CN112578714B - Intelligent mosquito killing lamp - Google Patents

Abstract

The application discloses an intelligent mosquito killer lamp, wherein after a processor of the intelligent mosquito killer lamp controls a power grid switch to be conducted and supplies power to a power grid through a boosting module, the processor monitors the load voltage of the power grid based on a voltage inductor; if the load voltage is detected to be smaller than the preset voltage value, and the first duration that the load voltage is continuously smaller than the preset voltage value is smaller than the first preset duration, the processor judges that the electric network finishes one-time mosquito killing, adds one to the current killing number in the processor, and controls the display module to display the current killing number; and if the load voltage is detected to be smaller than the preset voltage value and the first duration of the load voltage which is continuously smaller than the preset voltage value is larger than or equal to the first preset duration, the processor judges that the power grid is short-circuited and closes the power grid switch. This application avoids the product to be judged as the defective products by the user mistake, has reduced the customer and has complained the rate.

Description

Intelligent mosquito killing lamp

Technical Field

The application relates to the technical field of mosquito killing lamp tubes, in particular to a mosquito killing lamp tube.

Background

In subtropical and tropical areas, especially in summer, mosquito bites are a problem often faced by people in daily life, and mosquito killing lamp tubes are gradually favored and used because the mosquito killing lamp tubes do not generate toxic and harmful substances and have small harm to human bodies in mosquito killing products like mosquito repelling and killing.

Traditional kill mosquito fluorescent tube does not have any suggestion and interactive function, and the user can't judge directly perceivedly whether kill mosquito fluorescent tube normally works, and the rainy day short circuit leads to the product power consumptive soon, and the product is used and is experienced poorly, is judged as the defective products by the user mistake easily, and the visitor tells the rate high.

Disclosure of Invention

The main aim at of this application embodiment provides an intelligence mosquito killer lamp, aims at solving the mosquito killer lamp and uses experience poorly, is judged as the defective products by the user mistake easily, and the guest is complained the technical problem that the rate is high.

In order to achieve the above purpose, an embodiment of the present application provides an intelligent mosquito killer lamp, which includes a box body, a mosquito killing lamp tube arranged outside the box body, an electric network arranged at the periphery of the mosquito killing lamp tube, a power module, a boosting module, an electric network switch, a display module and a processor;

the power supply module, the processor, the boosting module, the power grid switch and the power grid are sequentially communicated in a circuit manner; the processor is in communication connection with a voltage inductor of a power grid; the power supply module, the display module and the mosquito killing lamp tube are all in communication connection with the processor;

after the processor controls the power grid switch to be conducted and supplies power to the power grid through the boosting module, the processor monitors the load voltage of the power grid based on the voltage inductor;

if the load voltage is detected to be smaller than the preset voltage value, and the first duration that the load voltage is continuously smaller than the preset voltage value is smaller than the first preset duration, the processor judges that the electric network finishes one-time mosquito killing, adds one to the current killing number in the processor, and controls the display module to display the current killing number;

and if the load voltage is detected to be smaller than the preset voltage value and the first duration of the load voltage which is continuously smaller than the preset voltage value is larger than or equal to the first preset duration, the processor judges that the power grid is short-circuited and closes the power grid switch.

Optionally, after the steps of determining that the grid is short-circuited and turning off the grid switch, the processor further includes:

and the processor counts a second duration for closing the power grid switch, and when the second duration is greater than or equal to a second preset duration or the processor receives a user opening instruction, the processor reopens the power grid switch and synchronously monitors the load voltage of the power grid based on the voltage inductor.

Optionally, the intelligent mosquito killer lamp further comprises a solar panel, the solar panel is arranged outside the box body, and the solar panel is communicated with the power module circuit;

if the processor detects that the intelligent mosquito killer lamp is in the night mode, the processor detects the power supply amount of the solar cell panel to the power supply module in unit time;

if the power supply amount per unit time is larger than the preset power amount, the processor closes the power grid switch; and if the power supply amount in unit time is less than or equal to the preset power amount, the processor turns on a power grid switch.

