CN210512071U - Control system of air conditioner - Google Patents

Abstract

The utility model discloses a control system of air conditioner, include: the first detection device is connected with a power supply of the air conditioner and used for detecting the power supply state of the power supply, wherein the power supply state comprises a normal power supply state and an abnormal power supply state; the voice device and the battery for the power supply of the voice device, wherein the voice device is connected with the first detection device, the battery is connected with the power supply, and the battery is used for charging and discharging based on the power supply state. The utility model provides an in the correlation technique because intelligent pronunciation air conditioner outage, the technical problem that leads to the unable use of speech device of air conditioner.

Description

Control system of air conditioner

Technical Field

The utility model relates to an intelligence household electrical appliances field particularly, relates to a control system of air conditioner.

Background

With the development of intelligent digital technology, the technology of controlling household appliances to execute corresponding operations through intelligent sound equipment is mature, and an intelligent air conditioner with a voice control function gradually enters the daily life of people.

However, in the intelligent voice air conditioner in the prior art, the electric energy of the voice device comes from the power supply circuit of the air conditioner, and once the power supply circuit of the air conditioner fails or the socket of the air conditioner is unplugged, that is, the power supply circuit of the air conditioner is powered off, the voice device cannot be used. On the other hand, because the basic function part of the air conditioner needs high voltage and large power consumption, under the condition of not using the air conditioner to cool or heat, in order to use the voice device to control other household appliances to execute corresponding operations, the air conditioner is turned on to supply electric energy to the voice device, and unnecessary energy consumption is increased.

Aiming at the technical problem that a voice device of an air conditioner cannot be used due to the fact that an intelligent voice air conditioner is powered off in the related art, an effective solution is not provided at present.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a control system of air conditioner to because intelligent pronunciation air conditioner outage leads to the unable technical problem that uses of speech device of air conditioner in solving the correlation technique at least.

According to an aspect of the embodiments of the present invention, there is provided a control system of an air conditioner, including: the first detection device is connected with a power supply of the air conditioner and used for detecting the power supply state of the power supply, wherein the power supply state comprises a normal power supply state and an abnormal power supply state; the voice device and the battery for the power supply of the voice device, wherein the voice device is connected with the first detection device, the battery is connected with the power supply, and the battery is used for charging and discharging based on the power supply state.

Optionally, the system further includes: and the power supply is respectively connected with the host machine, the voice device and the battery of the air conditioner and is used for supplying electric energy to the host machine, the voice device and the battery.

Optionally, the system further includes: and the power supply circuit is used for connecting the power supply with the host and the voice device respectively.

Optionally, the speech device comprises: the second detection device is connected with the battery and used for detecting the electric quantity of the battery; and the first output device is connected with the second detection device and used for outputting the low-electric-quantity prompt information of the battery based on the electric quantity.

Optionally, the speech apparatus further comprises: and the second output device is connected with the first detection device and used for outputting prompt information of the abnormity of the power supply state of the air conditioner based on the power supply state.

Optionally, the speech apparatus further comprises: the third detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner; and the third output device is connected with the third detection device and used for outputting prompt information for turning off the power supply based on the operation parameters.

Optionally, the speech apparatus further comprises: the first sound pickup device is in communication connection with the target equipment and is used for picking up a voice instruction of a user, wherein the voice instruction at least comprises task information of a target task and equipment information of the target equipment; and the first control device is connected with the first sound pickup device and used for controlling the target equipment to execute the target task according to the voice instruction.

Optionally, the speech apparatus further comprises: the fourth detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner; and the communication device is connected with the fourth detection device and used for uploading the operation parameters to the server according to the preset time point.

Optionally, the communication device is further configured to receive feedback information of the server, where the feedback information represents an air conditioner fault; the speech device further comprises: and the fourth output device is connected with the communication device and used for outputting prompt information of the air conditioner fault based on the feedback information.

