CN111271842A - Indoor air purification control method, device and system and mobile terminal - Google Patents

Abstract

The invention discloses an indoor air purification control method, device and system and a mobile terminal, wherein the method comprises the following steps: establishing a communication connection with a remote air purification device; receiving a mode selection signal from a user; analyzing the mode selection signal, and judging whether the mode selection signal is a disinfection mode selection signal; if the mode selection signal is a disinfection mode selection signal, generating a living body detection control signal and sending the living body detection control signal to a remote air purification device, wherein the air purification device is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal and returning a detection result; receiving a detection result sent by a remote air purification device, generating prompt information according to the detection result, and pushing and displaying the prompt information; and when the detection result indicates that no living body exists in the space to be detected, detecting whether no living body confirmation information is received, and if so, generating a disinfection control signal according to the no living body confirmation information and sending the disinfection control signal to the air purification device.

Description

Indoor air purification control method, device and system and mobile terminal

Technical Field

The invention relates to the field of air purification control, in particular to an indoor air purification control method, device and system and a mobile terminal.

Background

Indoor air purification products on the market at present are generally divided into two types, one type is to filter particulate matters in air by adopting a filtering mode; the other is to generate ozone and negative ions to purify air. A lot of current air purification devices possess the disinfection function, but the gaseous disinfection probably causes certain injury to the human body, and the security is poor.

Disclosure of Invention

The invention provides an indoor air purification control method, device and system and a mobile terminal, and aims to solve the problem that an existing ozone and negative ion purification device is poor in safety.

An indoor air purification control method, comprising:

establishing a communication connection with a remote air purification device;

receiving a mode selection signal from a user;

analyzing the mode selection signal, and judging whether the mode selection signal is a disinfection mode selection signal;

if the mode selection signal is a disinfection mode selection signal, generating a living body detection control signal and sending the living body detection control signal to a remote air purification device, wherein the air purification device is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal and returning a detection result;

receiving a detection result sent by a remote air purification device, generating prompt information according to the detection result, and pushing and displaying the prompt information;

and when the detection result indicates that no living body exists in the space to be detected, detecting whether no living body confirmation information is received, and if so, generating a disinfection control signal according to the no living body confirmation information and sending the disinfection control signal to the air purification device.

Further, generating a prompt message according to the detection result and pushing and displaying the prompt message, including:

and if the detection result shows that the living body exists in the space to be disinfected, generating living body alarm prompt information and pushing and displaying the information.

Further, generating a prompt message according to the detection result and pushing and displaying the prompt message, including:

and if the detection result indicates that no living body exists in the space to be disinfected, generating no-living-body prompt information and pushing and displaying the no-living-body prompt information.

An indoor air purification control device comprising:

the communication module is used for establishing communication connection with the remote air purification device;

a receiving module for receiving a mode selection signal from a user;

the analysis module is used for analyzing the mode selection signal and judging whether the mode selection signal is a disinfection mode selection signal;

the detection module is used for generating a living body detection control signal and sending the living body detection control signal to the remote air purification device when the mode selection signal is a disinfection mode selection signal, and the air purification device is used for detecting whether a living body exists in a space to be disinfected according to the living body detection control signal and returning a detection result;

the prompting module is used for receiving a detection result sent by the remote air purification device, generating prompting information according to the detection result and pushing and displaying the prompting information;

and the confirming module is used for detecting whether no-living body confirming information is received or not when the detection result indicates that no living body exists in the space to be detected, and if so, generating a disinfection control signal according to the no-living body confirming information and sending the disinfection control signal to the air purification device.

A mobile terminal comprises a processor and a storage device, wherein the processor is connected with the storage device, the storage device stores a plurality of instructions, and the processor is used for reading the instructions and executing the indoor air purification control method.

An indoor air purification control system comprises the mobile terminal and an air purification device;

the air purification device is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal, returning a detection result and executing disinfection operation according to the disinfection control signal.

