CN113932433A

CN113932433A - Mosquito repelling method and system based on air conditioner

Info

Publication number: CN113932433A
Application number: CN202111191346.0A
Authority: CN
Inventors: 林超; 陈运东; 田雪冬; 林金涛; 张晓飞
Original assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Priority date: 2021-10-13
Filing date: 2021-10-13
Publication date: 2022-01-14

Abstract

The invention provides a mosquito repelling method and system based on an air conditioner, wherein the method comprises the following steps: collecting physical sign data of a target user; acquiring sound frequency in a first area where a target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate; under the condition that the target user is determined to be in a waking state according to the sign data, the flying creatures are searched in all directions; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner. The mosquito is not required to be searched and repelled manually, the time spent on searching the mosquito is reduced, and the insect repelling efficiency is improved.

Description

Mosquito repelling method and system based on air conditioner

Technical Field

The invention relates to the technical field of mosquito prevention and control appliances, in particular to a mosquito repelling method and system based on an air conditioner.

Background

Mosquitoes are intermediate hosts of a plurality of pathogens, bacteria can enter human bodies after being bitten by the mosquitoes, and ruddy pimples which are difficult to endure with pruritus can be generated on the surfaces of the human bodies, so that the normal life of people is interfered.

At present, the mosquito is expelled by manual work, but because the shape of the mosquito is tiny and not easy to find, the process of killing wastes time and labor, and the efficiency is low.

Disclosure of Invention

In view of this, embodiments of the present invention provide an air conditioner-based mosquito repelling method and system, so as to solve the problems of time and labor consuming and low efficiency of the trapping process in the existing manual trapping and killing manner.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

the embodiment of the invention discloses a mosquito repelling method based on an air conditioner in a first aspect, which comprises the following steps:

collecting physical sign data of a target user;

under the condition that the target user is in a sleep state according to the sign data, acquiring sound frequency in a first area where the target user is located;

if the sound frequency is within a preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located;

when the flying creatures are determined to be mosquitoes, controlling an air conditioner to sweep wind to the second area;

determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate;

under the condition that the target user is determined to be in a waking state according to the sign data, the flying creature is searched in an all-around manner;

and when determining that the flying creatures are mosquitoes, controlling an air conditioner to release a preset reagent, and controlling the concentration of the preset reagent by using the air conditioner.

Preferably, the determining a rate of decrease of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the rate of decrease includes:

determining a rate of decrease of a body surface temperature of the target user;

judging whether the descending rate is higher than a preset rate or not;

if so, controlling the air conditioner to keep the current air outlet angle and improve the air outlet temperature, and returning to the step of determining the reduction rate of the body surface temperature of the target user;

if not, controlling the air conditioner to keep the current air outlet temperature and air outlet angle, and returning to the step of determining the falling rate of the body surface temperature of the target user.

Preferably, after determining the rate of decrease of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner accordingly, the method further includes:

acquiring the real-time distance between the flying creature and the target user;

and if the real-time distance is greater than the preset distance, controlling the air conditioner to recover the default air outlet angle and the default air outlet temperature.

Preferably, when it is determined that the flying creature is a mosquito, controlling an air conditioner to release a preset reagent, and controlling the concentration of the preset reagent by using the air conditioner, the method includes:

controlling the air conditioner insect expelling device to release an attractant and release an insecticide after a preset time;

monitoring whether the concentration of the pesticide is above a concentration threshold;

and if the concentration of the insecticide is higher than the concentration threshold value, controlling the air conditioner to start an air exchange function until the concentration of the insecticide is less than or equal to the concentration threshold value.

Preferably, the process of determining the flying organism as a mosquito comprises:

capturing an image of the flying organism;

matching the image of the flying organism with a preset mosquito image;

and if the image of the flying organism is matched with the preset mosquito image, determining that the flying organism is the mosquito.

