CN110848833A - Anion purifier interaction method and anion purifier - Google Patents

Abstract

The invention discloses an interaction method of an anion purifier and the anion purifier, which relate to the field of air purification and comprise the steps of obtaining voice input information of a target user; analyzing the voice input information, and judging whether the voice input information is a preset awakening language; if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction; continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information; the control system responds to the control instruction to execute the operation control of the negative ion purifier. The method comprises the steps of firstly analyzing the acquired voice input information, judging whether the voice input information is a preset awakening language, awakening a control system of the ion purifier if the voice input information is the preset awakening language, not needing manual awakening and bringing convenience to a user, then continuously acquiring the voice input information, generating a control instruction corresponding to the voice input information, and then responding to the control instruction by the control system to execute operation on the anion purifier, so that manual control is not needed, and the interaction is simple and convenient.

Description

Anion purifier interaction method and anion purifier

Technical Field

The invention relates to air purification, in particular to an interaction method of an anion purifier and the anion purifier.

Background

At present, the plasma purification technology is basically adopted on the consumable-free air purifier, and the principle is that ultrahigh direct-current voltage is loaded to an ion generator through a high-voltage power supply, so that air flowing through the ion generator is ionized, impurities in the air are electrified, and the impurities are adsorbed by a dust collecting plate with opposite voltage, so that the air is cleaned.

For example, chinese patent application No. 201410082378.0 discloses an anion purifier, which includes: turbofan, motor, circuit board, dryer and anion generator. Wherein, the negative ion generator is divided into an air duct at the upper middle part and a functional part at the lower part; the air outlet is provided with an ozone removing net; the shell of the functional part is internally provided with an anion generator, an air collector, a motor, a turbine fan, a circuit board, an air inlet, an air detector and a bottom shaking head system from top to bottom; balls or bearings are arranged between the turbine fan and the fixed wall; the circuit board is respectively connected with the air detector, the motor, the remote control key control panel and the head shaking system through wires. Through the optimal design, the turbine fan is used for multiplying the air to generate strong wind to blow to the head of the negative ion generator, and a large amount of negative ions are generated to purify the air.

Although the ion purifier has good air purification, when the ion purifier is used, the purifier still needs to be directly controlled and operated by manpower nearby the purifier, which is not in line with the development trend of modern household appliance intellectualization and has improved space.

Disclosure of Invention

Aiming at the defects in the prior art, the first purpose of the invention is to provide an interaction method of an anion purifier, which has the advantages of simple, convenient and friendly interaction.

In order to achieve the purpose, the invention provides the following technical scheme:

an interaction method of an anion purifier comprises

Acquiring voice input information of a target user at equipment;

analyzing the voice input information, and judging whether the voice input information is a preset awakening language;

if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction;

continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information;

the control system responds to the control instruction to execute the operation control of the negative ion purifier.

By adopting the technical scheme, when the anion purifier is in a standby state, after the voice input information of a target user is acquired, the acquired voice input information is firstly analyzed, whether the voice input information is a preset awakening language is judged, if the voice input information is the preset awakening language, the control system of the anion purifier is awakened, manual awakening is not needed, convenience is brought to a user, then the voice input information is continuously acquired, the voice input information is analyzed, a control instruction corresponding to the voice input information is generated, then the control system responds to the control instruction to execute the operation of the anion purifier, manual control is not needed, and the interaction is simple and convenient.

Further, after the voice input information is analyzed, a feedback voice library is inquired, and the corresponding answer words are matched for sound production feedback.

By adopting the technical scheme, after the voice input information is analyzed, the answer language suitable for the voice input information is determined by inquiring the voice library, and then the answer language is fed back to the target user through the voice production, so that the feedback result can be known by the user, and the interaction friendliness is further improved.

Further, the control instruction comprises a control object and control content.

By adopting the technical scheme, the control command comprises the control object and the control content, so that the control system can distinguish and control which equipment and finish which operation.

And further, the method also comprises communication connection with other electronic equipment, and when the control object of the control instruction is other electronic equipment, the control instruction sent to the object is transmitted to carry out operation control.