Further, the air purification device comprises a wireless communication module, a controller, a frequency conversion module, a living body detection device and an ozone generation device, wherein the controller is connected with the frequency conversion module, the living body detection device and the wireless communication module, and the frequency conversion module is connected with the ozone generation device;

the wireless communication module is used for receiving the living body detection control signal and sending the living body detection control signal to the controller, and the controller is used for controlling the living body detection device to detect whether a living body exists in a space to be disinfected according to the living body detection control signal and sending a detection result to the mobile terminal through the wireless communication module;

the wireless communication module is further used for receiving the disinfection control signal and sending the disinfection control signal to the controller, and the controller is further used for controlling the frequency conversion module to drive the ozone generation device to release ozone according to the disinfection control signal and to stop after the disinfection control signal lasts for a first preset time.

Further, the living body detecting device is an infrared detector.

Further, the air purification device further comprises a negative ion generation device, and the negative ion generation device is connected with the controller;

the controller is also used for controlling the negative ion generating device to release negative ions through the frequency conversion module.

Further, the ozone generating device and the negative ion generating device are designed in an integrated manner.

The indoor air purification control method, the indoor air purification control device, the indoor air purification control system and the mobile terminal at least have the following beneficial effects:

(1) before the disinfection mode is executed, whether living bodies exist in the space to be disinfected is detected, and the disinfection mode is started under the condition that no living bodies exist, so that the safety of personnel and animals is ensured;

(2) whether living bodies exist in a space to be disinfected or not can be detected before the disinfection mode is executed, the detection result is fed back, the use safety of the disinfection mode is improved, in addition, the ozone generating device and/or the negative ion generating device can be controlled to work according to a preset mode according to a remote control signal, multiple modes can be selected, resources are saved to a certain extent, the device is suitable for different scenes, the applicability is high, and the purification effect is good; and can carry out remote operation, the convenience is high.

Drawings

Fig. 1 is a flowchart illustrating an indoor air purification control method according to an embodiment of the present invention.

Fig. 2 is a flowchart of an embodiment of an indoor air purification control apparatus according to the present invention.

Fig. 3 is a schematic structural diagram of an embodiment of a mobile terminal provided in the present invention.

Fig. 4 is a schematic structural diagram of an embodiment of an indoor air purification control system according to the present invention.

Detailed description of the preferred embodiments

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example one

Referring to fig. 1, the present embodiment provides an indoor air purification control method, including:

step S101, establishing communication connection with a remote air purification device;

step S102, receiving a mode selection signal from a user;

step S103, analyzing the mode selection signal, and judging whether the mode selection signal is a disinfection mode selection signal;

step S104, if the mode selection signal is a disinfection mode selection signal, generating a living body detection control signal and sending the living body detection control signal to a remote air purification device, wherein the air purification device is used for detecting whether a living body exists in a space to be disinfected according to the living body detection control signal and returning a detection result;

step S105, receiving a detection result sent by the remote air purification device, generating prompt information according to the detection result, and pushing and displaying the prompt information;

and S106, when the detection result indicates that no living body exists in the space to be detected, detecting whether no living body confirmation information is received, and if so, generating a disinfection control signal according to the no living body confirmation information and sending the disinfection control signal to the air purification device.

Specifically, step S101 is executed to establish a communication connection with a remote air purification device, specifically, a communication connection with a remote air purification device can be established through Wi-Fi or bluetooth.

Step S202 is executed to receive a mode selection signal from the user, and as a preferred embodiment, the user may send the mode selection signal by clicking the relevant icon.

Further, step S103 is executed to receive a mode selection signal from the user and analyze the mode selection signal.

The mode selection signal may be one of a sterilization mode selection signal, a first mode selection signal, a second mode selection signal, a third mode selection signal, a fourth mode selection signal, and a sleep mode selection signal.

And if the mode selection signal is a first mode selection signal, generating a first mode control signal according to the first mode selection signal and sending the first mode control signal to the remote air purification device, wherein the first mode control signal is used for controlling the remote air purification device to work in a first mode.

And if the mode selection signal is a second mode selection signal, generating a second mode control signal according to the second mode selection signal and sending the second mode control signal to the remote air purification device, wherein the second mode control signal is used for controlling the remote air purification device to work in a second mode.

And if the mode selection signal is a third mode selection signal, generating a third mode control signal according to the third mode selection signal and sending the third mode control signal to the remote air purification device, wherein the third mode control signal is used for controlling the remote air purification device to work in a third mode.