Optionally, the speech apparatus further comprises: the second pickup device is used for picking up an overhaul application instruction of a user and fault information of the air conditioner; the communication device is also connected with the second sound pickup device and used for uploading fault information to the server based on the maintenance application instruction.

Optionally, the second sound pickup device is further used for picking up a maintenance instruction of the user; and the fourth output device is also connected with the second sound pickup device and used for outputting prompt information for turning off the power supply and/or prompt information for the maintenance process based on the maintenance instruction.

In an embodiment of the present invention, a control system of an air conditioner includes: the first detection device is connected with a power supply of the air conditioner and used for detecting the power supply state of the power supply, wherein the power supply state comprises a normal power supply state and an abnormal power supply state; the voice device and the battery for the power supply of the voice device, wherein the voice device is connected with the first detection device, the battery is connected with the power supply, and the battery is used for charging and discharging based on the power supply state. Compared with the prior art, but above-mentioned scheme adds the battery that charges and discharges through the speech device who gives the air conditioner, inserts the electricity time for the battery charging automatically at the air conditioner, and the battery supplies power for speech device when the air conditioner outage, has reached the purpose that reduces the air conditioner and connects the electric time, and then has solved among the related art because intelligent pronunciation air conditioner outage, leads to the unable technical problem that uses of speech device of air conditioner.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a block diagram of an alternative air conditioner control system according to an embodiment of the present invention;

fig. 2 is a diagram of an alternative maintenance system for a voice air conditioner according to an embodiment of the present invention;

fig. 3 is a control flow chart of an alternative voice air conditioner according to an embodiment of the present invention; and

fig. 4 is an alternative service flow diagram according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

1. a first detection device; 2. a power source; 3. a voice device; 4. a battery; 5. an air conditioner main machine; 6. a power supply circuit; 7. and (5) overhauling the device.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The utility model provides an embodiment of control system of air conditioner, figure 1 is according to the utility model discloses a control system structure chart of optional air conditioner, as shown in figure 1, this system includes:

the first detection device 1 is connected with a power supply 2 of the air conditioner and is used for detecting the power supply state of the power supply 2, wherein the power supply state comprises a normal power supply state and an abnormal power supply state.

In an alternative, the first detecting device may be a current sensor or a voltage sensor for detecting whether the current of the circuit from the power supply 2 to the air conditioner or the input voltage of the air conditioner is within a rated range.

It should be noted that the above-mentioned normal power supply state may be a state in which the power supply and the circuit of the air conditioner are connected and the voltage and the current are both within the rated range; the power supply abnormal state may be a state in which a circuit between the power supply and the air conditioner is disconnected, or a state in which the voltage and/or current are not within a rated range.

Speech device 3 and the battery 4 for speech device 3 power supply, wherein, speech device 3 links to each other with first detection device 1, and battery 4 links to each other with power 2, and battery 4 is used for based on the charge-discharge of power supply state.

In an alternative, the voice device may be a sound box; the battery may be a battery that can be repeatedly charged and discharged, such as a lithium battery.

Since the first detection device detects the power supply state of the air conditioner power supply, the battery can determine whether the battery is in the charging mode or the discharging mode according to the power supply state of the power supply.

It should be noted that, in the normal state of power supply, the power supply automatically charges the voice device of the air conditioner and the battery which is not fully charged; once the power supply is abnormal, the power supply can not normally supply electric energy to the voice device, and at the moment, the electric energy of the voice device comes from the battery, so that the voice device can be continuously and normally used.

In an alternative embodiment, the audio device of the air conditioner may be powered not only by the power source of the air conditioner, but also by a battery connected thereto. If the first detection device detects that the power supply of the air conditioner is normal, the power supply supplies power to the voice device, and meanwhile, the power supply automatically charges the battery; if the socket of the air conditioner is not plugged, the first detection device can detect that the power supply of the air conditioner is abnormal, and at the moment, the battery can supply power to the voice device.

