CN112568781A

CN112568781A - Dust collector and communication method thereof

Info

Publication number: CN112568781A
Application number: CN201910932807.1A
Authority: CN
Inventors: 周德化; 徐锡胜
Original assignee: Tineco Intelligent Technology Co Ltd
Current assignee: Tineco Intelligent Technology Co Ltd
Priority date: 2019-09-29
Filing date: 2019-09-29
Publication date: 2021-03-30

Abstract

The application discloses a dust collector and a communication method thereof, the dust collector responds to the approach of an intelligent terminal, after a second communication module of the dust collector is connected with a first communication module arranged in the intelligent terminal through near field communication, an instruction for starting a first application program is sent to the first communication module, and the intelligent terminal is activated, so that the intelligent terminal automatically starts the first application program. The second communication module of the dust collector is equivalent to a key for starting the first application program of the intelligent terminal, and the first application program is automatically started as long as the intelligent terminal is close to the dust collector. The user does not need to manually start the application program, the application program corresponding to the dust collector can be quickly, conveniently and intelligently started through near field communication, the running state information related to the dust collector is obtained, the working parameters of the dust collector are set, the time is saved, the efficiency is improved, and the user experience is improved.

Description

Dust collector and communication method thereof

Technical Field

The application relates to the technical field of cleaning equipment, in particular to a dust collector and a communication method thereof, a cleaning machine and a communication method thereof.

Background

Near Field Communication (NFC) is a new technology developed by combining a wireless interconnection technology on the basis of a non-contact Radio Frequency Identification (RFID) technology, and integrates functions of an induction card reader, an induction card and point-to-point Communication on a single chip, and an intelligent terminal is used to realize applications such as mobile payment, electronic ticketing, door control, mobile identity recognition, anti-counterfeiting and the like. The NFC has the defects that the communication distance is short and is 0-20 cm, and the communication distance of most NFC products is within 10cm in practical application.

The dust catcher in the existing market has some models to begin to use bluetooth or WIFI communication, and the user needs to open the APP (Application) that the cell-phone end corresponds with the dust catcher in advance when using at every turn, just can get into the user interface on the cell-phone, and the operation is more loaded down with trivial details. On the other hand, except bluetooth and WIFI, adopt other short distance wireless communication modes to realize the data interconnection function of cell-phone and dust catcher yet not be applied to in the dust catcher.

Content of application

The application aims to provide a dust collector and a communication method thereof, and the dust collector and the communication method thereof solve the problems that the dust collector in the prior art cannot automatically start an application program built in an intelligent terminal, and the data interconnection function of a mobile phone and the dust collector is realized by adopting other short-distance wireless communication modes and is not applied to the dust collector.

Another object of the present application is to provide a washing machine and a communication method thereof.

The purpose of the application is realized by adopting the following technical scheme:

a vacuum cleaner comprising a second communication module;

the dust collector responds to the approach of the intelligent terminal, and after the second communication module is connected with a first communication module arranged in the intelligent terminal through near field communication, the intelligent terminal is activated, so that the intelligent terminal automatically starts the first application program arranged in the intelligent terminal.

Preferably, the dust collector sends an instruction for starting a first application program to the first communication module to activate the intelligent terminal.

Preferably, the second communication module includes a near field communication sensing chip, and the near field communication sensing chip sends the instruction for starting the first application program to the first communication module.

Preferably, before the intelligent terminal automatically starts the first application program, the dust collector establishes a near field communication connection with the intelligent terminal;

after the intelligent terminal automatically starts the first application program, the dust collector is connected with the intelligent terminal through WIFI or Bluetooth.

Preferably, after the intelligent terminal automatically starts the first application program, the second communication module sends an instruction inquiring whether the user starts the WIFI connection or the bluetooth connection to the first communication module, so that the intelligent terminal inquires whether the user starts the WIFI connection or the bluetooth connection through the first application program;

if so, establishing WIFI connection or Bluetooth connection between the dust collector and the intelligent terminal;

and if not, establishing near field communication connection between the dust collector and the intelligent terminal.

Preferably, the dust collector further comprises a display unit with a built-in second application program;

the dust collector responds to the approach of the intelligent terminal, and the second communication module is connected with the first communication module through near field communication and receives a command for starting a second application program sent by the first communication module;

and the dust collector starts the second application program on the display unit.