The second aspect of the embodiment of the invention discloses a mosquito repellent system based on an air conditioner, which comprises:

the acquisition unit is used for acquiring physical sign data of a target user;

the first processing unit is used for acquiring sound frequency in a first area where the target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within a preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling an air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate;

the second processing unit is used for searching the flying creature in an all-around way under the condition that the target user is determined to be in a waking state according to the sign data; and when determining that the flying creatures are mosquitoes, controlling an air conditioner to release a preset reagent, and controlling the concentration of the preset reagent by using the air conditioner.

Preferably, the first processing unit for controlling the air outlet angle and the air outlet temperature of the air conditioner is specifically configured to:

determining a rate of decrease of a body surface temperature of the target user; judging whether the descending rate is higher than a preset rate or not; if so, controlling the air conditioner to keep the current air outlet angle and improve the air outlet temperature, and returning to the step of determining the reduction rate of the body surface temperature of the target user; if not, controlling the air conditioner to keep the current air outlet temperature and air outlet angle, and returning to the step of determining the falling rate of the body surface temperature of the target user.

Preferably, the first processing unit is further configured to:

Preferably, the second processing unit for controlling the air conditioner to release the preset reagent is specifically configured to:

Preferably, the first processing unit or the second processing unit for determining that the flying organism is mosquito is specifically configured to:

capturing an image of the flying organism;

matching the image of the flying organism with a preset mosquito image;

Based on the mosquito repelling method and system based on the air conditioner provided by the embodiment of the invention, the method comprises the following steps: collecting physical sign data of a target user; acquiring sound frequency in a first area where a target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate; under the condition that the target user is determined to be in a waking state according to the sign data, the flying creatures are searched in all directions; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner. In the scheme, physical sign data of a target user are collected; acquiring sound frequency in a first area where a target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate; under the condition that the target user is determined to be in a waking state according to the sign data, the flying creatures are searched in all directions; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner. The mosquito is not required to be searched and repelled manually, the time spent on searching the mosquito is reduced, and the insect repelling efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and for an object user in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a flowchart of a mosquito repelling method based on an air conditioner according to an embodiment of the present invention;

fig. 2 is a flowchart of controlling an air outlet angle and an air outlet temperature of an air conditioner according to an embodiment of the present invention;

fig. 3 is another flowchart of a mosquito repelling method based on an air conditioner according to an embodiment of the present invention;

fig. 4 is a block diagram of a mosquito repelling system based on an air conditioner according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by the target user of ordinary skill in the art without creative efforts based on the embodiments of the present invention, belong to the protection scope of the present invention.

In this application, 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 an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Known by the background art, at present, the mosquitoes are searched and killed manually, but the mosquitoes are small in body shape and difficult to search, and the process of killing manually wastes time and labor, so that the mosquito expelling efficiency is low.

Therefore, the embodiment of the invention provides an air conditioner-based mosquito repelling method and system, which are used for collecting physical sign data of a target user; acquiring sound frequency in a first area where a target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate; under the condition that the target user is determined to be in a waking state according to the sign data, the flying creatures are searched in all directions; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner. The mosquito is not required to be searched and repelled manually, the time spent on searching the mosquito is reduced, and the insect repelling efficiency is improved.

Referring to fig. 1, a flowchart of a mosquito repelling method based on an air conditioner provided by an embodiment of the present invention is shown, and the mosquito repelling method based on the air conditioner includes:

step S101: and collecting physical sign data of the target user.

In the specific implementation process of step S101, after the target user turns on the mosquito repelling function of the air conditioner by using the air conditioner remote controller, the target user is located by using a camera (which may be disposed on the air conditioner), and a first area where the target user is located is determined. And acquiring sign data of the target user, and determining that the target user is in a sleep state or a wakeful state according to the acquired sign data.

It can be understood that whether the target user is in the sleep state is determined according to the physical sign data of the target user, and specifically, whether the target user is in the sleep state can be determined by using the physical sign data of the target user, such as the respiratory frequency, the heartbeat frequency, the body temperature, and the like.

It should be noted that, if the target user is in the sleep state, step S102 to step S106 are executed; if the target user is in the awake state, step S107 to step S108 are performed.