Optionally, the processor is further configured to:

if the processor detects that the intelligent mosquito killer lamp is in the all-day mode, the processor shields the solar cell panel from receiving the power supply amount of the power module in unit time.

Optionally, the intelligent mosquito killer lamp further comprises a distance sensor, and the distance sensor is arranged on the box body; the mosquito killing lamp tube is an ultraviolet lamp;

the processor detects whether shielding exists within a preset distance of the top of the intelligent mosquito killer lamp based on the distance sensor;

if the preset distance is detected to have shielding, the processor closes or discontinuously closes the mosquito killing lamp tube, and a mosquito trapping agent is put in the mosquito killing lamp tube;

optionally, after the processor detects whether there is the shelter from in the intelligent mosquito killer lamp top preset distance based on distance sensor, still include:

if the preset distance is detected without shielding, the processor controls the mosquito killing lamp tube to be continuously opened.

Optionally, the intelligent mosquito killer lamp further comprises a first key and an illuminating lamp which are electrically connected with the processor, and the working modes of the intelligent mosquito killer lamp comprise an illumination electric shock mode and an electric shock mode; when the processor detects that the intelligent mosquito killer lamp is in the lighting electric shock mode, the lighting lamp and the power grid switch are turned on; when the processor detects that the intelligent mosquito killer lamp is in an electric shock mode, the illuminating lamp is turned off, and a power grid switch is turned on;

the processor detects that the first key is pressed for a short time, and switches the working mode of the intelligent mosquito killer lamp once; and when the processor detects that the first key is pressed for a long time, resetting the current killing number of the intelligent mosquito killer lamp.

Optionally, the intelligent mosquito killer lamp further comprises a second key electrically connected with the processor, and mosquito killing modes of the intelligent mosquito killer lamp comprise an all-day mode and a night mode;

the processor detects that the second key is pressed for a short time, and switches the mosquito killing mode of the intelligent mosquito killing lamp once; and the processor detects that the second key is pressed for a long time, and controls the intelligent mosquito killer lamp to be turned on or turned off.

Optionally, the display module is an LED screen, and the processor dynamically acquires and controls the display module to display a real-time working mode, a mosquito killing mode, a remaining power of the power module, and a working scene of the intelligent mosquito killer lamp; wherein the content of the first and second substances,

the working mode comprises a lighting shock mode and a shock mode;

the mosquito killing modes comprise an all-day mode and a night mode;

the working scene comprises an indoor scene and an outdoor scene, and if the processor detects that shielding exists in a preset distance at the top of the intelligent mosquito killer lamp based on the distance sensor, the processor judges that the working scene is the indoor scene; and if the occlusion does not exist, the processor judges that the working scene is an outdoor scene.

Optionally, the intelligent mosquito killer lamp further comprises a USB interface, the power module comprises a battery and a charging management chip which are electrically connected with each other, and the USB interface, the charging management chip and the USB interface are sequentially communicated through a circuit.

The processor detects the load voltage of the power grid and the first duration time that the load voltage is smaller than the preset voltage value, and identifies whether the short circuit of the power grid is caused by killing mosquitoes or rainwater and other foreign matters, so that the short circuit of the power grid is determined to be the killing mosquitoes in a short time, the processor performs self-adding and synchronous display on the current killing number on the display module, intuitively prompts a user that the intelligent mosquito killing lamp kills the mosquitoes and normally works, and avoids the intelligent mosquito killing lamp from being mistakenly judged as being bad and defective products by the user; meanwhile, when the first duration is longer than a first preset duration, the fact that the intelligent mosquito killer lamp is likely to cause short circuit of a power grid due to rainwater is shown, the processor controls the power grid switch to be switched off at the moment, the phenomenon that the intelligent mosquito killer lamp consumes too fast due to the short circuit of the rainwater is avoided, and the use experience of the intelligent mosquito killer lamp is improved; thereby this application intelligence mosquito killer lamp has increased the mosquito and has hit and kill the number suggestion and the power consumptive fast function of rain-proof day short circuit, has produced mutual and function suggestion with the user, avoids the product to be judged as the defective products by the user mistake, has reduced the visitor and has complained the rate.

