CN114040312A - Microphone detection method and system of voice air conditioner - Google Patents

Abstract

An embodiment of the present specification provides a microphone detection method and system for a voice air conditioner, the method including: an intelligent module on the voice air conditioner operates a voice detection program after the voice air conditioner is powered on and before voice is initialized; the intelligent module performs voice initialization and sends the analysis result in the storage and the equipment identification corresponding to the voice air conditioner to a cloud platform for storage in a networking state; when receiving a microphone state query request sent by a first client, the cloud platform searches the corresponding analysis result according to the equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display. The method is beneficial to the investigation of the cause of the microphone identification problem and is beneficial to determining the real cause.

Description

Microphone detection method and system of voice air conditioner

Technical Field

One or more embodiments of the present disclosure relate to the field of microphone detection technologies, and in particular, to a microphone detection method and system for a voice air conditioner.

Background

Most of the existing voice air conditioners adopt a plurality of microphone arrays to pick up sound remotely and identify the sound, and once the microphone is damaged, the identification effect is greatly influenced. During the production and detection of the air conditioner, in the actual installation process, a transportation link exists, and the problems of microphone damage or poor contact and the like can be caused in the process, so that the actual experience of a user is reduced and corresponding problems occur. Meanwhile, since the speech recognition is related to various factors, such as noisy environment, accent problem, etc., it is unlikely that the microphone is damaged, and therefore it is very difficult for the after-sales personnel to find the problem.

Disclosure of Invention

One or more embodiments of the present specification describe a microphone detection method and system of a voice air conditioner.

According to a first aspect, there is provided a microphone detection method of a voice air conditioner, comprising:

an intelligent module on the voice air conditioner operates a voice detection program after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory;

the intelligent module performs voice initialization and sends the analysis result in the storage and the equipment identification corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

when receiving a microphone state query request sent by a first client, the cloud platform searches for the corresponding analysis result according to the equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display; and the role of the personnel corresponding to the first client is the after-sales personnel.

According to a second aspect, there is provided a microphone detection system of a voice air conditioner, comprising:

the intelligent module on the voice air conditioner is used for running a voice detection program after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory; the intelligent module is further configured to: performing voice initialization, and sending the analysis result in the storage and the equipment identifier corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

the cloud platform is used for searching the corresponding analysis result according to the equipment identifier carried in the microphone state query request when the microphone state query request sent by the first client is received, and sending the analysis result to the first client for displaying; and the role of the personnel corresponding to the first client is the after-sales personnel.

According to the microphone detection method and system for the voice air conditioner, the intelligent module on the voice air conditioner runs the voice detection program after the voice air conditioner is powered on and before voice is initialized, the voice detection program controls the microphone array on the voice air conditioner to record voice, effectiveness analysis is conducted on the microphone array according to recording data, and an analysis result is stored in the storage. And then, the intelligent module performs voice initialization, and sends the analysis result in the storage and the equipment identifier corresponding to the voice air conditioner to the cloud platform for storage in a networking state. When receiving a microphone state query request sent by a first client, the cloud platform searches for a corresponding analysis result according to an equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display. Therefore, after-sales personnel can inquire corresponding analysis results according to the voice air conditioner of a client, and further know whether the microphone array of the voice air conditioner really has quality problems, so that the cause of the microphone identification problem is checked, and the real cause is determined.

Drawings

In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present specification, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic flow chart illustrating a microphone detection method of a voice air conditioner according to an embodiment of the present disclosure;

FIG. 2 is a schematic flow chart illustrating a microphone detection method of a voice air conditioner according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of individual microphone channels in one embodiment of the present description;

fig. 4 is a schematic structural diagram of a voice air conditioner in one embodiment of the present specification.

Detailed Description

The scheme provided by the specification is described below with reference to the accompanying drawings.

In a first aspect, the present invention provides a microphone detection method for a voice air conditioner, as shown in fig. 1 to 3, the method includes the following steps:

s110, operating a voice detection program by an intelligent module on the voice air conditioner after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory;

it can be understood that after the voice air conditioner is powered on and before the voice is initialized, that is, before the voice module is initialized, the voice air conditioner is operated, after the voice is initialized, the voice air conditioner enters a use state, and at this time, the user can perform the voice control on the air conditioner, so that the voice detection program is operated before the voice is initialized.

The voice detection program has the functions of controlling the microphone array to record to obtain recording data, namely microphone data, and analyzing the recording data to know whether the microphone array is in an effective state or an invalid state, wherein if the microphone array is in the invalid state, the microphone array has problems and may need to be maintained. Regardless of the analysis results, they are stored in a memory.

S120, the intelligent module performs voice initialization and sends the analysis result in the storage and the equipment identification corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

it can be understood that after the voice detection program stores the analysis result in the memory, the work of the voice operation program is completed, the intelligent module can perform voice initialization, and then the voice air conditioner can enter a use state. Meanwhile, if the network is not connected in a networking state, the intelligent module initializes the network and connects the network. After networking, the intelligent module sends the analysis result stored in the storage and the corresponding equipment identification to the cloud platform for storage.

The equipment identification is the unique identification of the voice air conditioner, and the cloud platform can determine the unique voice air conditioner according to the equipment identification.

