CN215123517U - Thing networking insecticidal lamp intelligence control system - Google Patents

Abstract

The utility model relates to a thing networking insecticidal lamp intelligence control system, including insecticidal lamp control unit, insecticidal lamp control unit includes: a main control module; the storage battery is connected with the main control module; the solar cell panel is connected with the main control module; the charging and discharging control circuit is respectively connected with the main control module, the storage battery and the solar cell panel; the high-voltage power grid device is connected with the main control module; the trap lamp is connected with the main control module; the humidity sensor is connected with the main control module; the temperature sensor is connected with the main control module; the cleaning motor is electrically connected with the main control module; and the insecticidal quantity monitoring module is electrically connected with the main control module and the high-voltage power grid device respectively.

Description

Thing networking insecticidal lamp intelligence control system

Technical Field

The utility model relates to an insecticidal lamp technical field, in particular to thing networking insecticidal lamp intelligence control system.

Background

The insect-killing lamp is a special device which is mainly used for killing pests and reducing the use of insecticides, and can trap and collect insects and effectively kill the insects by utilizing an insect-trapping light source in a specific spectral range sensitive to the insects according to the characteristic that the insects have phototaxis.

At present, the insect killing lamp is turned on and off by manual operation. Because most of pests only move at night, workers only work at night, and the turn-on and turn-off of the pest killing lamp are very inconvenient. If storm occurs at night and the like seriously affect the weather of normal work of the insecticidal lamp, if workers do not turn off the insecticidal lamp in time, the insecticidal lamp is extremely easy to be damaged by severe environment.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a thing networking insecticidal lamp intelligence control system, including insecticidal lamp control unit, insecticidal lamp control unit includes:

a main control module;

the storage battery is connected with the main control module;

the solar cell panel is connected with the main control module;

the charging and discharging control circuit is respectively connected with the main control module, the storage battery and the solar cell panel;

the high-voltage power grid device is used for electrically shocking the contacted insects and is connected with the main control module;

the trap lamp is used for introducing insects into the high-voltage power grid device and is connected with the main control module;

the charging and discharging control circuit comprises a solar cell panel voltage acquisition module for acquiring the voltage on the solar cell panel, and the main control unit judges whether the day is the dark day according to the voltage on the solar cell panel; in dark, the trap lamp and the high-voltage power grid device are electrified, and the light emitted by the trap lamp can attract flying insects to enter the high-voltage power grid device; in daytime, the solar cell panel is used for charging the storage battery, and the trap lamp and the high-voltage power grid device are not electrified;

the humidity sensor is connected with the main control module and used for acquiring weather state information and transmitting the weather state information to the main control module, the main control module judges whether the main control module is raining or not, and the main control module controls the insecticidal lamp to be turned off in rainy days;

the temperature sensor is connected with the main control module and used for detecting the ambient temperature and transmitting the detected ambient temperature to the main control module, and when the air temperature is lower than a set temperature, the main control module controls the insecticidal lamp to enter a dormant state;

the cleaning motor is electrically connected with the main control module and is used for driving a cleaning device to clean insects on the high-voltage power grid device at regular time;

and the pest killing quantity monitoring module is respectively electrically connected with the main control module and the high-voltage power grid device and is used for counting the quantity of the pests killed by the high-voltage power grid device.

Preferably, the charge and discharge control circuit comprises a battery electric quantity acquisition module, and the main control module acquires the electric quantity of the storage battery in real time through the battery electric quantity acquisition module to determine whether the solar cell panel charges the storage battery.

Preferably, the charge and discharge control circuit comprises a battery voltage acquisition module for acquiring discharge voltage data of the storage battery, when the acquired voltage data is lower than a set low voltage value, the storage battery is under-voltage, the storage battery stops discharging, and the main control module controls the solar panel to charge the storage battery; when the collected voltage data are higher than a set high voltage value, the main control module controls the solar cell panel to stop charging the storage battery.

Preferably, the high-voltage power grid device comprises a high-voltage pack and a high-voltage power grid, and the high-voltage pack and the high-voltage power grid are both connected with the main control module; the high-voltage package is connected with a high-voltage power grid, the high-voltage package is used for inputting high-voltage to the high-voltage power grid, and the high-voltage power grid is used for electrically shocking contacted insects.