By adopting the technical scheme, the control method and the control device are in communication connection with other electronic equipment, and when the voice input information is acquired and the control object contained in the voice input information is other equipment, the control content is sent to the other equipment to realize control, so that friendly interactive control is expanded to the other electronic equipment, and wide support is realized.

Aiming at the defects in the prior art, the second purpose of the invention is to provide the negative ion purifier which has the advantages of simple interaction, convenience and friendliness.

In order to achieve the purpose, the invention provides the following technical scheme:

an anion purifier comprising a processor and a memory, the memory storing a set of instructions for the processor to call to:

acquiring voice input information of a target user;

analyzing the voice input information, and judging whether the voice input information is a preset awakening language;

if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction;

continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information;

the control system responds to the control instruction to execute the operation control of the negative ion purifier.

By adopting the technical scheme, when the anion purifier is in a standby state, after the voice input information of a target user is acquired, the acquired voice input information is firstly analyzed, whether the voice input information is a preset awakening language is judged, if the voice input information is the preset awakening language, the control system of the anion purifier is awakened, manual awakening is not needed, convenience is brought to a user, then the voice input information is continuously acquired, the voice input information is analyzed, a control instruction corresponding to the voice input information is generated, then the control system responds to the control instruction to execute the operation of the anion purifier, manual control is not needed, and the interaction is simple and convenient.

Further, the set of instructions also includes instructions for the processor to call to implement:

after the voice input information is analyzed, a feedback voice library is inquired, and the corresponding response words are matched for sound production feedback.

By adopting the technical scheme, after the voice input information is analyzed, the answer language suitable for the voice input information is determined by inquiring the voice library, and then the answer language is fed back to the target user through the voice production, so that the feedback result can be known by the user, and the interaction friendliness is further improved.

Further, the set of instructions also includes instructions for the processor to call to implement:

the control instruction comprises a control object and control content.

By adopting the technical scheme, the control command comprises the control object and the control content, so that the control system can distinguish and control which equipment and finish which operation.

Further, the set of instructions also includes instructions for the processor to call to implement:

and when the control object of the control command is the other electronic equipment, the control command sent to the object is transmitted to carry out operation control.

By adopting the technical scheme, the control method and the control device are in communication connection with other electronic equipment, and when the voice input information is acquired and the control object contained in the voice input information is other equipment, the control content is sent to the other equipment to realize control, so that friendly interactive control is expanded to the other electronic equipment, and wide support is realized.

In conclusion, the invention has the following beneficial effects:

1. when the anion purifier is in a standby state, after voice input information of a target user is acquired, the acquired voice input information is firstly analyzed, whether the voice input information is a preset awakening language or not is judged, if yes, the anion purifier is awakened to a control system of the anion purifier, manual awakening is not needed, and convenience is brought to a user;

2. the voice input information is continuously acquired and analyzed to generate a control instruction corresponding to the voice input information, and then the control system responds to the control instruction to execute the operation of the negative ion purifier, so that manual control is not needed, and the interaction is simple and convenient;

3. and when the voice input information is acquired and the control object contained in the voice input information is other equipment, the control content is sent to the other equipment to realize control, so that friendly interactive control is expanded to the other electronic equipment, and wide support is realized.

Drawings

FIG. 1 is a schematic flow diagram of an interaction method of an anion purifier in the invention;

FIG. 2 is a schematic view of the anion purifier of the present invention.

In the figure: 1. a processor; 2. a memory.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Example 1

An interaction method of an anion purifier, referring to fig. 1, includes steps S101 to S105.

Step S101: and acquiring voice input information of a target user in a standby state.

The target user is typically a human user who uses the negative ion cleaner, and the voice input information refers to voice information uttered by the human user, dialogue information for the negative ion cleaner or other electronic devices, such as "hi, xiao yi", "turn on cleaning", "increase air volume", and the like, voice information for the negative ion cleaner itself, and "turn on air conditioning", "turn up television volume", and the like, voice information for other electronic devices. The voice input information can be acquired by a voice pickup module, namely a high-fidelity microphone.

Step S102: and analyzing the voice input information and judging whether the voice input information is a preset awakening language.

The voice input information is analyzed by the decoding chip, and it is determined whether the voice input information is a wake-up word such as "hi, xiao", or "hello, xiao". The awakening words are sign words which are converted from a standby state to a working state of the anion purifier.