And if the mode selection signal is a fourth mode selection signal, generating a fourth mode control signal according to the fourth mode selection signal and sending the fourth mode control signal to the remote air purification device, wherein the fourth mode control signal is used for controlling the remote air purification device to work in a fourth mode.

And if the mode selection signal is a sleep mode selection signal, generating a sleep mode control signal according to the sleep mode selection signal and sending the sleep mode control signal to the remote air purification device, wherein the sleep mode control signal is used for controlling the remote air purification device to work in a sleep mode.

Further, step S104 is executed, if the mode selection signal is a disinfection mode selection signal, a living body detection control signal is generated and sent to a remote air purification device, the air purification device is configured to detect whether a living body exists in the space to be disinfected according to the living body detection control signal and return a detection result, if no living body exists in the space to be detected, a detection result without a living body is returned, and if a living body exists in the space to be detected, a detection result with a living body is returned.

The living body in this embodiment includes a human, an animal, and the like.

Further, step S105 is executed to receive a detection result sent by the remote air purification device, generate a prompt message according to the detection result, and push and display the prompt message.

And if the detection result shows that the living body exists in the space to be disinfected, generating living body alarm prompt information and pushing and displaying the information. For example, the living body alarm prompt message may be a dialog box: "there is human or animal staying in the disinfection space, which is not suitable for disinfection mode", when the living body is detected, the disinfection operation cannot be performed.

And if the detection result indicates that no living body exists in the space to be disinfected, generating no-living-body prompt information and pushing and displaying the no-living-body prompt information. For example, the no-living body prompt message may be a dialog box, on which a corresponding confirmation icon is set, and after the user determines again that the room to be disinfected has no living bodies (including people and animals), the user clicks the confirmation icon to send the no-living body prompt message.

Further, step S106, when the detection result indicates that there is no living body in the space to be detected, detecting whether there is no living body confirmation information received, if so, generating a disinfection control signal according to the no living body confirmation information and sending the disinfection control signal to the air purification device, and the air purification device operates in a disinfection mode according to the disinfection control device.

In a preferred embodiment, in the disinfection mode, the air purification device releases ozone and stops after a first preset time.

Wherein the first preset time period is preferably 60 minutes, and the ozone releasing rate is 200 mg/h.

Under the disinfection mode, ozone concentration is higher, before opening the disinfection mode, confirms again with the user whether have the live body in the space of treating the disinfection, confirms after not having the live body, opens the disinfection mode again, ensures safety.

According to the indoor air purification control method provided by the embodiment, before the disinfection mode is executed, whether living bodies exist in the space to be disinfected is detected, the disinfection mode is started again under the condition that no living bodies exist, and the safety of personnel and animals is guaranteed.

Example two

Referring to fig. 2, the present embodiment provides an indoor air purification control apparatus, including:

a communication module 201 for establishing a communication connection with a remote air purification device;

a receiving module 202, configured to receive a mode selection signal from a user;

the analysis module 203 is used for analyzing the mode selection signal and judging whether the mode selection signal is a disinfection mode selection signal;

the detection module 204 is configured to generate a living body detection control signal and send the living body detection control signal to a remote air purification device when the mode selection signal is a disinfection mode selection signal, and the air purification device is configured to detect whether a living body exists in a space to be disinfected according to the living body detection control signal and return a detection result;

the prompting module 205 is configured to receive a detection result sent by the remote air purification device, generate prompting information according to the detection result, and push and display the prompting information;

and the confirming module 206 is configured to detect whether no-living-body confirmation information is received or not when the detection result indicates that no living body exists in the space to be detected, and if so, generate a disinfection control signal according to the no-living-body confirmation information and send the disinfection control signal to the air purification device.

Specifically, the communication module 201 may be a Wi-Fi module or a bluetooth module.

The analysis module 203 analyzes the mode selection signal, which may be one of a disinfection mode selection signal, a first mode selection signal, a second mode selection signal, a third mode selection signal, a fourth mode selection signal, and a sleep mode selection signal.