Drawings

FIG. 1 is a schematic diagram of a hardware framework of an embodiment of the intelligent mosquito killer lamp of the present application;

FIG. 2 is a schematic flow chart diagram illustrating an embodiment of the control function of the intelligent mosquito killer lamp processor of the present application;

FIG. 3 is a schematic flow chart of another embodiment of the control function of the intelligent mosquito killer lamp processor according to the present application.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for the convenience of description of the present application, and have no specific meaning by themselves. Thus, "module", "component" or "unit" may be used mixedly.

The invention provides an intelligent mosquito killer lamp, referring to fig. 1, an intelligent mosquito killer lamp 100 comprises a box body and a mosquito killing lamp tube 104 arranged outside the box body, wherein a power grid 109 is covered on the periphery of the mosquito killing lamp tube 104, a protective net is arranged on the periphery of the power grid 109, and the size of the grid of the protective net is larger than that of common mosquitoes; in addition, a display module 105 is also fixedly connected to the box body of the intelligent mosquito killer lamp 100, and the display module 105 is preferably an OLED (organic light-Emitting Diode) display screen; the power supply module 101 supplies power to all power utilization parts of the intelligent mosquito killer lamp, and the power supply module 101, the processor 112, the boosting module 111, the power grid switch 110 and the power grid 109 are sequentially communicated in a circuit manner; all parts of intelligent mosquito killer lamp are controlled by processor 112, processor 112 is connected with voltage inductor communication of electric wire netting 109, and power module 101, display module 105, boost module 111 and mosquito killing lamp 104 are all connected with processor 112 communication.

In addition, the intelligent mosquito killer lamp also comprises a memory, and the memory can be a high-speed RAM memory or a non-volatile memory (such as a disk memory). The memory may alternatively be a storage device separate from the aforementioned processor. A memory, which is a kind of computer storage medium, may include therein an operating system and a control program for a processor to realize the following functions.

Specifically, the boost module is connected between grid switch and the electric wire netting for promote the voltage of supply electric wire netting, voltage inductor can be parallelly connected in order to monitor the load voltage of electric wire netting with the electric wire netting, in intelligent mosquito killer lamp concrete application, refer to fig. 2, the following step of treater execution:

step S10, after the processor controls the power grid switch to be conducted and supplies power to the power grid through the voltage boosting module, the processor monitors the load voltage of the power grid based on the voltage inductor;

after a power grid switch is conducted, the power supply module supplies power to the power grid normally through the processor and the boosting module, and a voltage sensor (namely a voltage sensor) connected with the power grid in parallel detects the load voltage of the power grid in real time.

Step S20, if it is detected that the load voltage is smaller than the preset voltage value and the first duration that the load voltage is continuously smaller than the preset voltage value is smaller than the first preset duration, the processor judges that the electric network finishes one-time mosquito killing, one is added to the current killing number in the processor, and the display module is controlled to display the current killing number;

the preset voltage value can be a limit voltage value of normal work of the power grid, and if the processor detects that the load voltage of the power grid is smaller than the preset voltage value based on the voltage inductor, the fact that the power grid is short-circuited at the moment is indicated, and the grid structure of the power grid is possibly conducted by mosquitoes or foreign objects. At this time, the processor counts a first duration that the load voltage of the power grid is smaller than the preset voltage value, if common mosquitoes are attached to the power grid, the duration of a short circuit (the load voltage is smaller than the preset voltage value) of the power grid is generally short, and according to the experimental result, the duration of the short circuit of the power grid for electrically shocking the mosquitoes is generally not more than 10 seconds, so that the first preset duration can be set to be 10 seconds. Therefore, when the load voltage is detected to be smaller than the preset voltage value, and the first duration time that the load voltage is continuously smaller than the preset voltage value is smaller than the first preset duration time, it indicates that the power grid finishes a mosquito electric shock process, at this time, the processor judges that the power grid finishes a mosquito killing process, a numerical value, namely the current killing number of the mosquitoes is stored in the processor, the processor adds one to the current killing number, for example, the original current killing number of the intelligent mosquito killer lamp is 10, after the judgment that the load voltage is smaller than the preset voltage value and the first duration time is smaller than the first preset duration time through the processor, the current killing number is changed from adding one to 11, the synchronous processor controls the display module (such as an OLED display screen) to display the current killing number 11 of the intelligent mosquito killer lamp, and therefore a user can conveniently know the mosquito killing state of the intelligent mosquito killer lamp.