Based on the scheme provided by the above embodiment of the present application, the control system of the air conditioner includes: the first detection device 1 is connected with a power supply 2 of the air conditioner and used for detecting the power supply state of the power supply 2, wherein the power supply state comprises a normal power supply state and an abnormal power supply state; speech device 3 and the battery 4 for speech device 3 power supply, wherein, speech device 3 links to each other with first detection device 1, and battery 4 links to each other with power 2, and battery 4 is used for based on the charge-discharge of power supply state. Compared with the prior art, but above-mentioned scheme adds the battery that charges and discharges through the speech device who gives the air conditioner, inserts the electricity time for the battery charging automatically at the air conditioner, and the battery supplies power for speech device when the air conditioner outage, has reached the purpose that reduces the air conditioner and connects the electric time, and then has solved among the related art because intelligent pronunciation air conditioner outage, leads to the unable technical problem that uses of speech device of air conditioner.

Optionally, the system further includes: and the power supply 2 is respectively connected with the air conditioner host 5, the voice device 3 and the battery 4 and is used for supplying electric energy to the host, the voice device 3 and the battery 4.

In an alternative, the power supply may be mains supply, and the mains supply may be connected to the air conditioner through a socket of the air conditioner; the power supply can also supply power to the air conditioner based on a wireless power transmission technology, such as an electromagnetic induction mode, an electromagnetic resonance mode, an electromagnetic coupling mode and a microwave resonance mode.

Optionally, the system further includes: the power supply circuit 6 and the power supply 2 are respectively connected with the host and the voice device 3 through the power supply circuit 6.

In an alternative, the power supply circuit may be composed of a voltage conversion circuit and a protection circuit.

Because the input voltage of the air conditioner host and the voice device are different, the power supply circuit can convert the power supply voltage into the input voltage suitable for the air conditioner host and the voice device.

Optionally, the speech device 3 comprises: the second detection device is connected with the battery 4 and is used for detecting the electric quantity of the battery 4; and the first output device is connected with the second detection device and used for outputting low-electric-quantity prompt information of the battery 4 based on the electric quantity.

In an alternative, the second detecting device may be a voltmeter, an ammeter, or the like; the first output device may be a speaker, a display, or the like, and the prompt information may be output in the form of voice or displayed in the form of text.

In an alternative embodiment, if the ratio of the electric quantity converted from the detected value of the voltmeter or ammeter to the rated electric quantity is less than the minimum electric quantity percentage, for example, 10%, it is considered that the battery electric quantity is about to be exhausted, and the first output device outputs a sound or a character that the electric quantity of the battery is low.

Optionally, the speech apparatus 3 further comprises: and the second output device is connected with the first detection device 1 and used for outputting prompt information of the abnormal power supply state of the air conditioner based on the power supply state.

Alternatively, the second output device may be a speaker, a display, or the like, and the prompt information may be output in the form of sound or displayed in the form of characters.

As described above, the abnormal power supply state may be a state in which the power supply and the air conditioner are disconnected from each other, or may be a state in which the voltage and/or the current are not within the rated range. If any abnormal state is found, the voice device can output prompt information of the abnormal power supply state of the air conditioner to remind a user of troubleshooting problems so as to ensure the power utilization safety of the air conditioner.

In an alternative embodiment, the voice device of the air conditioner receives a user's voice command ' turn on the dehumidifying function of the air conditioner '. The first detection device sends out a voice prompt of 'the air conditioner is powered off, please plug in for use' to prompt a user that the power supply state of the air conditioner is abnormal when the first detection device detects that the plug of the air conditioner is in poor contact.

In another alternative embodiment, the socket of the air conditioner is in good contact, but the first detection device detects that the current or the input voltage of the compressor is lower than the standard current or the standard voltage, and also sends out a voice prompt of 'the air conditioner is powered off, please plug in for use' to prompt the user that the power supply state of the air conditioner is abnormal.

Optionally, the speech apparatus 3 further comprises: the third detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner; and the third output device is connected with the third detection device and used for outputting prompt information for turning off the power supply 2 based on the operation parameters.