S130, when receiving a microphone state query request sent by a first client, the cloud platform searches the corresponding analysis result according to the equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display; and the role of the personnel corresponding to the first client is the after-sales personnel.

The role of the person corresponding to the first client is after-sales person, that is, the first client is a client of the after-sales person, but not a client of the client.

After an after-sales person sends a microphone state query request on a first client, the cloud platform receives the request, searches according to an equipment identifier carried in the request to obtain a corresponding analysis result, and sends the analysis result to the first client for display, so that the after-sales person can know whether a certain voice air conditioner really has a quality problem.

For example, after-sales personnel receive a plurality of fault warranty tickets of clients for voice recognition problems of voice air conditioners, the after-sales personnel can inquire corresponding analysis results for the voice air conditioners of each client, further know which microphone arrays of the voice air conditioners of the clients really have quality problems, and which voice recognition problems of the voice air conditioners of the clients are caused by other factors besides the quality problems, and if the quality problems are really the quality problems, the after-sales personnel can inform relevant maintenance personnel to carry out on-door maintenance.

That is to say, after-sales personnel can know whether the microphone array of the voice air conditioner really has the quality problem by inquiring the related analysis result, and maintenance personnel do not need to carry out on-door maintenance on all clients reporting the voice recognition problem, so that the workload of the maintenance personnel is reduced.

In specific implementation, the method provided by the invention can further comprise:

the intelligent module sends the IP address corresponding to the voice air conditioner to the cloud platform to be stored together with the corresponding analysis result and the equipment identification;

when receiving a failure microphone summarizing request sent by the first client, the cloud platform summarizes and counts the areas corresponding to the microphones with failure analysis results according to the IP addresses to obtain statistical data of the failure microphones in a plurality of areas, and sends the statistical data corresponding to the areas to the first client for displaying.

That is to say, when the intelligent module sends the analysis result and the device identifier to the cloud platform, the intelligent module may also send the corresponding bottom IP address to the cloud platform together for storage. After-sales personnel can perform summary information inquiry, for example, the after-sales personnel want to know the distribution situation of the dead microphones in each area of a certain city, and then distribute a corresponding number of maintenance personnel for each area. At the moment, after-sales personnel can send a failure microphone summarizing request to the cloud platform through the first client side of the cloud platform, when the cloud platform receives the request at the receiving end, the analysis result is screened out to be a microphone array failure result, then area division is carried out according to IP addresses of the results to obtain microphone array failure statistical data in different areas, and then the statistical data corresponding to the areas are sent to the first client side to be displayed. After-sales personnel can know the statistical data of the failure microphone arrays in each area, more maintenance personnel can be allocated to the area with larger statistical data, and less maintenance personnel can be allocated to the area with smaller statistical data.

In specific implementation, the method provided by the invention can further comprise:

when receiving a failure microphone summarizing request of a preset area sent by a first client, the cloud platform determines all IP addresses corresponding to the preset area, acquires analysis results corresponding to all the IP addresses, counts the analysis results of failure microphones in the acquired analysis results, obtains statistical data of the failure microphones in the preset area, and sends the statistical data corresponding to the preset area to the first client for displaying.

That is, after-sales personnel can inquire about the summary situation of the dead microphones in a certain area, specifically: after-sales personnel send a failure microphone summarizing request of a preset area to a cloud platform through a first client side of the after-sales personnel, after the cloud platform receives the request, the IP addresses corresponding to the preset area are determined, corresponding analysis results are obtained according to the IP addresses, the analysis results are summarized to obtain statistical data of failure microphones corresponding to the preset area, and the statistical data are sent to the first client side to be displayed, so that the after-sales personnel can know the conditions of the failure microphones in the preset area.

In specific implementation, the method provided by the invention can further comprise:

after the time length that the voice air conditioner is kept on exceeds the preset time length, the intelligent module controls the voice air conditioner to restart when the intelligent air conditioner is in an unused state so as to detect a microphone array on the voice air conditioner and update a corresponding analysis state on the cloud platform.

That is to say, the microphone detection may be performed after the air conditioner is powered on, or the voice air conditioner may be restarted according to a preset period, so that the microphone detection is performed according to the preset period. For example, in summer, the voice air conditioner may be turned on for a long time, if the continuous duration of the voice air conditioner being turned on exceeds a certain duration, if the voice air conditioner is not in a use state, that is, if a client instruction is not received to perform a certain mode of operation, the intelligent module is restarted, and after the intelligent module is restarted, the microphone detection process is performed, so that the microphone is periodically detected.

In an implementation, the analyzing the effectiveness of the microphone array according to the recording data may include: if data of at least one microphone channel is lost in the recording data, determining that the microphone array is invalid; the analysis result includes whether the microphone is invalid and the identification corresponding to the microphone channel of the lost data in the invalid microphone.

It will be appreciated that the microphone array has a plurality of microphone channels and that if one or more of the channel data is lost, the microphone array is deemed to be in a failed state and the analysis results may include an identification of the microphone channel that lost the data for servicing by a service person.