Step S30, if it is detected that the load voltage is less than the preset voltage value and the first duration of the load voltage being less than the preset voltage value is greater than or equal to the first preset duration, the processor determines that the power grid is short-circuited and turns off the power grid switch.

If the processor detects that the load voltage is smaller than the preset voltage value and the first duration is greater than or equal to the first preset duration, the fact that the short circuit of the power grid is not caused by attachment of mosquitoes and is likely to be caused by attachment of rainwater or other conductive objects is indicated, the processor judges that the power grid is short-circuited at the moment, the power grid switch is turned off, and waste of power supply mode electric quantity caused by long-time short circuit of the power grid is avoided.

After the processor turns off the grid switch, the grid switch may wait for a period of time before automatically turning on or waiting for a user to manually trigger the physical key of the intelligent mosquito killer lamp to turn on, and considering that the intelligent mosquito killer lamp is generally difficult for the user to pay attention to and operate the intelligent mosquito killer lamp for a long time no matter the intelligent mosquito killer lamp is placed indoors or outdoors, it is preferable to refer to fig. 3: after the step of the processor determining the grid short circuit in step S30 and turning off the grid switch, the processor further performs:

and step S40, the processor counts a second duration for closing the grid switch, and when the second duration is greater than or equal to a second preset duration or the processor receives a user opening instruction, the processor reopens the grid switch and synchronously monitors the load voltage of the grid based on the voltage sensor.

The second duration is the duration of the power grid disconnection after the first preset duration is continued due to the power grid short circuit, the second duration is not suitable to be too large, because the factors of killing mosquitoes and insects without killing mosquitoes and insects which cause the short circuit of the power grid can be relieved, such as rain before, current rain stops, the power grid needs to be electrified again to work continuously, therefore, when the processor determines that the second duration is longer than or equal to the second preset duration or receives a starting instruction input by triggering the intelligent mosquito killer lamp key by a user, the processor re-turns on the grid switch and synchronously monitors the load voltage of the grid based on the voltage sensor, for example, the second preset is 60 seconds, the smart mosquito killer lamp is placed in the rainscreen, the power grid is powered on for a first preset time period of 10 seconds, then the power grid is powered off for a second preset time period of 60 seconds, at 70 s's in-process, this application intelligence mosquito killer lamp compares in traditional mosquito killer lamp, saves the electric quantity that 60s electric wire netting circular telegram consumed. In addition, the processor synchronously counts the cycle times of the continuous conduction of the power grid for the first preset time and the second preset time, if the cycle times are greater than the preset times (such as 100), rainwater is basically removed due to the reason that the power grid is continuously short-circuited (as the rainwater flows), and the processor controls the intelligent mosquito killer lamp to output prompt information so as to prompt the cleaning of conductive foreign matters on the power grid.

In the embodiment, the processor detects the load voltage of the power grid and the first duration time that the load voltage is less than the preset voltage value, and identifies whether the short circuit of the power grid is caused by killing mosquitoes or rainwater and other foreign matters, so that the short circuit of the power grid in a short time is determined to be the killing of the mosquitoes, the processor performs self-adding and synchronous display on the current killing number on the display module, intuitively prompts a user that the intelligent mosquito killing lamp kills the mosquitoes and works normally, and avoids the intelligent mosquito killing lamp from being mistakenly judged as being bad and defective by the user; meanwhile, when the first duration is longer than a first preset duration, the fact that the intelligent mosquito killer lamp is likely to cause short circuit of a power grid due to rainwater is shown, the processor controls the power grid switch to be switched off at the moment, the phenomenon that the intelligent mosquito killer lamp consumes too fast due to the short circuit of the rainwater is avoided, and the use experience of the intelligent mosquito killer lamp is improved; thereby this application intelligence mosquito killer lamp has increased display module's mosquito and has hit and kill number suggestion and rainwater short circuit protection function, has produced mutual and function suggestion with the user, has promoted product experience and product quality, guarantees that product length of operation is long, avoids the product to be judged as the defective products by the user mistake, has reduced the visitor and has complained the rate.