Preferably, the vacuum cleaner further comprises a cavity;

an adsorption component is arranged in the cavity, so that the intelligent terminal is supported on the outer surface of the cavity through the adsorption component, and the adsorption component comprises a first adsorption part used for adsorbing the intelligent terminal; alternatively, the first and second electrodes may be,

the outer surface of the cavity is provided with a support, so that the intelligent terminal is supported on the outer surface of the cavity through the support.

A communication method of a vacuum cleaner, comprising:

responding to the approach of an intelligent terminal, and connecting a first communication module built in the intelligent terminal through near field communication;

and sending an instruction for starting a first application program to the first communication module, and activating the intelligent terminal so that the intelligent terminal automatically starts the built-in first application program.

Preferably, the method further comprises the following steps:

before the intelligent terminal automatically starts the first application program, establishing near field communication connection with the intelligent terminal;

and after the intelligent terminal automatically starts the first application program, establishing WIFI connection or Bluetooth connection with the intelligent terminal.

Preferably, after the intelligent terminal automatically starts the first application program, establishing a WIFI connection or a bluetooth connection with the intelligent terminal includes:

after the intelligent terminal automatically starts the first application program, sending an instruction for inquiring whether a user starts WIFI connection or Bluetooth connection to the first communication module so that the intelligent terminal inquires whether the user starts WIFI connection or Bluetooth connection through the first application program;

if yes, establishing WIFI connection or Bluetooth connection with the intelligent terminal;

and if not, establishing near field communication connection with the intelligent terminal.

Preferably, the method further comprises the following steps:

responding to the approach of the intelligent terminal, and receiving an instruction for starting a second application program sent by the first communication module after the intelligent terminal is connected with the first communication module through near field communication;

and starting the second application program on a display unit of the dust collector.

Compared with the prior art, the beneficial effects of the application lie in:

the application discloses a dust collector and a communication method thereof.A second communication module of the dust collector is equivalent to a key for starting a first application program of an intelligent terminal, and the first application program is automatically started as long as the intelligent terminal is close to the dust collector. The user does not need to manually start the application program, the application program corresponding to the dust collector can be quickly, conveniently and intelligently started through near field communication, the running state information related to the dust collector is obtained, the working parameters of the dust collector are set, the time is saved, the efficiency is improved, and the user experience is improved.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram illustrating a handheld vacuum cleaner with an intelligent terminal attached thereto according to an embodiment of the present application;

FIG. 2 illustrates an exploded view of a fastening device according to an embodiment of the present disclosure;

fig. 3 shows a schematic structural diagram of an intelligent terminal provided in an embodiment of the present application;

FIG. 4 is a schematic view of a hand-held vacuum cleaner according to an embodiment of the present disclosure;

fig. 5 is a schematic flowchart illustrating a communication method between an intelligent terminal and a vacuum cleaner with a passive near field communication function according to an embodiment of the present application;

fig. 6 is a schematic flowchart illustrating a communication method between an intelligent terminal and a vacuum cleaner with an active near field communication function according to an embodiment of the present application;

fig. 7 shows a schematic structural diagram of a cleaning machine absorbed with an intelligent terminal according to an embodiment of the present application;

fig. 8 is a flow chart illustrating a communication method of a vacuum cleaner according to an embodiment of the present disclosure.

In the figure: 10. a hand-held vacuum cleaner; 11. an air inlet; 12. a cyclone separator; 13. an airflow generating assembly; 14. a battery pack; 15. a switch; 16. a handle; 17. an air outlet; 18. a HEPA filter; 511. a first position; 512. a second position; 513. a third position; 514. a fourth position; 515. a fifth position; 516. a sixth position; 20. a cleaning machine; 21. a floor brush; 22. a body; 221. a solution barrel; 222. a motor; 223. a recycling bin; 23. a handle; 20. a cleaning machine; 30. a fixing device; 331. a first suction attachment; 34. a near field communication sensing chip; 40. a mobile phone; 41. a second adsorption member.

Detailed Description

The present application is further described with reference to the accompanying drawings and the detailed description, and it should be noted that, in the present application, the embodiments or technical features described below may be arbitrarily combined to form a new embodiment without conflict.

Referring to fig. 1 to 6, the present embodiment provides a cleaning appliance, which may be a vacuum cleaner or a washing machine 20. The cleaner may be a hand cleaner 10, an upright cleaner or a canister cleaner.