In an alternative, the third detecting device may be a voltmeter, an ammeter, a wattmeter, a pressure meter, or the like; the above-mentioned operation parameters can be current of compressor, input voltage of compressor, evaporating pressure of evaporator, condensing pressure of condenser, power of compressor, etc.; the third output device may be a speaker, a display, or the like, and the prompt information may be output in the form of sound or displayed in the form of characters.

In an alternative embodiment, the third detection device detects that the current or the input voltage of the compressor is higher than the standard current or the standard voltage, and in order to prevent the air conditioner from being burnt due to the high voltage or the high current, the third output device may send a voice prompt of "please turn off the power supply" to avoid damaging the air conditioner itself or other potential safety hazards in the case of power supply.

Optionally, the speech apparatus 3 further comprises: the first sound pickup device is in communication connection with the target equipment and is used for picking up a voice instruction of a user, wherein the voice instruction at least comprises task information of a target task and equipment information of the target equipment; and the first control device is connected with the first sound pickup device and used for controlling the target equipment to execute the target task according to the voice instruction.

In an alternative, the first sound pickup device may be a sound pickup head, a microphone, or the like; the target device may be any household appliance that is communicatively connected to a voice device.

Fig. 2 is a control flowchart of an alternative voice air conditioner according to an embodiment of the present application, and as shown in fig. 2, after the first sound pickup apparatus of the voice apparatus receives a voice instruction of a user, the first control apparatus recognizes the voice instruction and analyzes whether the voice instruction is an instruction for controlling the air conditioner. If the controlled object is other electrical appliances, the voice device controls other electrical appliances to execute corresponding operations; if the controlled object is an air conditioner, the voice device needs to detect whether the power supply state of the air conditioner is normal. If the power supply state of the air conditioner is abnormal, the voice device prompts a user that the air conditioner is not electrified and the control function is unavailable; and if the power supply state of the air conditioner is normal, the voice device controls the air conditioner to execute corresponding operation.

According to the scheme, the battery is adopted to supply power to the voice device in the abnormal power supply state, so that the voice device of the air conditioner can continue to work, the target equipment is controlled to execute the target task, the condition that the power-off voice device of the air conditioner is unavailable is avoided, and the power connection time of the air conditioner is shortened. Because the basic function part of the air conditioner needs high voltage and large power consumption, and the voice device needs low voltage and low power consumption, the scheme achieves the purposes of reducing the electrifying time of the air conditioner, saving energy, being safe and reducing the aging loss of parts of the air conditioner.

Optionally, the speech apparatus 3 further comprises: the fourth detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner; and the communication device is connected with the fourth detection device and used for uploading the operation parameters to the server according to the preset time point.

In an alternative, the fourth detection device may be a voltmeter, an ammeter, a wattmeter, a pressure gauge, or the like; the above-mentioned operation parameters can be current of compressor, input voltage of compressor, evaporating pressure of evaporator, condensing pressure of condenser, power of compressor, etc.; the communication device can be a GPRS module, a spread spectrum communication module, a satellite communication module and the like; the preset time point can be a fixed period point or a real-time sampling point.

In an optional embodiment, the fourth detection device obtains the operation parameters of the air conditioner according to a preset period, and the communication device uploads the operation parameters to the server and performs archiving. After the server is analyzed, if the operating parameters are found to be lower than or higher than the standard values, a short message is sent to the user terminal to prompt the user to contact the maintainer for on-door maintenance.

In another optional embodiment, the fourth detection device obtains the operation parameters of the air conditioner in real time, and if the air conditioner is powered off due to a fault, the communication device uploads the operation parameters sampled last before the power failure of the air conditioner to the server and carries out filing so that a maintainer can obtain the operation parameters which can reflect the fault condition most, and therefore the fault reason is analyzed.

Optionally, the communication device is further configured to receive feedback information of the server, where the feedback information represents an air conditioner fault; the speech apparatus 3 further includes: and the fourth output device is connected with the communication device and used for outputting prompt information of the air conditioner fault based on the feedback information.