Step S102: and under the condition that the target user is in a sleep state according to the sign data, acquiring the sound frequency in a first area where the target user is located.

In the specific implementation of step S102, when it is determined that the target user is in a sleep state according to the physical sign data of the target user, a sound sensor is used to collect the sound frequency in the first area where the target user is located, and the sound sensor may be disposed on the air conditioner.

Step S103: judging whether the sound frequency is within a preset sound frequency range, and if so, executing the step S104; if the audio frequency is not within the preset audio frequency range, the process returns to step S102.

In the process of implementing step S103, the sound frequency is compared with the preset sound frequency range, and whether the sound frequency is within the preset sound frequency range is determined.

It is understood that the preset sound frequency range may be a sound frequency range (e.g., 250 hz to 600 hz) emitted by the vibration of the wings of the mosquito, and when the collected sound frequency is within the preset sound frequency range, it may be determined that the airborne creatures are present in the first area where the target user is located. If the collected sound frequency is not within the preset sound frequency range, the step S102 is executed again to continue collecting the sound frequency in the first zone where the target user is located.

Step S104: and searching the flying creatures in all directions, positioning the flying creatures and determining the second area where the flying creatures are located.

In the specific implementation process of step S104, the camera is controlled to search for the flying creature in all directions, the flying creature in the image range that can be captured by the camera is pre-marked, and the flying creature is positioned and tracked to determine the second area where the flying creature is located.

Step S105: and when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area.

In the specific implementation process of step S105, after it is determined that the flying creature is a mosquito, the air outlet angle of the air conditioner is controlled, so that the air conditioner performs air sweeping on the second area where the flying creature is located.

It can be understood that the air outlet angle of the air conditioner is controlled by adjusting the angle of the air deflector of the air conditioner, so that the air outlet angle of the air conditioner is changed.

It should be noted that the specific way of determining the flying creatures as mosquitoes is as follows: shooting an image of a flying organism, and matching the image of the flying organism with a preset mosquito image; and if the image of the flying organism is matched with the preset mosquito image, determining that the flying organism is the mosquito.

Step S106: and determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate.

In the specific implementation process of step S106, in order to maintain the body surface temperature of the target user, the reduction rate of the body surface temperature of the target user is collected, the collected reduction rate is compared with a preset rate, and the air outlet temperature and the air outlet angle of the air conditioner are controlled according to the comparison result.

It should be noted that, when the second area where the flying creature is located is subjected to air sweeping, the distance between the flying creature and the target user is detected by using the camera, and when the distance is greater than the preset distance, the air conditioner is controlled to recover to the default air outlet angle and air outlet temperature so as to save power; and when the distance is smaller than or equal to the preset distance, controlling the air conditioner to continuously sweep the second area where the flying creatures are located.

It can be understood that, in order to ensure the sleep quality of the target user, the preset distance is a reasonable distance that the target user can not be interfered by mosquitoes, and similarly, the preset distance can also be set according to actual conditions.

Step S107: and under the condition that the target user is determined to be in the waking state according to the sign data, the flying creatures are searched in all directions.

In the specific implementation process of step S107, the camera is controlled to search for the flying creature in all directions while the target user is determined to be awake according to the physical sign data of the target user.

In some specific embodiments, whether the target user is in an awake state is determined according to the sign data of the target user, and whether the target user is in the awake state may be determined by using the sign data of the target user, such as a respiratory rate, a heartbeat rate, and a body temperature. And controlling the camera to search the flying creatures in an all-around manner, pre-marking the flying creatures in the image range which can be shot by the camera, and positioning and tracking the flying creatures.

Step S108: and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner.

The predetermined reagent includes: the attractant is used for attracting mosquitoes and the insecticide is used for killing the mosquitoes. In the specific implementation process of step S108, after determining that the flying organism is a mosquito, controlling the air conditioner to release the attractant and release the insecticide after a preset time, monitoring the concentration of the insecticide by using a corresponding sensor and determining whether the concentration is higher than a concentration threshold, and if the concentration of the insecticide is higher than the concentration threshold, controlling the air conditioner to start the ventilation function until the concentration of the insecticide is less than or equal to the concentration threshold, and controlling the air conditioner to stop the ventilation function. And if the concentration of the insecticide is not higher than the concentration threshold value, controlling the air conditioner to continuously release the insecticide, and continuously monitoring the concentration of the insecticide.

