comprises: location information and total number of traps; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; based on the preset checking time, generating a checking task containing basic information to a preset checking personnel terminal;

the internal prevention and control module is used for generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal based on a preset timing task; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; generating a detection report and sending the detection report to a preset detection personnel terminal;

the external prevention and control module is used for detecting whether an entering person appears at the entering position of the isolation area outside the laboratory, so as to control the air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

2. The laboratory s.tabacum pest comprehensive prevention and control system according to claim 1, wherein the trapping monitoring module comprises a monitoring unit,

the method comprises the steps of acquiring a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

3. The laboratory s-tobacco first-pest comprehensive prevention and control system according to claim 1, wherein the internal prevention and control module comprises a command transmitting unit,

and the tobacco first killing instruction is used for determining to send a tobacco first killing instruction to a preset tobacco first killing personnel terminal when the number of the tobacco first is larger than a preset tobacco first number threshold value.

4. The laboratory s-tobacco first-pest comprehensive prevention and control system according to claim 1, wherein the internal prevention and control module comprises an algorithm detection unit,

the external camera equipment is used for acquiring a camera picture, and taking the camera picture as input of a preset depth neural network algorithm model so as to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

5. The comprehensive control method for the tobacco beetle conditions in the laboratory is characterized by comprising the following steps of:

acquiring basic information of a tobacco nail trapper arranged inside a laboratory; wherein, the basic information at least comprises: location information and total number of traps; based on the preset replacement time, generating a replacement task containing basic information to a preset replacement personnel terminal; based on the preset checking time, generating a checking task containing basic information to a preset checking personnel terminal;

based on the preset timing task, generating a spraying task containing S-methoprene spraying to a preset spraying personnel terminal; acquiring the number of tobacco nails uploaded by a preset replacing personnel terminal and a preset checking personnel terminal, and determining whether to send a tobacco nail sterilizing instruction to the preset sterilizing tobacco nail personnel terminal according to the number of the tobacco nails; acquiring shooting pictures of a preset window position and a preset gate position through external shooting equipment, and detecting whether a window insect-proof net of the preset window position is in an installation state, whether a ground setting insect-proof line of the preset gate position is in a presence state and whether an on-door air curtain machine of the preset gate position is in an installation state through the shooting pictures; generating a detection report and sending the detection report to a preset detection personnel terminal;

detecting whether an entering person appears at an entering position of an isolation area arranged outside the laboratory, and controlling an air curtain machine at the entering position to start when the entering person appears; and according to a preset control time point, the frequency vibration type trapping and insect killing lamp in the isolation area outside the laboratory is controlled to be turned on and off.

6. The method for comprehensively preventing and controlling the condition of the tobacco beetles in a laboratory according to claim 5, wherein a replacement task containing basic information is generated to a preset replacement personnel terminal based on a preset replacement time; after generating the view task containing the basic information to the preset view personnel terminal based on the preset view time, the method further comprises:

acquiring a completion instruction returned by a preset replacement personnel terminal and a preset checking personnel terminal; and acquiring the generation time of the replacement task and the checking task, and sending the task to the corresponding terminal again when the difference value between the generation time and the current time exceeds a preset threshold value.

7. The laboratory tobacco beetle condition comprehensive prevention and control method according to claim 5, wherein determining whether to send a tobacco beetle killing instruction to a preset tobacco beetle killing personnel terminal according to the number of tobacco beetles specifically comprises:

and when the number of the tobacco nails is larger than a preset tobacco nail number threshold, determining to send a tobacco nail sterilizing instruction to a preset tobacco nail sterilizing personnel terminal.

8. The method for comprehensively preventing and controlling the condition of the tobacco beetle in a laboratory according to claim 5, wherein the method for detecting whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a presence state and whether the door air curtain machine at the preset gate position is in an installation state by acquiring the camera pictures at the preset window position and the preset gate position through the external camera equipment comprises the following steps:

acquiring a shooting picture through external shooting equipment, and taking the shooting picture as input of a preset depth neural network algorithm model to obtain an output result; the output result comprises whether the window insect-proof net at the preset window position is in an installation state, whether the ground setting insect-proof line at the preset gate position is in a state of existence, and whether the door air curtain machine at the preset gate position is in an installation state.

9. Laboratory tobacco beetle condition comprehensive prevention and control equipment, characterized in that the equipment includes:

a processor;

and a memory having executable code stored thereon that, when executed, causes the processor to perform a laboratory tobacco first pest control method of any one of claims 5-8.

10. A non-transitory computer storage medium having stored thereon computer instructions which, when executed, implement a laboratory tobacco first pest control method according to any one of claims 5-8.