In an alternative, the fourth output device may still be a speaker, a display, or the like, and the prompt message may be output in the form of sound or displayed in the form of text.

The server analyzes the operation parameters uploaded by the communication device, if the operation parameters are found to be lower than or higher than the standard values, the server also sends feedback information to the voice device, and after the voice device receives the feedback information, the fourth output device outputs prompt information of air conditioner faults.

Optionally, the speech apparatus 3 further comprises: the second pickup device is used for picking up an overhaul application instruction of a user and fault information of the air conditioner; the communication device is also connected with the second sound pickup device and used for uploading fault information to the server based on the maintenance application instruction.

In an alternative, the second sound pickup device may be a sound pickup head, a microphone, or the like; the above-mentioned service application instruction may be a specific sentence such as "hi, entry service application mode"; or may be an operation performed by application software of a user terminal (e.g., a mobile phone, a remote controller) or a key of an air conditioner. After the maintenance application instruction is acquired, the voice device can enter a maintenance application mode.

After entering the maintenance application mode, a background worker can output a preset problem to a user through a voice device to obtain the fault description of the air conditioner, and meanwhile, a communication device of the voice device uploads the fault description to a server for filing; in addition, the staff can also manually inquire the fault description of the air conditioner to the user through the voice device so as to acquire more accurate fault information.

It should be noted that during the maintenance application mode, the question-answering mode of the user and the staff may be in a question-answer mode, a multi-turn answer mode or a real-time question-answer mode through a voice device.

Optionally, the second sound pickup device is further used for picking up a maintenance instruction of the user; the fourth output device is also connected with the second sound pickup device and used for outputting prompt information for turning off the power supply 2 and/or prompt information for maintenance flow based on the maintenance instruction.

In an alternative, the service instruction may be a specific statement, e.g. "hi, enter service mode"; or may be an operation performed by application software of a user terminal (e.g., a mobile phone, a remote controller) or a key of an air conditioner. After the maintenance instruction is obtained, the voice device can enter a maintenance mode.

After entering the maintenance mode, the server generates a maintenance flow according to the operation parameters and the fault information uploaded by the voice device and sends the maintenance flow to the voice device. The voice device firstly prompts a user to turn off the power supply of the air conditioner, and then the fourth output device outputs prompt information of the maintenance process so as to guide maintenance personnel to maintain according to the process by voice.

It should be noted that, when a new problem is found in the repair site, the repair staff can ask a question to the voice device to obtain a voice answer, and meanwhile, the repair staff can provide professional manual service through the connection of the voice device.

Fig. 3 is a structural diagram of an alternative voice air conditioner service system according to an embodiment of the present application. As shown in fig. 3, when the power supply state of the power supply 2 is normal, the power supply 2 supplies power to the speech device 3 and the air conditioner main unit 5 through the power supply circuit 6, and the power supply 2 also automatically supplies power to the battery 4 which is not fully charged. The first detection device 1 detects the operation parameters of the air conditioner and uploads the operation parameters to the server through the voice device 3. The battery 4 automatically supplies power to the speech device 3 when the power supply state is abnormal. After the server finds that the operation parameters are abnormal, prompt information is output to a user through the voice device 3, and therefore the air conditioner enters an overhaul mode. And at the moment, the maintenance device 7 is also powered by the battery 4 due to the power failure of the air conditioner. The maintenance device 7 can be a maintenance circuit for assisting in detecting the operation parameters of the air conditioner.

In the voice air conditioner service system shown in fig. 3, a service flow shown in fig. 4 may be performed. And after the voice device acquires a maintenance instruction of the user about the condition that the air conditioner enters the maintenance mode, prompting the user to power off the air conditioner according to the maintenance data acquired from the server, and outputting a maintenance flow. Wherein, if a new problem is met or the maintainer finds a problem which is not fed back by the user, the maintainer can contact the staff through the voice device to answer. During the waiting process, the voice device can be powered off firstly to save electric energy. And when the preset time is up, the voice device is restarted, and the user reappears to enter the maintenance mode so as to output the adjusted maintenance flow.