Preferably, thing networking insecticidal lamp intelligence control system still include remote server, remote server pass through communication module with master control module is connected.

Preferably, thing networking insecticidal lamp intelligence control system still include mobile terminal, mobile terminal pass through wireless communication module with remote server connects.

Preferably, the insecticidal lamp control unit further comprises a battery current collection module, which is respectively connected with the storage battery and the main control module, and is used for collecting the output current of the storage battery, and if the storage battery has no voltage current, the main control module judges that the storage battery has a fault;

the insecticidal lamp control unit also comprises a solar panel current acquisition module which is respectively connected with the solar panel and the main control module and is used for acquiring the current of the solar panel during charging in the daytime, and if the solar panel has no voltage current, the main control module judges that the solar panel has a fault;

the insect trap lamp current acquisition module is respectively connected with the insect trap lamp and the main control module and is used for acquiring the current of the insect trap lamp during working, and if the insect trap lamp has no current, the main control module judges that the insect trap lamp breaks down;

the insecticidal lamp control unit also comprises a cleaning motor current acquisition module which is respectively connected with the cleaning motor and the main control module and is used for acquiring the current of the cleaning motor during working, and if the cleaning motor has no current, the main control module judges that the cleaning motor has a fault;

and the fault information is sent to the remote server through the main control module, and a worker can check the fault information on the mobile terminal.

Preferably, the insecticidal lamp control unit further comprises a GPS positioning module, and the GPS positioning module is electrically connected with the main control module.

Preferably, the insecticidal lamp control unit further comprises an alarm module, and the alarm module is connected with the main control module.

Preferably, the main control module can receive a remote instruction of the mobile terminal to turn on, turn off, and restart the light.

Compared with the prior art, the utility model discloses there are following technological effect:

1. the utility model discloses an internet of things has realized that the automation of insecticidal lamp is opened and is closed, has reduced workman's intensity of labour.

2. User's accessible data acquisition masters the operating condition of insecticidal lamp, provides a large amount of factual bases to the detection and maintenance trouble facility, has reduced equipment maintenance personnel's work load for maintainer just can look over all equipment states in the office space, has made things convenient for user's use, has reduced the expenditure of human cost.

3. The insecticidal lamp can judge whether environment humidity is greater than the set humidity through the humidity sensor, if be greater than the set humidity, then close the insecticidal lamp, avoid the high voltage electric network device of rainwater contact work, cause the high voltage electric network device to damage to the life of insecticidal lamp has been improved.

4. Through the statistics to the insecticidal, can in time clear up high voltage electric network, can also know the condition of this district pest through the statistics to pest quantity.

5. Remote viewing and remote control can be realized through the remote server.

6. Chemical pesticide is not needed, and the pollution to crops, human beings, animals and the like is prevented.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts. In the drawings:

fig. 1 is a block diagram of an insecticidal lamp control unit according to a preferred embodiment of the present invention;

fig. 2 is a block diagram of an intelligent control system for an internet of things insecticidal lamp according to a preferred embodiment of the present invention.

Detailed Description

The following will be described in detail with reference to fig. 1 and fig. 2, the embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, however, the protection scope of the present invention is not limited to the following embodiments, and those skilled in the art can modify and color the intelligent control system of the internet of things insecticidal lamp without changing the spirit and content of the present invention.

Referring to fig. 1 and fig. 2, an intelligent control system for an internet of things insecticidal lamp includes an insecticidal lamp control unit 1, where the insecticidal lamp control unit 1 includes:

a main control module 101;

the storage battery 104 is connected with the main control module 101;

the solar cell panel 103 is connected with the main control module 101;

the charging and discharging control circuit 102 is respectively connected with the main control module 101, the storage battery 104 and the solar cell panel 103;

the high-voltage power grid device 106 is used for electrically shocking the contacted insects, and the high-voltage power grid device 106 is connected with the main control module 101; in this embodiment, the high-voltage grid device 106 includes a high-voltage packet 1061 and a high-voltage grid 1062, and both the high-voltage packet 1061 and the high-voltage grid 1062 are connected to the main control module 101; the high-voltage pack 1061 is connected to the high-voltage grid 1062, and is configured to input a high-voltage to the high-voltage grid 1062; the high-voltage power grid 1062 is used for electric shock of the contacted insects;