Further, in specific implementation, the method provided by the present invention may further include:

the first client sends a microphone state query request aiming at a voice air conditioner corresponding to a user to the cloud platform when receiving reported information of voice recognition faults submitted by the user;

if the microphone of the voice air conditioner corresponding to the user is determined to be in an effective state according to the analysis result sent by the cloud platform, notifying maintenance personnel not to carry out door-to-door maintenance or notifying the maintenance personnel to examine influence factors outside the microphone array; and if the microphone of the voice air conditioner corresponding to the user is determined to be in a failure state according to the analysis result sent by the cloud platform, notifying maintenance personnel to carry out door-to-door maintenance and notifying the maintenance personnel of the identifier of the microphone channel with the fault.

That is to say, when the first client of the after-sales person receives the fault report information submitted by the client, the first client queries the analysis result of the corresponding voice air conditioner from the cloud platform, and if the analysis result is in an effective state according to the analysis result, the first client can notify the maintenance person not to perform maintenance, and certainly, the first client can notify the maintenance person to perform maintenance to find other influencing factors instead of the microphone quality factor when performing maintenance. If the microphone array is in the invalid state according to the analysis result, the microphone array of the air conditioner is in the invalid state, and at the moment, maintenance personnel can be informed to go to the door for maintenance, and the maintenance personnel are informed of the identification of the microphone channel which is in the invalid state, so that the maintenance personnel can carry out targeted maintenance.

In specific implementation, the method provided by the invention can further comprise:

the intelligent module stores the recorded data and the analysis result into the memory together, and sends the recorded data, the analysis result and the equipment identification to the cloud platform together in a networking state;

if the first client receives information that the field inspection result fed back by the maintenance personnel is inconsistent with the analysis result, corresponding notification information is sent to the cloud platform;

and when receiving the notification information, the cloud platform analyzes the recording data to update the corresponding analysis result stored in the cloud platform and sends the updated analysis result to the first client.

That is to say, the intelligent module sends the recording data to the cloud platform together for storage when sending the analysis result and the device identifier to the cloud platform. After the maintenance personnel go to the door for maintenance, if the on-site maintenance result is inconsistent with the analysis result, the reminding information can be sent to the first client, and after the first client receives the reminding information, the corresponding notification information can be sent to the cloud platform. After the cloud platform receives the communication information, the cloud platform analyzes the recording data to obtain an analysis result, then updates the analysis result stored before by the analysis result, and sends the updated analysis result to the first client, so that after-sales personnel can know whether the analysis result of the recording data is changed again.

It is to be understood that the present invention relates to microphone arrays, smart modules, cloud platforms, after-market personnel clients, and the like. The invention provides two query modes, one is to query through the equipment identifier, and the equipment identifier is based on the voice air conditioner; one type of query for aggregated data for a region is based on the IP address of a voice air conditioner.

It can be understood that for the voice recognition problem submitted by the customer, the after-sales personnel can inquire whether the voice air conditioner is caused by the damage of the microphone or not so as to purposely replace the failed hardware to realize the treatment of the problem. The problem that after-sales personnel cannot confirm the voice fault cause of the voice air conditioner and therefore voice related warranty is difficult to solve can be solved.

According to the microphone detection method of the voice air conditioner, the intelligent module on the voice air conditioner operates the voice detection program after the voice air conditioner is powered on and before voice is initialized, the voice detection program controls the microphone array on the voice air conditioner to record, the microphone array is subjected to effectiveness analysis according to recording data, and an analysis result is stored in the storage. And then, the intelligent module performs voice initialization, and sends the analysis result in the storage and the equipment identifier corresponding to the voice air conditioner to the cloud platform for storage in a networking state. When receiving a microphone state query request sent by a first client, the cloud platform searches for a corresponding analysis result according to an equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display. Therefore, after-sales personnel can inquire corresponding analysis results according to the voice air conditioner of a client, and further know whether the microphone array of the voice air conditioner really has quality problems, so that the cause of the microphone identification problem is checked, and the real cause is determined.

It can be understood that the voice air conditioner provided by the specification can be a universal wall-mounted air conditioner or a movable air conditioner, the movable air conditioner can receive a voice instruction of a user, and the movable air conditioner can move to a certain area to perform cooling or heating according to the voice instruction of the user, so that the movable air conditioner is more flexible.

For a mobile air conditioner, the air conditioner may further include, in addition to the intelligent module and the microphone array, referring to fig. 4: with semiconductor module, heat storage module and the removal module that the intelligent object is connected, semiconductor module includes cold junction and hot junction, semiconductor module is when the circular telegram the cold junction gets into refrigeration operating condition just the hot junction gets into the operating condition that heats, the storage has the heat storage medium in the heat storage module, wherein:

the intelligent module is used for: when a voice refrigeration instruction is received, performing refrigeration preparation work to electrify the semiconductor module and reduce the temperature of a heat storage medium of the heat storage module through heat exchange, and stopping the refrigeration preparation work when the temperature is reduced to a first preset temperature; controlling the movable air conditioner to move to a space to be refrigerated through the moving module and enabling the cold end to face the space to be refrigerated; executing refrigeration work to electrify the semiconductor module and control the heat storage medium in the heat storage module to flow to the hot end to absorb heat generated by the hot end, and stopping the refrigeration work when the temperature of the heat storage medium is higher than the ambient temperature; the movable air conditioner is controlled by the moving module to move to other spaces outside the space to be refrigerated for heat balance;