Referring to fig. 4, the hand-held cleaner 10 may include: the air inlet 11, the cyclone separator 12, the handle 16 and the fixing device 30, and further comprises an airflow generating assembly 13, a battery pack 14, a switch 15, an air outlet filtering assembly and the like. The air inlet 11 is located at the front side of the handheld vacuum cleaner 10, the air outlet Filter assembly is located at the rear side of the handheld vacuum cleaner 10, and the air outlet Filter assembly includes an air outlet 17 and a HEPA Filter 18(High efficiency air Filter). A handle 16 is located on the rear side of the hand-held cleaner 10 and below the outlet vent 17, a switch 15 is located at the end of the elongate handle 16 adjacent the outlet vent 17 and is used to activate the motor in the airflow generating assembly 13, and a battery pack 14 is located at the end of the elongate handle 16 remote from the outlet vent 17. The airflow generating assembly 13 includes a motor and a fan for generating airflow by rotation. The cyclone separator 12, the airflow generation assembly 13 and the fixing device 30 are located between the air inlet 11 and the air outlet 17 and in front of the handle 16 in the front-rear direction, and the fixing device 30 is located above the airflow generation assembly 13 and above the cyclone separator 12 in the up-down direction, or the fixing device 30, the airflow generation assembly 13 and the cyclone separator 12 are sequentially arranged up and down on the cyclone axis of the cyclone separator 12.

During dust collection, air mixed with dust enters the handheld dust collector 10 from the air inlet 11, then dust and air are separated by the cyclone separator 12, the separated air flow passes through the airflow generation assembly 13, fine dust in the air is further filtered by the HEPA filter 18, and finally clean air is discharged from the air outlet 17 at the rear end.

Cell-phone 40 can be fixed on the fixing device 30 of hand-held type dust catcher 10 through the adsorption mode, during the dust absorption, hand-held type dust catcher 10 is overturning, the translation, during actions such as reciprocal, under fixing device 30's adsorption, cell-phone 40 can adsorb all the time and fix on fixing device 30 and can not drop, fixing device 30 does not influence the whole pleasing to the eye degree of hand-held type dust catcher 10, and simultaneously, the setting of fixing device 30 accords with the position demand that the sight falls on hand-held type dust catcher 10 most naturally when user operation hand-held type dust catcher 10, can effectively promote and improve user's experience.

The handheld vacuum cleaner 10 may further include a second communication module, which may include a near field communication sensing chip 34, where the near field communication sensing chip 34 and the antenna are installed in the handheld vacuum cleaner 10, and the installation location may be any location convenient for the mobile phone 40 to touch, such as a first location 511 above the airflow generating assembly 13, a second location 512 on top of the HEPA filter 18, a third location 513 outside the HEPA filter 18, a fourth location 514 outside the battery pack 14, a fifth location 515 inside the air inlet 11, or a sixth location 516 outside the cyclone separator 12. In actual use, if the mobile phone 40 is convenient to touch, the nfc sensor chip 34 may be installed at a position not shown in the figure. The hand-held cleaner 10 can exchange data with the handset 40 in either an active mode or a passive mode.

Referring to fig. 7, the washing machine 20 of a vertical structure may include: the floor brush 21, the body 22, the handle 23, the fixing device 30 and the like, wherein the body 22 mainly comprises a solution barrel 221, a motor 222 and a recovery barrel 223, the solution barrel 221 is used for providing cleaning liquid, the recovery barrel 223 is used for recovering the cleaning liquid, the body 22 further comprises a fluid conveying channel (not shown) and a fluid recovery channel (not shown), and a display device (not shown) for feeding back information can be further arranged on the body 22. Wherein, the floor brush 21 has a nozzle and a suction nozzle (not shown), the floor brush 21 is connected to the lower side of the body 22, the handle 23 is connected to the body 22 for holding by hand, in the up-down direction, a recycling bin 223 is arranged above the floor brush 21, the recycling bin 223 is communicated with the suction nozzle of the floor brush 21 through a fluid recycling channel, a motor 222 is arranged above the recycling bin 223, a solution bin 221 is arranged above the motor 222, clean water is contained in the solution bin 221 and is communicated with the nozzle of the floor brush 21 through a fluid conveying channel, and a fixing device 30 is arranged above the body 22.

During cleaning, the solution barrel 221 sprays water to the ground through the fluid conveying channel and the nozzle of the floor brush 21, and the suction nozzle on the floor brush 21 recovers dirt and water on the ground into the recovery barrel 223 through the fluid recovery channel under the negative pressure action of the built-in motor.