The purpose of controlling the air conditioner to release the attractant is to attract the mosquitoes to gather, release the attractant and release the insecticide after a preset time, and intensively kill the gathered mosquitoes, so that the mosquito killing efficiency is improved. In the actual implementation process, the preset time may be the time for the attractant to act, that is, the preset time may be set according to the time for the attractant to act, and similarly, the preset time may also be set according to the actual situation, which is not specifically limited herein.

It should be noted that, the steps S101 to S108 may be periodically executed, and periodically detect whether there is a flying creature in the detection range of the air conditioner, and the cycle is implemented until the user turns off the mosquito repellent function of the current air conditioner through the air conditioner remote controller.

In the embodiment of the invention, physical sign data of a target user is collected; acquiring sound frequency in a first area where a target user is located under the condition that the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate; under the condition that the target user is determined to be in a waking state according to the sign data, the flying creatures are searched in all directions; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner. The mosquito is not required to be searched and repelled manually, the time spent on searching the mosquito is reduced, and the insect repelling efficiency is improved.

In the above embodiment of the present invention, referring to fig. 2, the process of controlling the air outlet angle and the air outlet temperature of the air conditioner in step S106 in fig. 1 shows a flowchart of controlling the air outlet angle and the air outlet temperature of the air conditioner provided in the embodiment of the present invention, which includes the following steps:

step S201: determining a rate of decrease of a body surface temperature of the target user.

In the process of implementing step S201 specifically, the body surface temperature of the target user is detected by using the temperature sensor, and the rate of decrease of the body surface temperature of the target user is determined according to the detected body surface temperature.

Step S202: and judging whether the descending rate is higher than a preset rate. If the descending rate is higher than the preset rate, go to step S203; if the descending rate is lower than or equal to the predetermined rate, go to step S204.

In the process of implementing step S202 specifically, the detected decrease rate of the body surface temperature of the target user is compared with a preset rate, and whether the decrease rate is higher than the preset rate is determined. If the descending rate is higher than the preset rate, go to step S203; if the descending rate is lower than or equal to the predetermined rate, go to step S204.

Step S203: and controlling the air conditioner to keep the current air outlet angle and improve the air outlet temperature.

In the process of specifically implementing step S203, if the body surface temperature drop rate of the target user is higher than the preset rate, the air conditioner is controlled to maintain the current air outlet angle to continue to drive mosquitoes, and meanwhile, the air outlet temperature is increased, so that the body surface temperature of the target user is prevented from being too low.

Step S204: and controlling the air conditioner to keep the current air outlet angle and air outlet temperature.

In the process of specifically implementing the step S204, if the body surface temperature drop rate of the target user is not higher than the preset rate, the air conditioner is controlled to maintain the current air outlet angle and air outlet temperature, and mosquitoes are driven by the current air outlet angle and air outlet temperature.

In the embodiment of the invention, whether the body surface temperature reduction rate of the target user is higher than the preset rate or not is judged, and the air outlet angle and the air outlet temperature of the air conditioner are controlled according to the body surface temperature reduction rate. When the air conditioner is used for expelling mosquitoes, the body temperature of a target user is guaranteed to be within a certain range, and user experience is improved.

To better explain the contents of fig. 1 and fig. 2 in the above embodiment of the present invention, another flow chart of an air conditioner-based mosquito repelling method is illustrated in fig. 3, where fig. 3 includes the following steps:

step S301: and the target user starts the mosquito repelling function.

In the process of implementing step S301 specifically, the target user turns on the mosquito repelling function of the air conditioner using the air conditioner remote controller.

Step S302: and determining a first area where the target user is located by using the camera.

In the process of implementing step S302, the target user is located by using the camera, and the first area where the target user is located is determined.

Step S303: and judging the state of the target user.