the intelligent module is further configured to: when a voice heating instruction is received, heating preparation work is executed to enable the semiconductor module to be electrified and the temperature of the heat storage medium of the heat storage module to rise through heat exchange, and the heating preparation work is stopped when the temperature rises to a second preset temperature; controlling the movable air conditioner to move to a space to be heated through the moving module and enabling the hot end to face to the space to be heated; executing heating work to enable the semiconductor module to be electrified and control the heat storage medium in the heat storage module to flow to the cold end to absorb cold energy generated by the cold end, and stopping the heating work when the temperature of the heat storage medium is lower than a third preset temperature; and controlling the movable air conditioner to move to other spaces outside the space to be heated through the moving module to perform heat balance.

When the semiconductor module is electrified, the cold end of the semiconductor module can refrigerate, and the hot end of the semiconductor module can heat, so that the cold end of the semiconductor module faces to a space to be refrigerated when refrigeration is needed, and the hot end of the semiconductor module faces to the space to be heated when heating is needed. The heat storage medium in the heat storage module can absorb heat or emit heat, and the heat storage medium can flow to the hot end or the cold end and can also flow back to the heat storage module from the hot end or the cold end.

It can be understood that when the intelligent module of the intelligent air conditioner receives a voice refrigerating instruction, the intelligent module can firstly carry out refrigerating preparation work, then move to a space to be refrigerated for refrigerating work, and quit the space to be refrigerated after refrigerating is finished. The purpose of the refrigeration preparation work is to enable the temperature storage medium to absorb cold energy generated by the cold end so as to lower the temperature of the temperature storage medium to a first preset temperature, and then to utilize the temperature storage medium with lower temperature to absorb heat generated by the hot end in the refrigeration process, so that the influence of the heat generated by the hot end on the refrigeration of the cold end to-be-refrigerated space is reduced, and the refrigeration speed is increased. And when the temperature of the heat storage medium is higher than the ambient temperature, the refrigerating operation is stopped, and the heat storage medium is moved to other spaces for heat dissipation and other treatments. For the areas in the home where the air conditioner is not installed, the movable air conditioner provided by the specification can be used for refrigerating the areas, so that the areas can provide the proper temperature for the user even in hot summer.

It can be understood that after receiving a voice heating instruction, the heating preparation work is executed firstly, then the mobile module moves into the space to be heated and enables the hot end to face the space to be heated, the heating work is carried out, and the mobile module quits the space to be heated after the heating is finished to radiate cold. The purpose of the above-mentioned heating preparation work is: the heat storage medium absorbs the heat generated by the hot end to raise the temperature of the heat storage medium, and the heating preparation can be stopped when the temperature of the heat storage medium rises to a certain temperature. So that the heat storage medium absorbs the cold energy generated by the cold end when the heating work is performed, and the influence of the cold energy generated by the cold end on the heating speed of the space to be heated is avoided.

In specific implementation, the cold end and the hot end are respectively provided with an electric pump, an electric valve and a fan, the cold end and the hot end are respectively attached with a radiating fin, a pipeline for a heat storage medium to flow is arranged on the radiating fin, and the electric valve is arranged between the pipeline of the radiating fin and the pipeline of the heat storage module.

It can be understood that after the electric valve is opened, the electric pump provides power to control the heat storage medium in the heat storage module to flow to the hot end or the cold end, and also to control the heat storage medium at the hot end or the cold end to flow to the heat storage module. When the electrically operated valve is closed, the thermal storage medium cannot flow between the thermal storage module and the hot/cold end.

Wherein, the refrigeration preparation work is executed in the intelligent module, and the refrigeration preparation work can specifically include:

controlling the semiconductor module to be powered on so that the cold end performs refrigeration work and the hot end performs heating work, controlling an electric valve of the cold end to be opened, controlling a heat storage medium in the heat storage module to flow to the cold end through an electric pump of the cold end, absorbing cold energy generated by the cold end during refrigeration, controlling a fan of the hot end to be opened so as to perform heat dissipation treatment on heat generated during heating of the hot end, collecting the temperature of the heat storage medium in real time, controlling the heat storage medium in a pipeline of the cold end to flow back to the heat storage module through the electric pump of the cold end when the temperature of the heat storage medium is reduced to a first preset temperature, controlling an electric valve of the cold end to be closed, controlling the fan of the hot end to be closed, and powering off the semiconductor module.

That is to say, when carrying out refrigeration preparation work, the intelligent object control semiconductor module circular telegram at first, and the hot junction of semiconductor heats and the cold junction refrigeration this moment, and the electric valve of control cold junction opens this moment in addition, and the electric pump through the cold junction can control the heat-storage medium among the heat-storage module and flow to the cold junction, and the cold volume of cold junction will be absorbed to the heat-storage medium that flows to the cold junction like this, and the temperature of heat-storage medium descends. And at the moment, the fan at the hot end is started to carry out heat dissipation treatment on the heat generated by the hot end, so that a large amount of heat is prevented from being accumulated at the hot end of the semiconductor module. When the temperature is reduced to the first preset temperature, the preparation work can be finished, so that the electric pump at the cold end controls the heat storage medium to flow back to the heat storage module, the electric valve at the cold end is closed, the fan at the hot end is controlled to be closed, the semiconductor module is powered off, heating and cooling are stopped, and the cooling preparation work is finished.