In this embodiment, the fixing device 30 is located above the solution tank 221, the mobile phone 40 can be fixed on the fixing device 30 of the cleaning machine 20 in an adsorption manner, during cleaning, when the cleaning machine 20 rotates and reciprocates, the mobile phone 40 can be always adsorbed and fixed on the fixing device 30 without dropping under the adsorption action of the fixing device 30, the fixing device 30 does not affect the overall aesthetic measure of the cleaning machine 20, and meanwhile, the arrangement of the fixing device 30 meets the position requirement that the sight line of the user most naturally falls on the cleaning machine 20 when the user operates the cleaning machine 20.

The washing machine 20 may also include a second communication module, which may include a near field communication sensing chip 34.

The intelligent terminal and the cleaning equipment are connected in a near field communication mode, the intelligent terminal needs to be close to the cleaning equipment, and the close can be supported close in various modes. Accordingly, the cleaning device may further comprise a cavity; the adsorption component is arranged in the cavity, so that the intelligent terminal is supported on the outer surface of the cavity through the adsorption component, and the adsorption component comprises a first adsorption part 331 used for adsorbing the intelligent terminal; or, the outer surface of the cavity is provided with a support, so that the intelligent terminal is supported on the outer surface of the cavity through the support. The intelligent terminal is close to and supports on cleaning device through above-mentioned mode, more is favorable to both to establish the short distance wireless communication connection based on NFC connects, the WIFI connects, the bluetooth is connected.

Referring to fig. 1 to 3, the adsorption supporting manner may specifically be: the cleaning device comprises a fixing device 30, wherein the fixing device 30 comprises a cavity and an adsorption component; the outer surface of the cavity is used for placing an intelligent terminal; the adsorption component comprises a first adsorption part 331 for adsorbing the smart terminal; the smart terminal is supported on the fixing device 30 by the first suction member 331 and the suction force between the smart terminals. The first suction fitting 331 may include a plurality of magnets within the cavity, the plurality of magnets being arranged in a linear or curvilinear manner, each magnet having a different polarity from an adjacent magnet at an end facing the outer surface. Among them, the first suction member 331 may include a positive even number of magnets arranged in a circumferential direction. The smart terminal may include a second suction member 41, and the smart terminal is supported on the fixing device 30 by a suction force between the first suction member 331 and the second suction member 41. When the smart terminal is the mobile phone 40, the second attraction piece 41 may be a magnetic attraction piece.

The support mode can be specifically: cleaning device is provided with the support that is used for supporting intelligent terminal, and fixing device 30 relies on the adsorption affinity to support intelligent terminal, if the not hard up or the condition that drops of adsorption component appears, then can lose the ability of supporting intelligent terminal. Adopt the support to support intelligent terminal on cleaning device, compare in adsorbing and support, can not appear that the adsorption component is not hard up or drop and lead to the unable circumstances that adsorbs intelligent terminal.

The cleaning device comprises a second communication module, the cleaning device responds to the approach of the intelligent terminal, and after the second communication module is connected with a first communication module arranged in the intelligent terminal through near field communication, the intelligent terminal is activated, and an instruction for starting the first application program is sent to the first communication module, so that the intelligent terminal automatically starts the first application program arranged in the intelligent terminal. In this embodiment, the intelligent terminal may be a mobile terminal, an intelligent household appliance, an intelligent sound box, or an intelligent wearable device. The mobile terminal may be a cell phone 40, a tablet computer, a notebook computer or other mobile computer. The intelligent terminal is internally provided with a first application program. The first application program may be an application program matched with the cleaning device, and may display data information of the cleaning device or interaction between the cleaning device and the intelligent terminal, and optionally, may set one or more operating parameters of the cleaning device. When the cleaning device and the intelligent terminal are close to each other, near field communication is established between the cleaning device and the intelligent terminal through the first communication module and the second communication module, the cleaning device activates the intelligent terminal, and the intelligent terminal automatically starts the first application program. After the first application program is automatically started, the initial interface of the first application program or the working parameters and the running state information of the cleaning equipment can be displayed.

Optionally, the second communication module may include the near field communication sensing chip 34 and may further include an antenna. When the cleaning equipment is close to the intelligent terminal, the near field communication induction chip 34 is activated, the first communication module is connected with the second communication module in a near field communication mode, the near field communication induction chip 34 sends an instruction to the intelligent terminal, and after the controller of the intelligent terminal receives the instruction, the first application program is automatically started.