In the process of implementing step S303 specifically, physical sign data of the target user is collected, and it is determined that the target user is in a sleep state or in a wake state according to the collected physical sign data.

It should be noted that, if the target user is in the sleep state, step S304 to step S315 are executed; if the target user is awake, step S316 to step S323 are performed.

Step S304: determining that the target user is in a sleep state.

In the process of implementing step S304, it is determined that the target user is in a sleep state according to the sign data, where the sign data includes, for example, the breathing frequency, the heartbeat frequency, the body temperature, and the like of the target user.

Step S305: and collecting sound frequency and judging whether the sound frequency is in a preset sound frequency range.

In the process of implementing step S305, the sound frequency in the first area where the target user is located is collected by using a sound sensor, which may be disposed in the air conditioner. Judging whether the sound frequency is in a preset sound frequency range, and if so, executing the step S306; if the sound frequency is not within the preset sound frequency range, the sound frequency in the first area is continuously collected and whether the sound frequency is within the preset sound frequency range is judged again until the sound frequency is within the preset sound frequency range, and step S306 is executed.

In the process of implementing step S305, the collected sound frequency is compared with the preset sound frequency range, and whether the sound frequency is within the preset sound frequency range is determined.

Step S306: and shooting images of the flying organisms in the first area by using the camera.

In the process of implementing step S306, the camera is controlled to search for the flying creature in all directions, the flying creature in the image range that can be captured by the camera is pre-marked, and is subjected to positioning and tracking, the second area where the flying creature is located is determined, and the image of the flying creature is captured.

Step S307: and matching the shot images of the flying creatures with preset mosquito images.

Step S308: and judging whether the matching is successful.

In the process of implementing step S308, if the image of the flying creature matches with the preset mosquito image, it is determined that the flying creature is a mosquito.

It should be noted that, if the image of the flying creature is successfully matched with the preset mosquito image, the step S309 is executed; and if the image of the flying creature is not matched with the preset mosquito image successfully, returning to execute the step S307.

Step S309: the air guide plate is adjusted to change the air outlet angle so as to drive mosquitoes.

In the specific implementation process of step S309, after determining that the flying creature is a mosquito, the air outlet angle of the air conditioner is controlled, so that the air conditioner blows air to the second area where the flying creature is located, and the mosquito is repelled.

Step S310: the temperature sensor detects the body surface temperature of the target user.

In the process of implementing step S310 specifically, the body surface temperature of the target user is detected by using the temperature sensor, and the rate of decrease of the body surface temperature of the target user is determined according to the detected body surface temperature.

Step S311: and judging whether the falling rate of the body surface temperature is higher than a preset rate or not. If the body surface temperature decreases at a rate higher than the predetermined rate, go to step S312, and if the body surface temperature decreases at a rate lower than or equal to the predetermined rate, go to step S313.

In the process of implementing step S311, the detected decrease rate of the body surface temperature of the target user is compared with a preset rate, and whether the decrease rate is higher than the preset rate is determined.

Step S312: and controlling the air conditioner to keep the air outlet angle and adjusting the air outlet temperature.

In the process of specifically implementing the step S312, if the body surface temperature drop rate of the target user is higher than the preset rate, the air conditioner is controlled to maintain the current air outlet angle to continue to drive mosquitoes, and meanwhile, the air outlet temperature is increased, so that the body surface temperature of the target user is prevented from being too low.

Step S313: and controlling the air conditioner to continuously output air at the current air output angle and the air output temperature.

In the process of implementing step S313 specifically, if the body surface temperature drop rate of the target user is not higher than the preset rate, the air conditioner is controlled to maintain the current air outlet angle and the current air outlet temperature.

Step S314: and judging whether the mosquitoes are driven to be far away from the target user or not.

In the specific implementation process of step S314, it is determined whether mosquitoes are driven away from the target user, the camera is controlled to detect the distance between the flying creature and the target user, and whether the distance is greater than a preset distance is determined. It can be understood that, in order to ensure the sleep quality of the target user, the preset distance is a reasonable distance at which the target user can not be interfered by mosquitoes, and similarly, the preset distance can also be set according to actual conditions.