the trap lamp 105 is used for introducing insects into the high-voltage power grid 1062, and the trap lamp 105 is connected with the main control module 101; in this embodiment, the trap lamp 105 is an ultraviolet lamp;

in this embodiment, the charge and discharge control circuit 102 includes a solar cell panel voltage acquisition module, and the solar cell panel voltage acquisition module is respectively connected to the solar cell panel 103, the main control module 101, and the storage battery 104, and is configured to acquire an output voltage of the solar cell panel 103, where when the output voltage of the solar cell panel 103 is lower than a preset voltage, it indicates that the day has entered the night, and otherwise, it is the day;

the specific value of the set voltage of the output voltage of the solar cell panel 103 is not specifically limited in this embodiment, and can be set according to actual use requirements. The output voltage of the solar cell panel 103 becomes lower and lower with the decrease of the illumination, when the output voltage of the solar cell panel 103 reaches about 1V, it indicates that the night has entered, and in order to ensure that the insecticidal lamp is turned on as soon as the night enters, the setting voltage is set to 1.2V.

In this embodiment, in darkness, the trap lamp 105 and the high-voltage grid device 106 are powered on, the light emitted by the trap lamp 105 attracts flying insects to enter the high-voltage grid device 106, that is, in darkness, the main control module 101 controls the insect killing lamp to be turned on; in daytime, the solar cell panel 103 charges the storage battery 104, the trap lamp 105 and the high-voltage power grid device 106 are not powered on, namely, in daytime, the main control module 101 controls the insect killing lamp to be turned off;

the humidity sensor 109 is connected with the main control module 101 and used for acquiring weather state information and transmitting the weather state information to the main control module 101, the main control module 101 judges whether it is raining at present, and the main control module 101 controls the insecticidal lamp to be turned off in rainy days;

the temperature sensor 110 is connected to the main control module 101, and is configured to detect an ambient temperature, and transmit the detected ambient temperature to the main control module 101, when the air temperature is lower than a set temperature (the set temperature may be set according to a specific weather temperature, which is not specifically limited in this embodiment, and is generally selected to be 10 ℃), the main control module 101 controls the insecticidal lamp to enter a sleep state, so as to increase the service life of the storage battery 104;

a cleaning motor 107 electrically connected to the main control module 101, configured to drive a cleaning device (e.g., a cleaning brush, etc.) to clean the bugs on the high-voltage grid device 106 at regular time, in this embodiment, the cleaning motor sets a time interval to clean the bugs;

and the insecticidal quantity monitoring module 111 is electrically connected with the main control module 101 and the high-voltage power grid device 106 respectively and is used for counting the quantity of insects killed by the high-voltage power grid device 106. In the embodiment, the pest killing number can be judged through high-voltage discharge number statistics, such as counting the pest number through detecting the high-voltage discharge number by a ZEMCT131 current transformer.

In this embodiment, the main control module 101 uses STM32f103c8t6 main control chip, and the core CPU of STM32 uses Cortex-M series processor core of ARM corporation. The ARM Cortex-M kernel is specially designed for embedded applications requiring high performance, low cost and low power consumption, and provides a low-cost optimization scheme for a system driven by a single chip microcomputer. In this embodiment, the insecticidal quantity monitoring module 111 and the main control module 101 are integrated.

The temperature and humidity sensor uses a DHT11 digital temperature and humidity sensor, is a temperature and humidity composite sensor containing calibrated digital signal output, and ensures that a product has extremely high reliability and excellent long-term stability by applying a special digital module acquisition technology and a temperature and humidity sensing technology.

As an embodiment, the charge and discharge control circuit 102 includes a battery power collection module, the battery power collection module is respectively connected to the solar cell panel 103, the main control module 101, and the storage battery 104, and the main control module 101 determines whether the solar cell panel 103 charges the storage battery 104 by collecting the power of the storage battery 104 in real time through the battery power collection module.

As another embodiment, the charge and discharge control circuit 102 includes a battery voltage acquisition module, which is respectively connected to the solar panel 103, the main control module 101, and the storage battery 104, and is configured to acquire discharge voltage data of the storage battery 104, when the acquired voltage data is lower than a set low voltage value, it indicates that the storage battery 104 is under-voltage, the storage battery 104 stops discharging, and the main control module 101 controls the solar panel 103 to charge the storage battery 104; when the collected voltage data is higher than a set high voltage value, the main control module 101 controls the solar cell panel 103 to stop charging the storage battery 104.