Further, in another embodiment of the intelligent mosquito killer lamp of the present application, referring to fig. 1, the intelligent mosquito killer lamp further includes a solar cell panel 102, the solar cell panel 102 is disposed outside the box body, and the solar cell panel 102 is in circuit communication with the power module 101; the processor is further configured to:

step A1, if the processor detects that the intelligent mosquito killer lamp is in a night mode, the processor detects the power supply amount of the solar panel to the power module in unit time;

referring to fig. 1, the intelligent mosquito killer lamp 100 further comprises a second key 108 electrically connected to the processor 112, and the mosquito killing modes of the intelligent mosquito killer lamp include an all-day mode and a night mode; if the processor detects that the user presses the second key for a short time (if the short pressing time of the finger is less than a certain time, for example, 2 seconds), the mosquito killing mode of the intelligent mosquito killer lamp is switched once, and if the user presses the second key for a short time, the intelligent mosquito killer lamp is switched; and the processor detects that the second key is pressed for a long time, and controls the intelligent mosquito killer lamp to be turned on or turned off. The second button of intelligence mosquito killer lamp is the physics button, and the kill mosquito mode of user's accessible operation second button conveniently switches intelligent mosquito killer lamp and conveniently controls intelligent mosquito killer lamp and start or close.

The intelligent mosquito killer lamp of treater distinguishable current kill mosquito mode of locating, if the intelligent mosquito killer lamp is in the mode at night, then the electric wire netting is opened only when natural illumination intensity is lower to the intelligent mosquito killer lamp and the kill mosquito is carried out, so the treater passes through solar cell panel to power module's unit interval power supply volume, indirect detection intelligent mosquito killer lamp is located the illumination intensity of environment.

Step A2, if the power supply amount per unit time is larger than the preset power amount, the processor closes the power grid switch; and if the power supply amount in unit time is less than or equal to the preset power amount, the processor turns on a power grid switch.

If the processor detects that the power supply amount of the solar cell panel in unit time is larger than the preset power amount, the photoelectric conversion amount of the solar cell panel is large, the illumination of the environment where the intelligent mosquito killer lamp is located is strong, and the processor closes a power grid switch to ensure that a power grid does not work in the daytime or in the absence of night. Correspondingly, if the power supply quantity per unit time of the solar cell panel is less than or equal to the preset power quantity, the photoelectric conversion quantity of the solar cell panel is small, the illumination of the environment where the intelligent mosquito killer lamp is located is weak at the moment, and at night, the power grid switch is turned on by the processor, so that the intelligent mosquito killer lamp works normally.

Further, the processor is further configured to:

step A3, if the processor detects that the intelligent mosquito killer lamp is in the all-day mode, the processor shields the solar cell panel from receiving the power supply amount of the power supply module in unit time.

If the intelligent mosquito killer lamp is in the all-day mode, the intelligent mosquito killer lamp does not need to pay attention to the illumination intensity of the environment where the intelligent mosquito killer lamp is located, and the intelligent mosquito killer lamp works 24 hours every day, so that the processor only needs to shield the solar cell panel from receiving the power supply quantity of the power supply module in unit time, and the influence of the power supply quantity in unit time on the opening and closing of a power grid switch is avoided.

In the embodiment, the second key is used for supporting the switching of the intelligent mosquito killer lamp between a night mode and an all-day mode, the light control of the power grid switch is realized through the power supply energy cell panel and the power supply amount in unit time, the power grid switch is closed in the daytime in the night mode, and the power grid switch is opened only at night to play a role in killing mosquitoes; under the all-day mode, the grid switch is normally open, plays the mosquito and kills the effect all day, has realized intelligent mosquito killer lamp night and all two grades of kill mosquito modes, is suitable for different users' use custom.