Step S103: if the voice input information is a wake-up word, the anion purifier control system is awakened and starts to interact.

If the voice input information is the awakening words of the anion purifier after comparison, the anion purifier is awakened to enter a working state, and the anion purifier control system is awakened to start interaction with a target user.

Step S104: and continuously analyzing the voice input information acquired next, and generating a control command corresponding to the voice input information.

And then, continuously acquiring the next voice input information, analyzing the voice input information and generating a control instruction corresponding to the voice input information, wherein the control instruction comprises a control object and control content. The control objects are the negative ion purifier itself, and other electronic devices communicating with the ion purifier, such as through bluetooth communication, or network connection devices under the same gateway. The control content includes on, off, and operation adjustments to the electronic device.

Step S105: the control system responds to the control instruction to execute the operation control of the negative ion purifier.

After the control system decomposes the control instruction according to the control object and the control content, the control system respectively controls the corresponding objects to complete operation control, thereby reducing manual operation and improving the convenience and the friendliness of interaction.

After the voice input information is analyzed, a feedback voice library is inquired, and the corresponding response words are matched for sound production feedback.

After the voice input information is analyzed, the response language suitable for the voice input information is determined by inquiring the voice library, and then the response language is fed back to the target user through the voice production, so that the user can know the feedback result, and the interaction friendliness is further improved.

And when the control object of the control command is the other electronic equipment, the control command sent to the object is transmitted to carry out operation control. And when the voice input information is acquired and the control object contained in the voice input information is other equipment, the control content is sent to the other equipment to realize control, so that friendly interactive control is expanded to the other electronic equipment, and wide support is realized.

Example 2

An anion purifier, referring to fig. 2, comprises a processor and a memory, wherein the memory stores an instruction set for the processor to call to realize the following functions:

acquiring voice input information of a target user;

analyzing the voice input information, and judging whether the voice input information is a preset awakening language;

if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction;

continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information;

the control system responds to the control instruction to execute the operation control of the negative ion purifier.

After the voice input information is analyzed, a feedback voice library is inquired, and the corresponding response words are matched for sound production feedback.

The control instruction comprises a control object and control content.

And when the control object of the control command is the other electronic equipment, the control command sent to the object is transmitted to carry out operation control.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. An interaction method of an anion purifier is characterized in that: comprises that

Acquiring voice input information of a target user;

analyzing the voice input information, and judging whether the voice input information is a preset awakening language;

if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction;

continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information;

the control system responds to the control instruction to execute the operation control of the negative ion purifier.

2. The negative ion purifier interaction method of claim 1, wherein: after the voice input information is analyzed, a feedback voice library is inquired, and the corresponding answer words are matched for sound production feedback.

3. The negative ion purifier interaction method of claim 1, wherein: the control instruction comprises a control object and control content.

4. The negative ion purifier interaction method of claim 3, wherein: the method also comprises the step of being in communication connection with other electronic equipment, and transmitting the control instruction sent to the object to perform operation control when the control object of the control instruction is other electronic equipment.

5. An anion clarifier which characterized in that: the system comprises a processor and a memory, wherein the memory stores an instruction set for the processor to call so as to realize the following functions:

acquiring voice input information of a target user;

analyzing the voice input information, and judging whether the voice input information is a preset awakening language;

if the voice input information is a wake-up word, waking up the anion purifier control system and starting interaction;

continuously analyzing the voice input information acquired next, and generating a control instruction corresponding to the voice input information;

the control system responds to the control instruction to execute the operation control of the negative ion purifier.

6. The negative ion cleaner of claim 5, wherein: the set of instructions further includes instructions for the processor to call to implement:

after the voice input information is analyzed, a feedback voice library is inquired, and the corresponding response words are matched for sound production feedback.

7. The negative ion cleaner of claim 5, wherein: the set of instructions further includes instructions for the processor to call to implement:

the control instruction comprises a control object and control content.

8. The negative ion cleaner of claim 7, wherein: the set of instructions further includes instructions for the processor to call to implement:

and when the control object of the control command is the other electronic equipment, the control command sent to the object is transmitted to carry out operation control.

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