The detection result received by the prompt module 205 includes the presence or absence of living bodies in the space to be disinfected. And if the detection result shows that the living body exists in the space to be disinfected, generating living body alarm prompt information and pushing and displaying the information. For example, the living body alarm prompt message may be a dialog box: "there is human or animal staying in the disinfection space, which is not suitable for disinfection mode", when the living body is detected, the disinfection operation cannot be performed. And if the detection result indicates that no living body exists in the space to be disinfected, generating no-living-body prompt information and pushing and displaying the no-living-body prompt information. For example, the no-living body prompt message may be a dialog box, on which a corresponding confirmation icon is set, and after the user determines again that the room to be disinfected has no living bodies (including people and animals), the user clicks the confirmation icon to send the no-living body prompt message.

The indoor air purification controlling means that this embodiment provided detects before carrying out the disinfection mode whether there is the live body in waiting to disinfect the space, confirms to have reopens the disinfection mode under the condition of live body, guarantees personnel and animal's safety.

EXAMPLE III

Referring to fig. 3, the present embodiment provides a mobile terminal, which includes a processor 301 and a storage device 302, wherein the processor 301 is connected to the storage device 302, the storage device 302 stores a plurality of instructions, and the processor 301 is configured to read the instructions and execute the indoor air purification control method.

Specifically, the mobile terminal described in this embodiment may be a mobile phone, a tablet computer, and the like.

Example four

Referring to fig. 4, the present embodiment provides an indoor air purification control system, including the above-mentioned mobile terminal 401, further including an air purification device 402;

the air cleaning device 402 is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal, returning the detection result and executing the disinfection operation according to the disinfection control signal.

Further, the air purification device 402 comprises a wireless communication module 4021, a controller 4022, a frequency conversion module 4023, a living body detection device 4024 and an ozone generation device 4025, the controller 4022 is connected with the frequency conversion module 4023, the living body detection device 4024 and the wireless communication module 4021, and the frequency conversion module 4023 is connected with the ozone generation device 4025;

the wireless communication module 4021 is used for receiving a living body detection control signal and sending the living body detection control signal to the controller 4022, and the controller 4022 is used for controlling the living body detection device 4024 to detect whether a living body exists in a space to be disinfected according to the living body detection control signal and sending a detection result to the mobile terminal through the wireless communication module 4021;

the wireless communication module 4021 is further configured to receive a disinfection control signal and send the disinfection control signal to the controller 4022, and the controller 4022 is further configured to control the frequency conversion module 4023 to drive the ozone generation device 4025 to release ozone according to the disinfection control signal, and stop after the first preset duration.

Wherein the first preset time period is preferably 60 minutes, and the ozone releasing rate is 200 mg/h.

Further, the living body detecting device 4024 is an infrared detector.

Further, the air purification device provided by this embodiment further includes a negative ion generating device 4026, and the negative ion generating device 4026 is connected to the controller 4022;

the controller 4022 is further configured to control the negative ion generator 4025 to release negative ions through the frequency conversion module 4023.

Further, the ozone generator 4025 and the negative ion generator 4026 are integrally designed.

Further, the wireless communication module 4021 is further configured to receive a first mode control signal, a second mode control signal, a third mode control signal, a fourth mode control signal, and a sleep mode control signal sent by the mobile terminal, and the controller 4022 controls the operation of the ozone generator 4025 and/or the negative ion generator 4026 according to the first mode control signal, the second mode control signal, the third mode control signal, the fourth mode control signal, and the sleep mode control signal, so that the ozone generator operates in the first mode, the second mode, the third mode, the fourth mode, and the sleep mode.

In the first mode, the ozone generating device releases ozone and stops after lasting for a second preset time, the negative ion generating device releases negative ions and stops after lasting for a third preset time, and circulation is performed after a fourth preset time interval; alternatively, the first and second electrodes may be,

the ozone generating device and the negative ion generating device work simultaneously initially, the ozone generating device releases ozone, the negative ion generating device releases negative ions simultaneously, the ozone generating device releases ozone for a second preset time and then stops, the negative ion generating device releases negative ions and continues for a third preset time and then stops, and circulation is carried out after a fourth preset time is respectively spaced.

In a preferred embodiment, the second predetermined period is 20 minutes, the third predetermined period is 60 minutes, and the fourth predetermined period is 240 minutes.