After the preparation for cooling, the temperature of the heat storage medium reaches a relatively low temperature. The air conditioner is moved into the space to be refrigerated through the moving module, and refrigeration work is started.

Wherein, carry out the refrigeration work in the intelligent object, can include:

controlling the semiconductor module to be connected with a power supply so that the cold end executes refrigeration work and the hot end executes heating work, opening the electric valve of the hot end, controlling the electric pump of the hot end to control the temperature storage medium in the temperature storage module to flow into the pipeline of the hot end to absorb heat generated when the hot end heats, controlling the fan of the cold end to be opened to realize convection of cold energy generated when the cold end refrigerates and air of a space to be refrigerated, collecting the temperature of the temperature storage medium in real time, controlling the temperature storage medium in the pipeline of the hot end to flow back into the temperature storage module through the electric pump of the hot end when the temperature of the temperature storage medium rises to the environmental temperature, controlling the electric valve of the hot end to be closed, closing the fan of the cold end, and powering off the semiconductor module.

That is to say, after the air conditioner entered the space to be refrigerated, the cold junction was towards the space to be refrigerated, and the intelligent object control semiconductor module circular telegram at first, and the hot junction begins to heat and the cold junction begins to refrigerate like this. Meanwhile, the electric valve at the hot end is opened, the electric pump at the hot end controls the heat storage medium in the heat storage module to flow to the hot end, so that heat generated by the hot end during heating is absorbed, the heat generated by the hot end is prevented from influencing the refrigerating speed of the cold end to-be-refrigerated space, and meanwhile, the fan at the cold end is started to accelerate the diffusion of cold energy and accelerate the refrigerating speed of the to-be-refrigerated space. The temperature of the heat storage medium gradually rises along with the prolonging of the time for the heat storage medium to absorb heat at the hot end, and when the temperature rises to the ambient temperature, the refrigeration work can be finished, so that the electric pump at the hot end controls the heat storage medium to flow back to the heat storage module, the electric valve at the hot end is closed, the fan at the cold end is closed, and finally, the semiconductor module is stopped to be electrified, so that the hot end stops heating and the cold end stops refrigerating.

Wherein, executing the heating preparation work in the intelligent module may specifically include:

controlling the semiconductor module to be connected with a power supply so that the cold end performs refrigeration work and the hot end performs heating work, controlling an electric valve of the hot end to be opened, controlling a heat storage medium in the heat storage module to flow to the hot end through an electric pump of the hot end, absorbing heat generated by the hot end during heating, controlling a fan of the cold end to be opened so as to perform cooling dissipation treatment on cold generated by the cold end during heating, collecting the temperature of the heat storage medium in real time, controlling the heat storage medium in a pipeline of the hot end to flow back to the heat storage module through the electric pump of the hot end when the temperature of the heat storage medium rises to a second preset temperature, controlling an electric valve of the hot end to be closed, controlling the fan of the cold end to be closed, and powering off the semiconductor module.

That is to say, when the heating was prepared, the intelligent object first controlled the semiconductor module circular telegram, and the hot junction begins to heat and the cold junction begins to refrigerate like this, and the electric valve of control hot junction opens, and the electric pump through the hot junction controls the heat storage medium among the heat storage module to flow to the hot junction, absorbs the heat that the hot end produced when heating, and the temperature of heat storage medium can rise gradually like this. And meanwhile, the fan at the cold end is controlled to be started, so that cold energy generated by the cold end can be prevented from gathering together. After the temperature of heat-storage medium rose to a certain extent, can stop heating preparation work, the electric pump through the hot junction controls heat-storage medium and gets back to the heat-storage module this moment promptly, closes the electric valve of hot junction, closes the fan of cold junction, and for the semiconductor module outage simultaneously to make the hot junction stop heating and the cold junction stops refrigerating.

After the heating preparation work is finished, the intelligent module can control the mobile module to further enable the air conditioner to enter a space to be heated, so that the hot end faces the space to be heated, and the heating work is started.

Wherein, carry out the work of heating in the intelligent object, can specifically include:

controlling the semiconductor module to be switched on to enable the cold end to execute refrigeration work and the hot end to execute heating work, opening the electric valve of the cold end, controlling the electric pump of the cold end to control the temperature storage medium in the temperature storage module to flow into the pipeline of the cold end to absorb cold energy generated when the cold end refrigerates, controlling the fan of the hot end to be started to realize convection of heat generated when the hot end heats and air of a space to be heated, collecting the temperature of the temperature storage medium in real time, controlling the temperature storage medium in the pipeline of the cold end to flow back into the temperature storage module through the electric pump of the cold end when the temperature of the temperature storage medium is reduced to the ambient temperature, controlling the electric valve of the cold end to be closed, closing the fan of the hot end, and powering off the semiconductor module.