The cleaning device may be pre-configured with instructions to launch the first application. Optionally, the instruction to start the first application program may be preset in the second communication module. Further alternatively, the instruction to start the first application program may be preset in the nfc sensor chip 34.

The cleaning device and the intelligent terminal can establish near field communication in the following two ways.

In the first mode, the working mode of the near field communication induction chip 34 is a passive mode, the cleaning device responds to the approach of the intelligent terminal, the intelligent terminal serves as a near field communication main device to provide a radio frequency field and supply power, the cleaning device serves as a near field communication target device, the near field communication induction chip 34 is detected by the first communication module, and the cleaning device and the intelligent terminal establish near field communication through the first communication module and the near field communication induction chip 34. Referring to fig. 5, in the passive mode, the intelligent terminal starts communication according to the selected transmission speed, and 106Kbps, 212Kbps, 424Kbps or other transmission speeds can be selected to transmit data to the cleaning device, and the cleaning device with the passive near field communication function does not need to generate a radio frequency field, but uses a load modulation technology to transmit pre-stored data, such as an instruction instructing the intelligent terminal to turn on the APP or an instruction automatically giving a distribution network to the cleaning device, back to the intelligent terminal at the same transmission speed. Thus, the smart terminal may detect and establish communication with the cleaning device in the passive mode using the same connection and initialization process.

In the second mode, the working mode of the near field communication sensing chip 34 is an active mode, the cleaning device responds to the approach of the intelligent terminal, the cleaning device serves as a main near field communication device to provide a radio frequency field, the intelligent terminal serves as a target near field communication device to also provide a radio frequency field, the near field communication sensing chip 34 actively detects the first communication module, and the cleaning device and the intelligent terminal establish near field communication through the first communication module and the near field communication sensing chip 34. Referring to fig. 6, in the active mode, when the cleaning device communicates with the smart terminal in the near field, both of them must generate their own radio frequency field, which is a standard mode for communicating with the network, and a very fast connection setup can be obtained. The intelligent terminal starts communication according to the selected transmission speed, and the cleaning equipment with the active near field communication function transmits data corresponding to the command, such as an instruction for commanding the intelligent terminal to open an APP, an instruction for automatically distributing a network to the cleaning equipment or interactive data of the cleaning equipment back to the intelligent terminal in a load modulation mode according to the same transmission speed.

For the intelligent terminal and the cleaning equipment with the near field communication function, data interaction between the cleaning equipment and the intelligent terminal can be realized without additional setting by a user. When the intelligent terminal is close to the cleaning equipment or the cleaning equipment is close to the intelligent terminal, the cleaning equipment and the intelligent terminal are in near field communication. For example, when the smart terminal is a cell phone 40, the cell phone 40 may be brought close to the cleaning device; when the smart terminal is a smart speaker and the cleaning device is a handheld cleaner 10, the handheld cleaner 10, which is easy to move, can be brought close to the smart speaker.

When the intelligent terminal is a mobile phone 40 and the cleaning device is a handheld vacuum cleaner 10, when the mobile phone 40 is close to the handheld vacuum cleaner 10 or the mobile phone 40 is supported on the handheld vacuum cleaner 10 in an adsorption supporting or support supporting mode, the NFC sensing chip 34 is activated to establish NFC near-field communication connection with the first communication module of the mobile phone 40, and after the mobile phone 40 receives an instruction of the NFC sensing chip 34, the mobile phone 40 automatically starts a first application program.

Similarly, when the smart terminal is the mobile phone 40 and the cleaning device is the washing machine 20, when the mobile phone 40 is close to the washing machine 20 or the mobile phone 40 is supported on the washing machine 20 by an adsorption support or a support, the NFC sensing chip 34 is activated to establish NFC near-field communication connection with the first communication module of the mobile phone 40, and after the mobile phone 40 receives an instruction of the NFC sensing chip 34, the mobile phone 40 automatically starts the first application program.

The built-in nfc sensor chip 34 of the cleaning device is equivalent to a key for starting the first application program of the smart terminal, and the first application program is automatically started as long as the cleaning device is close to the smart terminal. The user does not need to manually start the application program, the application program matched with the cleaning equipment can be quickly, conveniently and intelligently started, the running state information related to the cleaning equipment is obtained, the working parameters of the cleaning equipment are set, the time is saved, the efficiency is improved, and the user experience is improved.