Further, in another embodiment of the intelligent mosquito killer lamp of the present application, referring to fig. 1, the intelligent mosquito killer lamp further comprises a distance sensor 106, the distance sensor 106 is disposed on the box body, the distance sensor 106 is preferably an ultrasonic distance sensor, and the distance sensor 106 is preferably disposed at the top of the box body of the intelligent mosquito killer lamp; the mosquito killing lamp tube 104 is an ultraviolet lamp; the processor is further configured to:

step B1, the processor detects whether the shield exists in the preset distance of the top of the intelligent mosquito killer lamp based on the distance sensor;

this application intelligence mosquito killer lamp supports outdoor and indoor use scene, predetermines the distance and for example be 3 meters, and the treater examines intelligent mosquito killer lamp top through distance sensor and predetermines whether there is the distance to shelter from, and whether the feedback signal that the distance is regional is predetermine at intelligent mosquito killer lamp top is received to concrete accessible.

Step B2, if the preset distance is detected to have shielding, the processor closes or discontinuously closes the mosquito killing lamp tube, and puts mosquito luring agent in the mosquito killing lamp tube;

if the treater detects that there is the preset distance to shelter from, control intelligent mosquito killer lamp gets into indoor use scene, closes or is interrupted the mosquito eradication lamp pipe of closing, avoids the purple light of mosquito eradication lamp pipe to shine for a long time and cause the health influence, simultaneously, can put in the effect of luring the mosquito agent in order to improve attraction mosquito in mosquito eradication lamp pipe department.

In addition, after the treater detects whether there is the shelter from in the intelligent mosquito killer lamp top preset distance based on distance sensor, the treater still is used for:

and step B3, if the preset distance is detected to have no shielding, the processor controls the mosquito killing lamp tube to be continuously opened.

If the processor detects that the preset distance is not shielded, the intelligent mosquito killer lamp is possibly in an outdoor scene, and the processor controls the mosquito killing lamp tube to be continuously opened at the moment. Preferably, in order to avoid the processor to detect the erroneous judgement that does not have the shelter from preset distance based on distance sensor, for example the user walks near the mosquito killer lamp, if the processor detects that there is not the shelter from preset distance, detect once more at interval fixed time (for example 8 minutes) and whether there is the shelter from preset distance, if the processor detects that there is not the shelter from preset distance at intelligent mosquito killer lamp top for N consecutive times, the processor judges that intelligent mosquito killer lamp is in outdoor scene this moment.

In this embodiment, this application intelligence mosquito killer lamp increases UVA purple light safeguard function, detects intelligence mosquito killer lamp through distance sensor and is in indoor scene or outdoor scene, when indoor scene, closes the kill mosquito fluorescent tube, when outdoor scene, opens the kill mosquito fluorescent tube, avoids the purple light of kill mosquito fluorescent tube to shine for a long time in indoor and influence the user healthy to the indoor scene and the outdoor scene of intelligence mosquito killer lamp judge automatically, the purple light safeguard function of automatic start intelligence mosquito killer lamp.

Optionally, referring to fig. 1, the intelligent mosquito killer lamp 100 further comprises a first key 107 and an illuminating lamp 103 electrically connected to the processor 112, and the operation modes of the intelligent mosquito killer lamp comprise an illumination shock mode and a shock mode; when the processor detects that the intelligent mosquito killer lamp is in the lighting electric shock mode, the lighting lamp and the power grid switch are turned on; when the processor detects that the intelligent mosquito killer lamp is in an electric shock mode, the illuminating lamp is turned off, and a power grid switch is turned on; the processor detects that the first key is pressed for a short time, and switches the working mode of the intelligent mosquito killer lamp once; and when the processor detects that the first key is pressed for a long time, resetting the current killing number of the intelligent mosquito killer lamp.