That is to say, when heating, control semiconductor module circular telegram, the hot junction of semiconductor heats and the cold junction begins to refrigerate, opens the electric valve of cold junction, and flows to the cold junction from heat storage module through the electric pump control heat storage medium of cold junction, and the cold volume that the cold junction gived off when refrigerating can be absorbed to heat storage medium like this, and along with the absorption of cold volume, the temperature of heat storage medium descends gradually. The cold quantity of the cold end is absorbed, so that the influence of the cold quantity on the refrigerating speed of the space to be heated can be reduced. Meanwhile, in order to further increase the heating speed, the fan at the hot end is started, so that the diffusion speed of heat generated by the hot end is increased, and the heating speed of the space to be heated is increased. When the temperature of the heat storage medium is reduced to the ambient temperature, the heating operation can be stopped, the electric pump at the cold end enables the heat storage medium to flow back to the heat storage module, the electric valve at the cold end is closed, the fan at the hot end is closed, and finally the semiconductor module is stopped to be electrified.

In specific implementation, the voice air conditioner may further include: the system comprises an image identification module, a solar charging module and an electric energy storage module connected with the solar charging module, wherein the other spaces moved to when the air conditioner does not receive an instruction or when the instruction is executed are balcony spaces;

the image recognition module is connected with the intelligent module and is used for collecting images according to a preset time interval, carrying out space recognition on the collected images and sending space recognition results to the intelligent module; correspondingly, the intelligent module is used for: when an instruction is received, the image recognition module is started, a moving route is planned according to a space recognition result sent by the image recognition module, and the image recognition module is closed until the space recognition result sent by the image recognition module is in a corresponding space; if the command is a refrigeration command, the corresponding space is a space to be refrigerated; and if the command is a heating command, the corresponding space is a space to be heated.

That is, the initial position of the air conditioner when the air conditioner does not receive the voice command and the space where the air conditioner returns after the command is executed can be a balcony, so that the air conditioner can convert solar energy into electric energy on the balcony through the solar charging module when the air conditioner is in a non-working state, the electric energy is stored in the electric energy storage module, the semiconductor module is powered by the electric energy in the electric energy storage module, and other power supplies do not need to be provided for the semiconductor module. Of course, when the weather is bad, the electric energy storage module can be charged through the electric wire.

Moreover, an image recognition module is arranged in the voice air conditioner and is used for collecting images of the space where the voice air conditioner is located, then the images are recognized, a space recognition result is obtained, and whether the space where the current air conditioner is located is a balcony, a bedroom, a bathroom, a living room or a kitchen or the like is obtained. Therefore, when the intelligent module needs to move to a space to be cooled or a space to be heated when receiving the instruction, the image identification module can be started, the moving route is determined according to the space identification result returned by the image identification module, and the image identification module can be closed after the air conditioner moves to the space to be cooled or the space to be heated.

Therefore, the movable air conditioner has the idea that refrigeration or heating is conducted in different areas, heat generated by the hot end can be absorbed during refrigeration, and the absorbed heat can be dissipated after the refrigeration is finished and the heat returns to other spaces. The cold energy can be absorbed during heating, and the absorbed cold energy can be emitted after the heating is finished and the air returns to other spaces.

It can be understood that after the semiconductor module is powered on, the cold end starts to refrigerate, and the hot end starts to heat, the essence is that a working mode of one-way conduction is adopted, the refrigeration and heating can be switched only by rotating the orientation of an air conditioner, the existing switch control tube is omitted, and the service life of the semiconductor is prolonged.

It can be understood that the heat end and the cold end are both provided with the heat radiating fins, and meanwhile, a pipeline is arranged between the heat radiating fins so that the heat storage medium can flow, when needed, the heat storage medium in the heat storage module can be controlled to flow to the heat end or the cold end through the electric pump, and when not needed, the heat storage medium can be controlled to return to the heat storage module. The fan for enhancing air flow is arranged outside the radiating fins, so that the refrigeration of the refrigerating space or the heating of the heating space is accelerated.

The above scheme is illustrated by the following specific examples:

example 1:

in summer, the user sets 18: 30 begin to use the kitchen to cool it, so that the mobile air conditioner will be in the range of 17: 30 starts to enter cooling preparation at the balcony position, when it is detected that the temperature of the temperature storage medium drops to 10 degrees celsius or the time reaches 18: after 00, the cooling preparation work is stopped. Moving to the kitchen, the cold end faces the kitchen, and the refrigeration operation is started, when the temperature of the thermal storage medium rises to the ambient temperature or the time reaches 18: and (6) after 30, finishing the refrigeration work, moving to a balcony position for heat dissipation, and finishing the whole process.

Example 2:

in winter, the user sets 18: 30 starting to use the kitchen, heating it, mobile air conditioning 17: 30, starting to enter heating preparation work on a balcony, and when the temperature of the heat storage medium rises to 30 ℃ or the time reaches 18: after 00, the heating preparation work is stopped. Moving to the kitchen, making the hot end face to the kitchen, and starting heating work, when the temperature of the heat storage medium is reduced to the ambient temperature or the time reaches 18: and 30, ending the heating work, moving to a balcony position for cooling, and ending the whole process.

Therefore, for the areas without air conditioners in the home, the movable air conditioners provided by the specification can be used for refrigerating and heating the areas, so that the areas can provide proper temperature for users, and the convenience is realized.