Due to the short communication distance of the near field communication, the intelligent terminal and the cleaning device must be kept at a close distance all the time in order to realize continuous data interaction. When a user browses interactive data or controls the cleaning device through the first application program, the user must be always in a close distance with the cleaning device, so that the action of the user is limited, the posture of the user is limited, and the user is not convenient and comfortable to use. If the nfc sensor chip 34 of the cleaning device is installed at a lower position, the user needs to bend down or crouch down to realize data interaction between the cleaning device and the smart terminal by using nfc, and the user experience is not good. Therefore, the user may wish to enable data interaction between the cleaning device and the smart terminal using other communication functions than the near field communication connection, such as WIFI or bluetooth, which requires the cleaning device and the smart terminal to establish a WIFI connection or a bluetooth connection through near field communication.

The cleaning equipment and the intelligent terminal establish near field communication connection, and the near field communication connection mainly carries out data information interaction. There are three main modes of communication connection in short-range wireless communication: NFC connection, WIFI connection, bluetooth connection, can establish any one of these three kinds of wireless communication mode between cleaning device and the intelligent terminal to adopt this kind of communication mode to carry out data information's interaction. As a necessary condition, the first communication module of the intelligent terminal comprises an NFC communication assembly, a WIFI communication assembly and a Bluetooth communication assembly, and supports the three communication modes, and the second communication module of the cleaning device comprises the NFC communication assembly, the WIFI communication assembly and the Bluetooth communication assembly and also supports the three communication modes. Optionally, for convenience of a user and efficiency improvement, when the cleaning device is close to the intelligent terminal, NFC near field communication connection is performed first to trigger and activate a first application program of the intelligent terminal to be automatically started; after the first application program is started, the cleaning equipment and the intelligent terminal are switched to be in communication connection with the WIFI or the Bluetooth.

Optionally, when the first application program is started, the user is inquired whether to establish WIFI or bluetooth connection, if the user selects yes, the intelligent terminal and the cleaning device establish WIFI or bluetooth connection, and if the user selects no, the intelligent terminal and the cleaning device establish NFC communication connection. Or after the first citation program starts, entering a home page interface of the first citation program, inquiring the user to select a communication connection mode, and after the user selects the WIFI communication mode, establishing communication connection between the intelligent terminal and the cleaning equipment through the communication mode. And after the user selects the Bluetooth mode, the intelligent terminal establishes communication connection with the cleaning equipment through the Bluetooth mode. And when the user selects the NFC near field communication connection, the intelligent terminal establishes communication connection with the cleaning equipment through the NFC mode.

Optionally, during the wireless communication between the intelligent terminal and the cleaning device, if any one of the communication modes of the first communication module and the second communication module during the wireless communication is established, the wireless communication mode is automatically switched to another communication mode. For example, if a WIFI or bluetooth connection fails or fails, a switch to NFC connection is made; and if the NFC connection fails or fails, automatically switching to WIFI or Bluetooth connection. And multiple optional communication modes can fully ensure the smooth data interaction between the cleaning equipment and the intelligent terminal.

One specific procedure for establishing a short-range wireless communication connection may be: the cleaning equipment sends at least one of an NFC connection request, a WIFI connection request and a Bluetooth connection request to the intelligent terminal through near field communication; the intelligent terminal is close to the cleaning equipment and sends any one of NFC connection information, WIFI connection information and Bluetooth connection information to the cleaning equipment after receiving the short-distance wireless communication connection request; the cleaning device receives any one of NFC connection information, WIFI connection information and Bluetooth connection information. The cleaning equipment establishes NFC-based communication connection with the intelligent terminal through the NFC near field communication induction chip 34; the cleaning equipment is connected to the wireless local area network through the WIFI connection information, WIFI connection between the cleaning equipment and the intelligent terminal is established, and Bluetooth connection between the cleaning equipment and the intelligent terminal is established through connection of the Bluetooth connection information to the intelligent terminal.

When the cleaning device is used for the first time, the cleaning device is often in a state without communication connection. The user wants to browse interactive data and set working parameters at the intelligent terminal, and then not only needs to download specific control software at the intelligent terminal, but also needs to set a wireless communication mode on the cleaning equipment, so that NFC connection, WIFI connection or Bluetooth connection between the cleaning equipment and the intelligent terminal can be realized. Accordingly, the data preset in the cleaning device may further include at least one of an NFC connection request, a WIFI connection request, and a bluetooth connection request.