In this embodiment, thing networking insecticidal lamp intelligence control system still includes remote server 2, remote server 2 through communication module with host system 101 is connected. The remote server 2 is used for monitoring and counting the insecticidal lamp data information of each operation monitoring network in real time, and the portability and the real-time performance of data acquisition are improved. The communication module can be a wired data transmission module or a wireless data transmission module. The wireless data transmission module uses an EC20 module which is moved far from Shanghai and is a mature 4G LTE module, the series has full-function versions, and the series has the functions of voice communication, a GPS (global positioning system), a DIV (digital television) diversity antenna and the like besides 4G LTE full-network communication.

Thing networking insecticidal lamp intelligence control system still includes mobile terminal 3, mobile terminal 3 through wireless communication module with remote server 2 connects for the control the operating condition of insecticidal lamp inquires or monitors the display result of server on mobile terminal 3, also can accomplish the purpose of monitoring each insecticidal lamp. The mobile terminal 3 may be a computer, a mobile phone, or other mobile devices, for example, the mobile phone is connected to the remote server 2 through the SIM card, and the mobile terminal 3 may remotely control the working state of the insecticidal lamp, for example, the main control module 101 may receive a remote instruction of the mobile terminal 3 to turn on, turn off, and restart the lamp.

In this embodiment, the insecticidal lamp control unit 1 further includes a battery current collecting module, which is respectively connected to the storage battery 104 and the main control module 101, and is configured to collect an output current of the storage battery 104, and if there is no voltage current in the storage battery 104, the main control module 101 determines that the storage battery 104 fails;

the insecticidal lamp control unit 1 further comprises a solar cell panel current collection module which is respectively connected with the solar cell panel 103 and the main control module 101 and is used for collecting current of the solar cell panel 103 during daytime charging, and if no voltage current exists in the solar cell panel 103, the main control module 101 judges that the solar cell panel fails;

the insecticidal lamp control unit 1 further comprises an insect attracting lamp current collecting module, which is respectively connected with the insect attracting lamp 105 and the main control module 101, and is used for collecting current of the insect attracting lamp 105 during working, if the insect attracting lamp 105 has no current, the main control module 101 judges that the insect attracting lamp 105 has a fault;

the insecticidal lamp control unit 1 further comprises a cleaning motor current collection module which is respectively connected with the cleaning motor 107 and the main control module 101 and is used for collecting current when the cleaning motor 107 works, and if the cleaning motor 107 has no current, the main control module 101 judges that the cleaning motor 107 has a fault;

the fault information is sent to the remote server 2 through the main control module 101, and a worker can check the fault information on the mobile terminal 3.

In this embodiment, the insecticidal lamp control unit 1 further includes a GPS positioning module, the GPS positioning module is electrically connected to the main control module 101, and the GPS positioning module is used for positioning the insecticidal lamp.

In this embodiment, the insecticidal lamp control unit 1 further includes an alarm module, and the alarm module is connected to the main control module 101. For example, if the difference between the actual position of the insecticidal lamp and the original installation position is larger than a set value, the insecticidal lamp is indicated to be stolen, the GPS positioning module sends alarm information, and the alarm module gives an alarm. If the insecticidal lamp breaks down, the alarm module can give an alarm.

IN this embodiment, the voltage and current can be collected by IN219,26V, bi-directional, zero-drift, low/high side, I2C output current/power monitor of ti corporation, which can be used to detect current, voltage and power.

Claims (10)

1. The utility model provides a thing networking insecticidal lamp intelligence control system which characterized in that, includes insecticidal lamp control unit, insecticidal lamp control unit includes:

a main control module;

the storage battery is connected with the main control module;

the solar cell panel is connected with the main control module;

the charging and discharging control circuit is respectively connected with the main control module, the storage battery and the solar cell panel;

the high-voltage power grid device is used for electrically shocking the contacted insects and is connected with the main control module;

the trap lamp is used for introducing insects into the high-voltage power grid device and is connected with the main control module;