In a second aspect, the present invention provides a microphone detection system of a voice air conditioner, including:

the intelligent module on the voice air conditioner is used for running a voice detection program after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory; the intelligent module is further configured to: performing voice initialization, and sending the analysis result in the storage and the equipment identifier corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

the cloud platform is used for searching the corresponding analysis result according to the equipment identifier carried in the microphone state query request when the microphone state query request sent by the first client is received, and sending the analysis result to the first client for displaying; and the role of the personnel corresponding to the first client is the after-sales personnel.

It is understood that, in the system provided in the embodiment of the present invention, for the explanation, examples, and beneficial effects of the related contents, reference may be made to the corresponding parts in the above method, and details are not described here.

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, as for the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Those skilled in the art will recognize that, in one or more of the examples described above, the functions described in this disclosure may be implemented in hardware, software, hardware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made on the basis of the technical solutions of the present invention should be included in the scope of the present invention.

Claims (10)

1. A microphone detection method of a voice air conditioner is characterized by comprising the following steps:

an intelligent module on the voice air conditioner operates a voice detection program after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory;

the intelligent module performs voice initialization and sends the analysis result in the storage and the equipment identification corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

when receiving a microphone state query request sent by a first client, the cloud platform searches for the corresponding analysis result according to the equipment identifier carried in the microphone state query request, and sends the analysis result to the first client for display; and the role of the personnel corresponding to the first client is the after-sales personnel.

2. The method of claim 1, further comprising:

the intelligent module sends the IP address corresponding to the voice air conditioner to the cloud platform to be stored together with the corresponding analysis result and the equipment identification;

when receiving a failure microphone summarizing request sent by the first client, the cloud platform summarizes and counts the areas corresponding to the microphones with failure analysis results according to the IP addresses to obtain statistical data of the failure microphones in a plurality of areas, and sends the statistical data corresponding to the areas to the first client for displaying.

3. The method of claim 2, further comprising:

when receiving a failure microphone summarizing request of a preset area sent by a first client, the cloud platform determines all IP addresses corresponding to the preset area, acquires analysis results corresponding to all the IP addresses, counts the analysis results of failure microphones in the acquired analysis results, obtains statistical data of the failure microphones in the preset area, and sends the statistical data corresponding to the preset area to the first client for displaying.

4. The method of claim 1, further comprising:

after the time length that the voice air conditioner is kept on exceeds the preset time length, the intelligent module controls the voice air conditioner to restart when the intelligent air conditioner is in an unused state so as to detect a microphone array on the voice air conditioner and update a corresponding analysis state on the cloud platform.

5. The method of claim 1, wherein the analyzing the microphone array for validity based on the recorded voice data comprises: if data of at least one microphone channel is lost in the recording data, determining that the microphone array is invalid; the analysis result includes whether the microphone is invalid and the identification corresponding to the microphone channel of the lost data in the invalid microphone.

6. The method of claim 5, further comprising:

the first client sends a microphone state query request aiming at a voice air conditioner corresponding to a user to the cloud platform when receiving reported information of voice recognition faults submitted by the user;

if the microphone of the voice air conditioner corresponding to the user is determined to be in an effective state according to the analysis result sent by the cloud platform, notifying maintenance personnel not to carry out door-to-door maintenance or notifying the maintenance personnel to examine influence factors outside the microphone array; and if the microphone of the voice air conditioner corresponding to the user is determined to be in a failure state according to the analysis result sent by the cloud platform, notifying maintenance personnel to carry out door-to-door maintenance and notifying the maintenance personnel of the identifier of the microphone channel with the fault.

7. The method of claim 6, further comprising:

the intelligent module stores the recorded data and the analysis result into the memory together, and sends the recorded data, the analysis result and the equipment identification to the cloud platform together in a networking state;

if the first client receives information that the field inspection result fed back by the maintenance personnel is inconsistent with the analysis result, corresponding notification information is sent to the cloud platform;

and when receiving the notification information, the cloud platform analyzes the recording data to update the corresponding analysis result stored in the cloud platform and sends the updated analysis result to the first client.

8. The method of claim 1, wherein the voice air conditioner is a mobile voice air conditioner, and the voice air conditioner further comprises, in addition to the smart module and the microphone array: with semiconductor module, heat storage module and the removal module that the intelligent object is connected, semiconductor module includes cold junction and hot junction, semiconductor module is when the circular telegram the cold junction gets into refrigeration operating condition just the hot junction gets into the operating condition that heats, the storage has the heat storage medium in the heat storage module, wherein:

the intelligent module is used for: when a voice refrigeration instruction is received, performing refrigeration preparation work to electrify the semiconductor module and reduce the temperature of a heat storage medium of the heat storage module through heat exchange, and stopping the refrigeration preparation work when the temperature is reduced to a first preset temperature; controlling the movable air conditioner to move to a space to be refrigerated through the moving module and enabling the cold end to face the space to be refrigerated; executing refrigeration work to electrify the semiconductor module and control the heat storage medium in the heat storage module to flow to the hot end to absorb heat generated by the hot end, and stopping the refrigeration work when the temperature of the heat storage medium is higher than the ambient temperature; the movable air conditioner is controlled by the moving module to move to other spaces outside the space to be refrigerated for heat balance;