Thereby, the user can carry out the short operation of pressing to setting up the first button on intelligent mosquito killer lamp box, realize that intelligent mosquito killer lamp mode switches between illumination electric shock mode and single electric shock mode, and intelligent mosquito killer lamp is under illumination electric shock mode, can compromise illumination and electric shock function, for example indoor use night, intelligent mosquito killer lamp has compromise night family's shimmer illumination simultaneously at the kill mosquito, of course, when indoor illumination is sufficient, intelligent mosquito killer lamp also can advance to activate kill mosquito electric shock function, reach the power saving purpose. In addition, the user presses the first button for a long time, the number of killing the current mosquito killer lamp can be cleared, so that the number of killing the current mosquito killer lamp displayed on the display module is also cleared, and the user can know the mosquito killing effect of the intelligent mosquito killer lamp at the future time more accurately.

Moreover, the display module of the intelligent mosquito killer lamp can be an OLED screen, and the processor dynamically acquires and controls the display module to display the real-time working mode, the mosquito killing mode, the residual electric quantity of the power supply module and the working scene of the intelligent mosquito killer lamp; wherein the content of the first and second substances,

the working mode comprises a lighting shock mode and a shock mode;

the mosquito killing modes comprise an all-day mode and a night mode;

the working scene comprises an indoor scene and an outdoor scene, and if the processor detects that shielding exists in a preset distance at the top of the intelligent mosquito killer lamp based on the distance sensor, the processor judges that the working scene is the indoor scene; and if the occlusion does not exist, the processor judges that the working scene is an outdoor scene.

Therefore, the display module of the intelligent mosquito killer lamp can display the working mode, the mosquito killing mode and the residual electric quantity (available percentage display) and the working scene of the intelligent mosquito killer lamp in real time, the user can check the working state of the display module to know the intelligent mosquito killer lamp quickly and conveniently, and the interactivity of the user and the intelligent mosquito killer lamp is enhanced.

In addition, intelligence mosquito killer lamp still includes the USB interface, and power module includes battery and the management chip that charges that mutual electric connection, USB interface, the management chip that charges and USB interface circuit intercommunication in proper order, USB interface support long-time USB power supply use and charge, and the USB interface is as the charge-discharge interface of intelligence mosquito killer lamp.

It should be noted that, in this document, 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, the recitation of an element by the phrase "comprising an … …" does not exclude the presence of additional like elements in the process, method, article, or apparatus that comprises the element, and further, where similarly-named elements, features, or elements in different embodiments of the disclosure may have the same meaning, or may have different meanings, that particular meaning should be determined by their interpretation in the embodiment or further by context with the embodiment.

It should be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope herein. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context. Also, as used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, steps, operations, elements, components, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions, steps or operations are inherently mutually exclusive in some way.

It should be understood that, although the steps in the flowcharts in the embodiments of the present application are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least some of the steps in the figures may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, in different orders, and may be performed alternately or at least partially with respect to other steps or sub-steps of other steps.

It should be noted that step numbers such as S10 and S20 are used herein for the purpose of more clearly and briefly describing the corresponding content, and do not constitute a substantial limitation on the sequence, and those skilled in the art may perform S20 first and then S10 in specific implementation, which should be within the scope of the present application.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present application.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. An intelligent mosquito killer lamp is characterized by comprising a box body, a mosquito killing lamp tube arranged outside the box body, an electric network arranged on the periphery of the mosquito killing lamp tube, a power supply module, a boosting module, an electric network switch, a display module and a processor;

the power supply module, the processor, the boosting module, the power grid switch and the power grid are sequentially communicated in a circuit manner; the processor is in communication connection with a voltage inductor of a power grid; the power supply module, the display module and the mosquito killing lamp tube are all in communication connection with the processor;

after the processor controls the power grid switch to be conducted and supplies power to the power grid through the boosting module, the processor monitors the load voltage of the power grid based on the voltage inductor;

if the load voltage is detected to be smaller than the preset voltage value, and the first duration that the load voltage is continuously smaller than the preset voltage value is smaller than the first preset duration, the processor judges that the electric network finishes one-time mosquito killing, adds one to the current killing number in the processor, and controls the display module to display the current killing number;

if the load voltage is detected to be smaller than the preset voltage value and the first duration that the load voltage is continuously smaller than the preset voltage value is larger than or equal to the first preset duration, the processor judges that the power grid is short-circuited and closes a power grid switch;

and the processor counts a second duration for closing the power grid switch, and when the second duration is greater than or equal to a second preset duration or the processor receives a user opening instruction, the processor reopens the power grid switch and synchronously monitors the load voltage of the power grid based on the voltage inductor.