In the first mode, the ozone generating device stops after releasing ozone for 20 minutes, the negative ion generating device immediately releases negative ions for 60 minutes, and then circulation is performed after 240 minutes, so that the ozone generating device and the negative ion generating device work separately, the circulation time is prolonged, and the service lives of all parts can be effectively prolonged. In addition, the ozone generating device and the negative ion generating device can work simultaneously initially, the ozone generating device releases ozone for 20 minutes and then stops, the ozone generating device circulates after 240 minutes, the negative ion generating device releases negative ions for 60 minutes and then circulates after 240 minutes, and the mode that the ozone generating device and the negative ion generating device work simultaneously initially is adopted, so that the circulation time is shorter, and the purification effect is better. The first mode may be configured according to actual requirements.

In the first mode, the ozone generating device releases ozone at a rate of 50mg/h, and the negative ion generating device releases negative ions at a release rate of 800 ten thousand/cm³The frequency conversion module can be controlled to control the ozone generating device and the negative ion generating device to be turned on and off, and the rate of ozone released by the ozone generating device and the release amount of negative ions released by the negative ion generating device.

The first mode is suitable for the space with the area smaller than 10 square meters, and the first preset mode is adopted for the space smaller than 10 square meters, so that the energy is saved, and meanwhile, a better purification effect is achieved.

In the second mode, the ozone generating device releases ozone and stops after lasting for a fifth preset time, then the negative ion generating device releases negative ions and stops after lasting for a sixth preset time, and circulation is carried out after a seventh preset time interval; alternatively, the first and second electrodes may be,

the ozone generating device and the negative ion generating device work simultaneously initially, the ozone generating device releases ozone, the negative ion generating device releases negative ions simultaneously, the ozone generating device releases ozone for a fifth preset time and then stops, the negative ion generating device releases negative ions and continues for a sixth preset time and then stops, and circulation is carried out after the interval of the seventh preset time.

In a preferred embodiment, the fifth preset time period is 30 minutes, the sixth preset time period is 60 minutes, and the seventh preset time period is 180 minutes.

In the second mode, the ozone generating device stops after releasing ozone for 30 minutes, the negative ion generating device immediately releases negative ions for 60 minutes, and then circulation is carried out after 180 minutes, the ozone generating device and the negative ion generating device work separately, the circulation time is prolonged, and the service life of each component can be effectively prolonged. In addition, the ozone generating device and the negative ion generating device can work simultaneously initially, the ozone generating device releases ozone for 30 minutes and then stops, the ozone generating device circulates after 180 minutes, the negative ion generating device releases negative ions for 60 minutes and then circulates after 180 minutes, and the mode that the ozone generating device and the negative ion generating device work simultaneously initially is adopted, so that the circulation time is shorter, and the purification effect is better. The second mode may be configured according to actual requirements.

In the second mode, the ozone generating device releases ozone at a rate of 80mg/h, and the negative ion generating device releases negative ions at a release rate of 800 ten thousand/cm³The frequency conversion module can be controlled to control the ozone generating device and the negative ion generating device to be turned on and off, and the rate of ozone released by the ozone generating device and the release amount of negative ions released by the negative ion generating device.

The second mode is suitable for the space with the area more than or equal to 10 square meters and less than 20 square meters, and the second mode is adopted for the space within the range, so that the energy is saved, and meanwhile, a better purification effect is achieved.

In the third mode, the ozone generating device releases ozone and stops after lasting for an eighth preset time, the negative ion generating device releases negative ions and stops after lasting for a ninth preset time, and circulation is performed after a tenth preset time interval; alternatively, the first and second electrodes may be,

the ozone generating device and the negative ion generating device work simultaneously initially, the ozone generating device releases ozone, the negative ion generating device releases negative ions simultaneously, the ozone generating device releases ozone for the eighth preset time and then stops, the negative ion generating device releases negative ions and continues for the ninth preset time and then stops, and circulation is carried out after the tenth preset time is respectively spaced.

In a preferred embodiment, the eighth preset time period is 60 minutes, the ninth preset time period is 60 minutes, and the tenth preset time period is 120 minutes.