the intelligent module is further configured to: when a voice heating instruction is received, heating preparation work is executed to enable the semiconductor module to be electrified and the temperature of the heat storage medium of the heat storage module to rise through heat exchange, and the heating preparation work is stopped when the temperature rises to a second preset temperature; controlling the movable air conditioner to move to a space to be heated through the moving module and enabling the hot end to face to the space to be heated; executing heating work to enable the semiconductor module to be electrified and control the heat storage medium in the heat storage module to flow to the cold end to absorb cold energy generated by the cold end, and stopping the heating work when the temperature of the heat storage medium is lower than a third preset temperature; and controlling the movable air conditioner to move to other spaces outside the space to be heated through the moving module to perform heat balance.

9. The method according to claim 8, wherein an electric pump, an electric valve and a fan are arranged on each of the cold end and the hot end, a heat dissipation fin is attached to each of the cold end and the hot end, a pipeline for flowing the heat storage medium is arranged on each heat dissipation fin, and the electric valve is arranged between the pipeline of the heat dissipation fin and the pipeline of the heat storage module;

correspondingly, the intelligent module executes refrigeration preparation work and comprises the following steps: controlling the semiconductor module to be powered on so that the cold end performs refrigeration work and the hot end performs heating work, controlling an electric valve of the cold end to be opened, controlling a heat storage medium in the heat storage module to flow to the cold end through an electric pump of the cold end, absorbing cold energy generated by the cold end during refrigeration, controlling a fan of the hot end to be opened so as to perform heat dissipation treatment on heat generated during heating of the hot end, collecting the temperature of the heat storage medium in real time, controlling the heat storage medium in a pipeline of the cold end to flow back to the heat storage module through the electric pump of the cold end when the temperature of the heat storage medium is reduced to a first preset temperature, controlling an electric valve of the cold end to be closed, controlling the fan of the hot end to be closed, and powering off the semiconductor module;

carry out refrigeration work among the intelligent object, include: controlling the semiconductor module to be connected with a power supply so that the cold end performs refrigeration work and the hot end performs heating work, opening an electric valve of the hot end, controlling a heat storage medium in the heat storage module to flow into a pipeline of the hot end through an electric pump of the hot end to absorb heat generated when the hot end performs heating, controlling a fan of the cold end to be started to realize convection of cold energy generated when the cold end performs refrigeration and air of a space to be refrigerated, collecting the temperature of the heat storage medium in real time, controlling the heat storage medium in the pipeline of the hot end to flow back into the heat storage module through the electric pump of the hot end when the temperature of the heat storage medium rises to the environmental temperature, controlling the electric valve of the hot end to be closed, closing the fan of the cold end, and powering off the semiconductor module;

the intelligent module executes heating preparation work and comprises the following steps: controlling the semiconductor module to be connected with a power supply so that the cold end performs refrigeration work and the hot end performs heating work, controlling an electric valve of the hot end to be opened, controlling a heat storage medium in the heat storage module to flow to the hot end through an electric pump of the hot end, absorbing heat generated by the hot end during heating, controlling a fan of the cold end to be opened so as to perform cooling dissipation treatment on cold generated by the cold end during heating, collecting the temperature of the heat storage medium in real time, controlling the heat storage medium in a pipeline of the hot end to flow back to the heat storage module through the electric pump of the hot end when the temperature of the heat storage medium rises to a second preset temperature, controlling an electric valve of the hot end to be closed, controlling the fan of the cold end to be closed, and powering off the semiconductor module;

carry out the work of heating among the intelligent object, include: controlling the semiconductor module to be switched on to enable the cold end to execute refrigeration work and the hot end to execute heating work, opening the electric valve of the cold end, controlling the electric pump of the cold end to control the temperature storage medium in the temperature storage module to flow into the pipeline of the cold end to absorb cold energy generated when the cold end refrigerates, controlling the fan of the hot end to be started to realize convection of heat generated when the hot end heats and air of a space to be heated, collecting the temperature of the temperature storage medium in real time, controlling the temperature storage medium in the pipeline of the cold end to flow back into the temperature storage module through the electric pump of the cold end when the temperature of the temperature storage medium is reduced to the ambient temperature, controlling the electric valve of the cold end to be closed, closing the fan of the hot end, and powering off the semiconductor module.

10. A microphone detection system of a voice air conditioner is characterized by comprising:

the intelligent module on the voice air conditioner is used for running a voice detection program after the voice air conditioner is powered on and before voice is initialized; the voice detection program is used for controlling a microphone array on the voice air conditioner to record, carrying out effectiveness analysis on the microphone array according to recording data, and storing an analysis result into a memory; the intelligent module is further configured to: performing voice initialization, and sending the analysis result in the storage and the equipment identifier corresponding to the voice air conditioner to a cloud platform for storage in a networking state;

the cloud platform is used for searching the corresponding analysis result according to the equipment identifier carried in the microphone state query request when the microphone state query request sent by the first client is received, and sending the analysis result to the first client for displaying; and the role of the personnel corresponding to the first client is the after-sales personnel.

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