The WIFI connection information may include an SSID (Service Set Identifier) and a password of the wireless local area network, and the cleaning device is automatically connected to the wireless local area network after obtaining the WIFI connection information. The wireless local area network may be a network external to the intelligent terminal.

The wireless local area network may also be a network provided by a smart terminal. Even if the situation that no external wireless local area network exists or the external wireless local area network is unavailable occurs, the cleaning equipment can still realize WIFI connection between the cleaning equipment and the intelligent terminal through the wireless local area network provided by the intelligent terminal, and WIFI communication is carried out. For example, when the smart terminal is the mobile phone 40, the wireless local area network may be provided by opening a personal hotspot by the mobile phone 40, and even if the user does not have a wireless router at home, the user may still browse the interactive data and control the cleaning device to operate through WIFI communication, which undoubtedly saves the cost of the wireless router. When the smart terminal provides a wireless local area network, the SSID of the wireless local area network may be a device name of the smart terminal and may be user-defined.

The bluetooth connection information may include identification information of the smart terminal. The identification information is a unique identification of the intelligent terminal. The bluetooth connection information may be a device name of the smart terminal and may be user-defined.

Another specific process for establishing a WIFI connection or a bluetooth connection may be: the cleaning equipment sends WIFI connection information or Bluetooth connection information to the intelligent terminal through near field communication; the intelligent terminal receives WIFI connection information or Bluetooth connection information through near field communication; the intelligent terminal is connected to the wireless local area network through the WIFI connection information, WIFI connection between the cleaning equipment and the intelligent terminal is established, and Bluetooth connection between the cleaning equipment and the intelligent terminal is established through connection of the Bluetooth connection information to the cleaning equipment.

For a smart terminal that is not connected to a wireless local area network, if the cleaning device is already connected to the wireless local area network or the cleaning device is capable of providing the wireless local area network, the SSID and password of the wireless local area network may be transmitted to the smart terminal by the cleaning device via near field communication, and the smart terminal automatically connects to the wireless local area network according to the SSID and password of the wireless local area network. At this time, the data preset in the cleaning apparatus may include WIFI connection information. Under the condition that the intelligent terminal is not connected to the wireless local area network, a user can enable the intelligent terminal and the cleaning equipment to be close to each other, and the intelligent terminal is quickly connected to the wireless local area network through near field communication.

In the Bluetooth connection process, one mode is to enable the cleaning device to be connected to the intelligent terminal according to the identification information of the intelligent terminal, and the other mode is to enable the intelligent terminal to be connected to the cleaning device according to the identification of the cleaning device. Accordingly, the data preset in the cleaning apparatus may include bluetooth connection information. At this time, the bluetooth connection information may include identification information of the cleaning apparatus.

Because the communication distance between the WIFI connection and the Bluetooth connection is long, in the subsequent data interaction process, the intelligent terminal and the cleaning equipment do not need to be kept at a close near-field communication distance, and a user can browse interaction data and control the cleaning equipment through the first application program at a far distance in a comfortable posture, so that the user experience of using the cleaning equipment is improved.

In actual use, a user can enable the cleaning equipment to be close to the intelligent terminal, the starting of the first application program, the WIFI connection and the Bluetooth connection between the intelligent terminal and the cleaning equipment are completed quickly by utilizing near field communication within a short time, and then the user can browse interaction data or send a control instruction to the cleaning equipment through the first application program at any place with WIFI or within a communication distance of Bluetooth in the house. In the whole process, the user only needs to complete the action of approaching the intelligent terminal and the cleaning equipment, and the other actions can be automatically completed by the intelligent terminal and the cleaning equipment, and the first application program does not need to be manually started or the WIFI connection and the Bluetooth connection do not need to be manually started, so that the operation steps of the user are simplified, the intelligent degree of the cleaning equipment is improved, the use is convenient and fast, and the time cost of the user is saved.

Because the electric quantity of the intelligent terminal can be consumed by near field communication, after the WIFI connection or the Bluetooth connection between the intelligent terminal and the cleaning equipment is established, the NFC near field communication function of the intelligent terminal can be closed, and only the WIFI communication or the Bluetooth communication is used in the data interaction process after the WIFI connection or the Bluetooth connection. Optionally, the cleaning device may send an instruction to the smart terminal to turn off the NFC near-field communication module. After receiving the instruction of closing the NFC near field communication function, the intelligent terminal closes the NFC near field communication function, so that the power consumption factor of the NFC near field communication is prevented from consuming more electric quantity, the endurance time of the intelligent terminal is longer, and unnecessary energy waste is saved.