In the third mode, the ozone generating device stops after releasing ozone for 60 minutes, the negative ion generating device immediately releases negative ions for 60 minutes, and then circulation is carried out after 120 minutes, so that the ozone generating device and the negative ion generating device work separately, the circulation time is prolonged, and the service life of each part can be effectively prolonged. In addition, the ozone generating device and the negative ion generating device can work simultaneously initially, the ozone generating device stops after releasing ozone for 60 minutes, the ozone generating device circulates after 120 minutes, the negative ion generating device releases negative ions for 60 minutes and then circulates after 120 minutes, and the mode that the ozone generating device and the negative ion generating device work simultaneously initially is adopted, so that the circulation time is shorter, and the purification effect is better. The third mode may be configured according to actual requirements.

In the third mode, the ozone generating device releases ozone at a rate of 100mg/h, and the negative ion generating device releases negative ions at a release rate of 800 ten thousand/cm³The frequency conversion module can be controlled to control the ozone generating device and the negative ion generating device to be turned on and off, and the rate of ozone released by the ozone generating device and the release amount of negative ions released by the negative ion generating device.

The third mode is suitable for the space with the area more than or equal to 20 square meters and less than 30 square meters, and the third mode is adopted for the space within the range, so that the energy is saved, and meanwhile, a better purification effect is achieved.

In the fourth mode, the ozone generating device releases ozone and stops after lasting for an eleventh preset time, the negative ion generating device releases negative ions and stops after lasting for a twelfth preset time, and circulation is performed after a thirteenth preset time interval; alternatively, the first and second electrodes may be,

the ozone generating device and the negative ion generating device work simultaneously initially, the ozone generating device releases ozone, the negative ion generating device releases negative ions simultaneously, the ozone generating device releases ozone for the eleventh preset time and stops, the negative ion generating device releases negative ions for the twelfth preset time and stops, and circulation is carried out after the thirteenth preset time is respectively spaced.

In a preferred embodiment, the eleventh preset time period is 20 minutes, the twelfth preset time period is 20 minutes, and the thirteenth preset time period is 60 minutes.

In the fourth mode, the ozone generating device stops after releasing ozone for 20 minutes, the negative ion generating device immediately releases negative ions for 20 minutes, and then circulation is carried out after 60 minutes, so that the ozone generating device and the negative ion generating device work separately, the circulation time is prolonged, and the service lives of all parts can be effectively prolonged. In addition, the ozone generating device and the negative ion generating device can work simultaneously initially, the ozone generating device stops after releasing ozone for 20 minutes, the ozone generating device circulates after 60 minutes, the negative ion generating device releases negative ions for 20 minutes and then circulates after 60 minutes, and the mode that the ozone generating device and the negative ion generating device work simultaneously initially is adopted, so that the circulation time is shorter, and the purification effect is better. The fourth preset mode can be configured according to actual requirements.

In the fourth mode, the ozone generating device releases ozone at a rate of 80mg/h, and the negative ion generating device releases negative ions at a release rate of 800 ten thousand/cm³The frequency conversion module can be controlled to control the ozone generating device and the negative ion generating device to be turned on and off, and the rate of ozone released by the ozone generating device and the release amount of negative ions released by the negative ion generating device.

The fourth mode is applicable to smoking rooms, pet houses, toilets and the like, and under the application scene, the floating dust and bacteria in the air are more, so that the ozone generating device and the negative ion generating device work alternately, the interval time is short, and a large amount of floating dust and bacteria in the air can be effectively purified.

And in the sleep mode, driving the negative ion generating device to release negative ions and stopping after lasting for a fourteenth preset time. In a preferred embodiment, the fourteenth preset time period is 12 hours, i.e. the negative ion generating device stops after continuously operating for 12 hours. The sustained-release negative ions can play the roles of calming and relaxing emotion, and are helpful for improving the sleep quality of the user. The release amount of the negative ions released by the negative ion generating device is 800 ten thousand/cm³The opening and closing of the negative ion generating device and the releasing amount of negative ions released by the negative ion generating device can be controlled by controlling the frequency conversion module.