It should be noted that, it is determined whether the mosquitoes are driven away from the target user, and if the mosquitoes are driven away from the target user, the step S315 is executed; if the mosquitoes are not driven to be far away from the target user, the camera is continuously controlled to detect the distance between the flying creatures and the target user until the mosquitoes are determined to be driven to be far away from the target user.

Step S315: and controlling the air conditioner to restore the air outlet angle and the air outlet temperature to the initial state.

Step S316: determining that the target user is awake.

In the process of implementing step S316, it is determined that the target user is in an awake state according to the sign data.

Step S317: and controlling the camera to shoot images of the flying creatures in the first area.

In the process of implementing step S317 specifically, the camera is controlled to search for the flying creature in all directions, the flying creature within the image range that can be captured by the camera is pre-marked, and the flying creature is positioned and tracked.

Step S318: and matching the shot images of the flying creatures with preset mosquito images.

Step S319: and judging whether the matching is successful.

In the process of implementing step S319, if the image of the flying creature matches with the preset mosquito image, it is determined that the flying creature is a mosquito.

It should be noted that, if the image of the flying creature is successfully matched with the preset mosquito image, the step S320 is executed; if the image of the flying creature is not matched with the preset mosquito image successfully, the step S318 is executed again.

Step S320: the air conditioner insect expelling device releases attractant and releases insecticide after a preset time.

In the specific implementation of step S320, after determining that the flying creature is a mosquito, the air-conditioning insect-repelling device is controlled to release the attractant and release the insecticide after a preset time.

Step S321: and detecting the concentration of the pesticide.

Step S322: and judging whether the concentration is greater than a preset concentration threshold value.

In the process of implementing step S322 specifically, comparing the detected concentration of the pesticide with a preset concentration threshold, determining whether the concentration of the pesticide is greater than the concentration threshold, and if the concentration of the pesticide is greater than the concentration threshold, executing step S323; if the concentration of the pesticide is less than or equal to the concentration threshold, the process returns to step S321 to continue monitoring the concentration of the pesticide.

Step S323: starting the air exchange function and maintaining the concentration of the insecticide in a preset range.

In the process of implementing step S323, if the concentration of the preset reagent is greater than the concentration threshold, the air conditioner is controlled to start the ventilation function until the detected concentration of the pesticide is less than or equal to the concentration threshold.

It should be noted that, the steps S301 to S323 may be periodically executed, and periodically detect whether there is a flying creature in the detection range of the air conditioner, and the cycle is implemented until the user turns off the mosquito repellent function of the current air conditioner through the air conditioner remote controller.

The execution principle of step S301 to step S323 can refer to the content in fig. 1 and fig. 2 in the above embodiment of the present invention, and will not be described again here.

Corresponding to the mosquito repelling method based on the air conditioner provided by the embodiment of the invention, referring to fig. 4, the embodiment of the invention also provides a structural block diagram of a mosquito repelling system based on the air conditioner, wherein the mosquito repelling system comprises: an acquisition unit 401, a first processing unit 402 and a second processing unit 403;

the acquisition unit 401 is configured to acquire physical sign data of a target user.

The first processing unit 402 is configured to collect sound frequencies in a first area where a target user is located when the target user is determined to be in a sleep state according to the sign data; if the sound frequency is within the preset sound frequency range, searching and positioning the flying creatures in all directions, and determining a second area where the flying creatures are located; when the flying creatures are determined to be mosquitoes, controlling the air conditioner to sweep wind to the second area; and determining the reduction rate of the body surface temperature of the target user and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the reduction rate.

In a specific implementation, the first processing unit 402 for controlling the air outlet angle and the air outlet temperature of the air conditioner is specifically configured to: determining a rate of decrease of a body surface temperature of a target user; judging whether the descending rate is higher than a preset rate or not; if so, controlling the air conditioner to keep the current air outlet angle and improve the air outlet temperature, and returning to the step of determining the reduction rate of the body surface temperature of the target user; if not, controlling the air conditioner to keep the current air outlet temperature and the current air outlet angle, and returning to the step of determining the reduction rate of the body surface temperature of the target user.