the charging and discharging control circuit comprises a solar cell panel voltage acquisition module for acquiring the voltage on the solar cell panel, and the main control unit judges whether the day is the dark day according to the voltage on the solar cell panel; in dark, the trap lamp and the high-voltage power grid device are electrified, and the light emitted by the trap lamp can attract flying insects to enter the high-voltage power grid device; in daytime, the solar cell panel is used for charging the storage battery, and the trap lamp and the high-voltage power grid device are not electrified;

the humidity sensor is connected with the main control module and used for acquiring weather state information and transmitting the weather state information to the main control module, the main control module judges whether the main control module is raining or not, and the main control module controls the insecticidal lamp to be turned off in rainy days;

the temperature sensor is connected with the main control module and used for detecting the ambient temperature and transmitting the detected ambient temperature to the main control module, and when the air temperature is lower than a set temperature, the main control module controls the insecticidal lamp to enter a dormant state;

the cleaning motor is electrically connected with the main control module and is used for driving a cleaning device to clean insects on the high-voltage power grid device at regular time;

and the pest killing quantity monitoring module is respectively electrically connected with the main control module and the high-voltage power grid device and is used for counting the quantity of the pests killed by the high-voltage power grid device.

2. The intelligent control system for the internet-of-things insecticidal lamp according to claim 1, wherein the charge and discharge control circuit comprises a battery power acquisition module, and the main control module determines whether the solar cell panel charges the storage battery by acquiring the power of the storage battery in real time through the battery power acquisition module.

3. The intelligent control system for the internet-of-things insecticidal lamp according to claim 1, wherein the charge and discharge control circuit comprises a battery voltage acquisition module for acquiring discharge voltage data of a storage battery, when the acquired voltage data is lower than a set low voltage value, the storage battery is under-voltage, the storage battery stops discharging, and the main control module controls the solar panel to charge the storage battery; when the collected voltage data are higher than a set high voltage value, the main control module controls the solar cell panel to stop charging the storage battery.

4. The intelligent control system for the insecticidal lamp based on the internet of things of claim 1, wherein the high-voltage grid device comprises a high-voltage package and a high-voltage grid, and the high-voltage package and the high-voltage grid are both connected with the main control module; the high-voltage package is connected with a high-voltage power grid, the high-voltage package is used for inputting high-voltage to the high-voltage power grid, and the high-voltage power grid is used for electrically shocking contacted insects.

5. The intelligent control system for the insecticidal lamp based on the internet of things of any one of claims 1 to 4, further comprising a remote server, wherein the remote server is connected with the main control module through a communication module.

6. The intelligent control system for the insecticidal lamp based on the internet of things of claim 5, further comprising a mobile terminal, wherein the mobile terminal is connected with the remote server through a wireless communication module.

7. The intelligent control system for the internet-of-things insecticidal lamp according to claim 6, wherein the insecticidal lamp control unit further comprises a battery current collection module, which is respectively connected with the storage battery and the main control module, and is used for collecting the output current of the storage battery, and if the storage battery has no voltage current, the main control module judges that the storage battery has a fault;

the insecticidal lamp control unit also comprises a solar panel current acquisition module which is respectively connected with the solar panel and the main control module and is used for acquiring the current of the solar panel during charging in the daytime, and if the solar panel has no voltage current, the main control module judges that the solar panel has a fault;

the insect trap lamp current acquisition module is respectively connected with the insect trap lamp and the main control module and is used for acquiring the current of the insect trap lamp during working, and if the insect trap lamp has no current, the main control module judges that the insect trap lamp breaks down;

the insecticidal lamp control unit also comprises a cleaning motor current acquisition module which is respectively connected with the cleaning motor and the main control module and is used for acquiring the current of the cleaning motor during working, and if the cleaning motor has no current, the main control module judges that the cleaning motor has a fault;

and the fault information is sent to the remote server through the main control module, and a worker can check the fault information on the mobile terminal.

8. The intelligent control system for the insecticidal lamp in the internet of things according to claim 1, wherein the insecticidal lamp control unit further comprises a GPS positioning module, and the GPS positioning module is electrically connected with the main control module.

9. The intelligent control system for the insecticidal lamp in the internet of things according to claim 8, wherein the insecticidal lamp control unit further comprises an alarm module, and the alarm module is connected with the main control module.

10. The intelligent control system for the insecticidal lamp in the internet of things according to claim 6, wherein the main control module can receive a remote instruction of the mobile terminal to turn on the lamp, turn off the lamp and restart the lamp.

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