The indoor air purification control system provided by the embodiment can detect whether a living body exists in a space to be disinfected before the disinfection mode is executed, and feeds back a detection result, so that the use safety of the disinfection mode is improved, in addition, the ozone generating device and/or the negative ion generating device can be controlled to work according to a preset mode according to a remote control signal, multiple modes can be selected, resources are saved to a certain extent, the indoor air purification control system is suitable for different scenes, the applicability is high, and the purification effect is good; and can carry out remote operation, the convenience is high.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An indoor air purification control method, characterized by comprising:

establishing a communication connection with a remote air purification device;

receiving a mode selection signal from a user;

analyzing the mode selection signal, and judging whether the mode selection signal is a disinfection mode selection signal;

if the mode selection signal is a disinfection mode selection signal, generating a living body detection control signal and sending the living body detection control signal to a remote air purification device, wherein the air purification device is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal and returning a detection result;

receiving a detection result sent by a remote air purification device, generating prompt information according to the detection result, and pushing and displaying the prompt information;

and when the detection result indicates that no living body exists in the space to be detected, detecting whether no living body confirmation information is received, and if so, generating a disinfection control signal according to the no living body confirmation information and sending the disinfection control signal to the air purification device.

2. The indoor air purification control method according to claim 1, wherein generating a prompt message and pushing the prompt message for display according to the detection result includes:

and if the detection result shows that the living body exists in the space to be disinfected, generating living body alarm prompt information and pushing and displaying the information.

3. The indoor air purification control method according to claim 1, wherein generating a prompt message and pushing the prompt message for display according to the detection result includes:

and if the detection result indicates that no living body exists in the space to be disinfected, generating no-living-body prompt information and pushing and displaying the no-living-body prompt information.

4. An indoor air purification control device, comprising:

the communication module is used for establishing communication connection with the remote air purification device;

a receiving module for receiving a mode selection signal from a user;

the analysis module is used for analyzing the mode selection signal and judging whether the mode selection signal is a disinfection mode selection signal;

the detection module is used for generating a living body detection control signal and sending the living body detection control signal to the remote air purification device when the mode selection signal is a disinfection mode selection signal, and the air purification device is used for detecting whether a living body exists in a space to be disinfected according to the living body detection control signal and returning a detection result;

the prompting module is used for receiving a detection result sent by the remote air purification device, generating prompting information according to the detection result and pushing and displaying the prompting information;

and the confirming module is used for detecting whether no-living body confirming information is received or not when the detection result indicates that no living body exists in the space to be detected, and if so, generating a disinfection control signal according to the no-living body confirming information and sending the disinfection control signal to the air purification device.

5. A mobile terminal, comprising a processor and a storage device, wherein the processor is connected to the storage device, the storage device stores a plurality of instructions, and the processor is configured to read the instructions and execute the indoor air purification control method according to any one of claims 1 to 3.

6. An indoor air purification control system comprising the mobile terminal according to claim 5, further comprising an air purification device;

the air purification device is used for detecting whether a living body exists in the space to be disinfected according to the living body detection control signal, returning a detection result and executing disinfection operation according to the disinfection control signal.

7. The indoor air purification control system according to claim 6, wherein the air purification device comprises a wireless communication module, a controller, a frequency conversion module, a living body detection device and an ozone generation device, the controller is connected with the frequency conversion module, the living body detection device and the wireless communication module, and the frequency conversion module is connected with the ozone generation device;

the wireless communication module is used for receiving the living body detection control signal and sending the living body detection control signal to the controller, and the controller is used for controlling the living body detection device to detect whether a living body exists in a space to be disinfected according to the living body detection control signal and sending a detection result to the mobile terminal through the wireless communication module;

the wireless communication module is further used for receiving the disinfection control signal and sending the disinfection control signal to the controller, and the controller is further used for controlling the frequency conversion module to drive the ozone generation device to release ozone according to the disinfection control signal and to stop after the disinfection control signal lasts for a first preset time.

8. An indoor air purification control system according to claim 6, wherein the living body detecting means is an infrared detector.

9. An indoor air purification control system according to claim 6, wherein the air purification apparatus further comprises a negative ion generation apparatus, the negative ion generation apparatus being connected to the controller;

the controller is also used for controlling the negative ion generating device to release negative ions through the frequency conversion module.

10. The indoor air purification control system according to claim 9, wherein the ozone generating device and the negative ion generating device are integrally designed.

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