Preferably, the first processing unit 402 is further configured to: acquiring the real-time distance between a flying creature and a target user; and if the real-time distance is greater than the preset distance, controlling the air conditioner to recover the default air outlet angle and the default air outlet temperature.

The second processing unit 403 is configured to search for a flying creature in all directions under the condition that the target user is determined to be in the awake state according to the sign data; and when the flying organisms are determined to be mosquitoes, controlling the air conditioner to release the preset reagent, and controlling the concentration of the preset reagent by using the air conditioner.

In a specific implementation, the second processing unit 403 is specifically configured to: controlling the air conditioner insect expelling device to release an attractant and release an insecticide after a preset time; monitoring whether the concentration of the pesticide is above a concentration threshold; and if the concentration of the insecticide is higher than the concentration threshold value, controlling the air conditioner to start the air exchange function until the concentration of the insecticide is less than or equal to the concentration threshold value.

In a specific implementation, the first processing unit 402 or the second processing unit 403 for determining that the flying creature is mosquito is specifically configured to: taking an image of a flying organism; matching the image of the flying organism with a preset mosquito image; and if the image of the flying organism is matched with the preset mosquito image, determining that the flying organism is the mosquito.

In summary, embodiments of the present invention provide an air conditioner-based mosquito repelling method and system, where when physical sign data of a target user is collected to determine that the target user is in a sleep state, and when it is determined that a sound frequency in a first area where the target user is located is within a preset sound frequency range, a flying creature is searched in all directions and located, and a second area where the flying creature is located is determined. And after determining that the flying creatures are mosquitoes, controlling the air conditioner to sweep air to the second area, judging the body surface temperature reduction rate of the target user, and controlling the air outlet angle and the air outlet temperature of the air conditioner according to the body surface temperature reduction rate. The method comprises the steps of collecting sign data of a target user, searching flying creatures in an all-around mode when the target user is determined to be in a waking state, controlling an air conditioner to release a preset reagent and controlling the concentration of the preset reagent after the flying creatures are determined to be mosquitoes. The mosquito is not required to be searched and repelled manually, the time spent on searching the mosquito is reduced, and the insect repelling efficiency is improved.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. The target user of ordinary skill in the art can understand and implement without creative effort.

Skilled users may further appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled target users may use different methods to implement the described functionality for each particular application, but such implementation should not be considered beyond the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An air conditioner-based mosquito repelling method is characterized by comprising the following steps:

collecting physical sign data of a target user;

2. The method of claim 1, wherein the determining a rate of decrease of the body surface temperature of the target user and controlling the outlet air angle and the outlet air temperature of the air conditioner accordingly comprises:

judging whether the descending rate is higher than a preset rate or not;

3. The method of claim 1, wherein after determining a rate of decrease of the body surface temperature of the target user and controlling the outlet air angle and the outlet air temperature of the air conditioner accordingly, further comprising:

4. The method of claim 1, wherein when the flying organism is determined to be mosquito, controlling an air conditioner to release a preset reagent and controlling a concentration of the preset reagent by using the air conditioner comprises:

5. The method of claim 1, wherein determining that the flying organism is a mosquito comprises:

capturing an image of the flying organism;

matching the image of the flying organism with a preset mosquito image;

6. The utility model provides a mosquito repellent system based on air conditioner which characterized in that, the system includes:

the acquisition unit is used for acquiring physical sign data of a target user;

7. The system of claim 6, wherein the first processing unit configured to control an air outlet angle and an air outlet temperature of the air conditioner is specifically configured to:

8. The system of claim 6, wherein the first processing unit is further configured to:

9. The system according to claim 6, wherein the second processing unit for controlling the air conditioner to release the predetermined agent is specifically configured to:

10. The system according to claim 6, characterized in that said first or second processing unit for determining that flying creatures are mosquitoes, is particularly configured to:

capturing an image of the flying organism;

matching the image of the flying organism with a preset mosquito image;