2. The intelligent mosquito killer lamp according to claim 1, further comprising a solar panel disposed outside the case, the solar panel being in circuit communication with the power module;

if the processor detects that the intelligent mosquito killer lamp is in the night mode, the processor detects the power supply amount of the solar cell panel to the power supply module in unit time;

if the power supply amount per unit time is larger than the preset power amount, the processor closes the power grid switch; and if the power supply amount in unit time is less than or equal to the preset power amount, the processor turns on a power grid switch.

3. The intelligent mosquito killer lamp of claim 2, wherein the processor is further configured to:

if the processor detects that the intelligent mosquito killer lamp is in the all-day mode, the processor shields the solar cell panel from receiving the power supply amount of the power module in unit time.

4. The intelligent mosquito killer lamp according to claim 3, wherein the intelligent mosquito killer lamp further comprises a distance sensor, the distance sensor is disposed on the case; the mosquito killing lamp tube is an ultraviolet lamp;

the processor detects whether shielding exists within a preset distance of the top of the intelligent mosquito killer lamp based on the distance sensor;

if the preset distance is detected to have shielding, the processor closes or discontinuously closes the mosquito killing lamp tube, and the mosquito trapping agent is put in the mosquito killing lamp tube.

5. The intelligent mosquito killer lamp as claimed in claim 4, after the processor detects whether there is an occlusion within a preset distance of the top of the intelligent mosquito killer lamp based on the distance sensor, further comprising:

if the preset distance is detected without shielding, the processor controls the mosquito killing lamp tube to be continuously opened.

6. The intelligent mosquito killer lamp as claimed in claim 5, wherein the intelligent mosquito killer lamp further comprises a first key and a lighting lamp electrically connected with the processor, and the operation mode of the intelligent mosquito killer lamp comprises a lighting electric shock mode and an electric shock mode; when the processor detects that the intelligent mosquito killer lamp is in the lighting electric shock mode, the lighting lamp and the power grid switch are turned on; when the processor detects that the intelligent mosquito killer lamp is in an electric shock mode, the illuminating lamp is turned off, and a power grid switch is turned on;

the processor detects that the first key is pressed for a short time, and switches the working mode of the intelligent mosquito killer lamp once; and when the processor detects that the first key is pressed for a long time, resetting the current killing number of the intelligent mosquito killer lamp.

7. The intelligent mosquito killer lamp of claim 6, wherein the intelligent mosquito killer lamp further comprises a second button electrically connected to the processor, and the mosquito killing modes of the intelligent mosquito killer lamp comprise an all-day mode and a night mode;

the processor detects that the second key is pressed for a short time, and switches the mosquito killing mode of the intelligent mosquito killing lamp once; and the processor detects that the second key is pressed for a long time, and controls the intelligent mosquito killer lamp to be turned on or turned off.

8. The intelligent mosquito killer lamp according to claim 7, wherein the display module is an LED screen, and the processor dynamically acquires and controls the display module to display the real-time working mode, mosquito killing mode, residual electric quantity of the power supply module and working scene of the intelligent mosquito killer lamp; wherein the content of the first and second substances,

the working mode comprises a lighting shock mode and a shock mode;

the mosquito killing modes comprise an all-day mode and a night mode;

the working scene comprises an indoor scene and an outdoor scene, and if the processor detects that shielding exists in a preset distance at the top of the intelligent mosquito killer lamp based on the distance sensor, the processor judges that the working scene is the indoor scene; and if the occlusion does not exist, the processor judges that the working scene is an outdoor scene.

9. The intelligent mosquito killer lamp according to any one of claims 1 to 8, wherein the intelligent mosquito killer lamp further comprises a USB interface, the power supply module comprises a battery and a charging management chip which are electrically connected with each other, and the USB interface, the charging management chip and the USB interface are sequentially in circuit communication.

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