In the above embodiment, the control system of the air conditioner includes: the first detection device 1 is connected with a power supply 2 of the air conditioner and used for detecting the power supply state of the power supply 2, wherein the power supply state comprises a normal power supply state and an abnormal power supply state; speech device 3 and the battery 4 for speech device 3 power supply, wherein, speech device 3 links to each other with first detection device 1, and battery 4 links to each other with power 2, and battery 4 is used for based on the charge-discharge of power supply state. Compared with the prior art, the system has the advantages that the rechargeable battery is additionally arranged on the voice device of the air conditioner, the battery is automatically charged when the air conditioner is plugged, the battery supplies power to the voice device when the air conditioner is powered off, the voice function of the air conditioner can be continuously used under the condition that the air conditioner is powered off, the power-on duration of the air conditioner is reduced, and the aging loss of parts caused by long-term use of the air conditioner is reduced; after the air conditioner outage, through speech device output maintenance flow, the maintenance personnel are instructed to carry out maintenance work through speech, and then the technical problem that the speech device of the air conditioner cannot be used due to intelligent speech air conditioner outage in the related art is solved.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (11)

1. A control system of an air conditioner, comprising:

the first detection device is connected with a power supply of the air conditioner and used for detecting the power supply state of the power supply, wherein the power supply state comprises a normal power supply state and an abnormal power supply state;

the voice device and do the battery of voice device power supply, wherein, voice device with first detection device links to each other, the battery with the power links to each other, the battery is used for based on power supply state charge-discharge.

2. The system of claim 1, further comprising:

and the power supply is respectively connected with the host of the air conditioner, the voice device and the battery and is used for providing electric energy for the host, the voice device and the battery.

3. The system of claim 2, further comprising:

and the power supply is connected with the host and the voice device through the power supply circuit respectively.

4. The system of claim 1, wherein the speech device comprises:

the second detection device is connected with the battery and used for detecting the electric quantity of the battery;

and the first output device is connected with the second detection device and used for outputting the low-electric-quantity prompt information of the battery based on the electric quantity.

5. The system of claim 1, wherein the speech device further comprises:

and the second output device is connected with the first detection device and used for outputting prompt information of the abnormal power supply state of the air conditioner based on the power supply state.

6. The system of claim 1, wherein the speech device further comprises:

the third detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner;

and the third output device is connected with the third detection device and used for outputting prompt information for closing the power supply based on the operation parameters.

7. The system of claim 1, wherein the speech device further comprises:

the first sound pickup device is in communication connection with the target equipment and is used for picking up a voice instruction of a user, wherein the voice instruction at least comprises task information of a target task and equipment information of the target equipment;

and the first control device is connected with the first sound pickup device and used for controlling target equipment to execute a target task according to the voice instruction.

8. The system of claim 1, wherein the speech device further comprises:

the fourth detection device is connected with the air conditioner and used for detecting the operating parameters of the air conditioner;

and the communication device is connected with the fourth detection device and used for uploading the operation parameters to the server according to a preset time point.

9. The system of claim 8, wherein the communication device is further configured to receive feedback information from the server, wherein the feedback information is indicative of the air conditioning fault; the speech device further comprises:

and the fourth output device is connected with the communication device and used for outputting the prompt information of the air conditioner fault based on the feedback information.

10. The system of claim 9, wherein the speech device further comprises:

the second sound pickup device is used for picking up an overhaul application instruction of a user and fault information of the air conditioner;

the communication device is also connected with the second sound pickup device and used for uploading the fault information to the server based on the maintenance application instruction.

11. The system of claim 10, wherein:

the second sound pickup device is also used for picking up a maintenance instruction of a user;

and the fourth output device is also connected with the second sound pickup device and used for outputting prompt information for turning off the power supply and/or prompt information for overhauling the process based on the overhauling instruction.

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