The cleaning equipment adopts an active mode for data interaction, the near field communication function of the cleaning equipment can be closed together, the electric quantity of the cleaning equipment consumed by the near field communication function is avoided, and unnecessary energy waste is further saved.

When multiple communication modes exist in data interaction between the cleaning equipment and the intelligent terminal, the priority order of the communication modes can be preset. Optionally, the cleaning device preferentially sends the interactive data to the intelligent terminal through NFC near field communication, and when the interactive data cannot be sent to the intelligent terminal through NFC near field communication, the interactive data is sent to the intelligent terminal through WIFI communication or bluetooth communication. NFC near field communication security is high, adopts NFC near field communication's mode to carry out data interaction as much as possible, can guarantee higher security, when surpassing NFC near field communication's communication distance, automatic switch to WIFI again connects or the bluetooth is connected to on the basis of guaranteeing that data interaction goes on smoothly between cleaning device and the intelligent terminal, make communication security as high as possible.

In some other embodiments, the application further provides a cleaning device, which includes a display unit and a second communication module, where the second application is built in, the cleaning device responds to the approach of the intelligent terminal, the second communication module feeds back to a controller of the cleaning device after being connected to the first communication module built in the intelligent terminal through near field communication, and the controller of the cleaning device receives a first control instruction preset by the intelligent terminal and automatically starts the second application of the display unit. If the cleaning equipment comprises the display unit and a second application program is arranged in the cleaning equipment, when the cleaning equipment is close to the intelligent terminal, the controller of the cleaning equipment can automatically start the second application program, and displays interactive data in the second application program through the display unit for a user to browse and receive the setting of the user on working parameters. The intelligent terminal has the advantages that when a user browses other contents by using the intelligent terminal, the user can know interactive data and set working parameters through the display unit of the cleaning equipment.

In one practical application, the intelligent terminal is an intelligent sound box, and the dust collector is a handheld dust collector 10. When the handheld dust collector 10 is close to the smart sound box, or the handheld dust collector 10 is supported on the smart sound box in a manner of being supported by an adsorption support or a support, the smart sound box starts the first application program. The handheld vacuum cleaner 10 and the smart speaker may establish a WIFI connection or a bluetooth connection through near field communication. In another practical application, the cleaner 20 replaces the hand-held cleaner 10, and the principle of this embodiment is similar to that of the above-described embodiment, and will not be described again here.

The interactive data in the embodiment of the application may include running state information, life information, and battery information, and may also include picture information or video information of a corner difficult to clean, which is shot by a camera of the cleaner or the washing machine 20.

With respect to the above-described cleaning apparatus, such as the vacuum cleaner and the washing machine 20, the embodiment of the present application also provides a corresponding communication method. Since the method embodiments are substantially similar to the product embodiments, reference may be made to some of the descriptions of the product embodiments for relevant points, and the method embodiments described below are merely illustrative.

Referring to fig. 8, an embodiment of the present application further provides a communication method for a vacuum cleaner, including the following steps: s1: responding to the approach of the intelligent terminal, and connecting a first communication module built in the intelligent terminal through near field communication; s2: and sending an instruction for starting the first application program to the first communication module, and activating the intelligent terminal so that the intelligent terminal automatically starts the built-in first application program.

In some embodiments, S1 may include: responding to the approach of the intelligent terminal, actively detecting the first communication module, and connecting the first communication module through near field communication.

In some embodiments, S1 may include: and responding to the approach of the intelligent terminal, detecting by the first communication module, and connecting the first communication module through near field communication.

In some embodiments, the method may further comprise: before the intelligent terminal automatically starts the first application program, establishing near field communication connection with the intelligent terminal; after the intelligent terminal automatically starts the first application program, WIFI connection or Bluetooth connection is established with the intelligent terminal.

In some embodiments, after the intelligent terminal automatically starts the first application program, establishing a WIFI connection or a bluetooth connection with the intelligent terminal may include: after the intelligent terminal automatically starts the first application program, sending an instruction for inquiring whether a user starts WIFI connection or Bluetooth connection to the first communication module so that the intelligent terminal inquires whether the user starts the WIFI connection or the Bluetooth connection through the first application program; if yes, establishing WIFI connection or Bluetooth connection with the intelligent terminal; and if not, establishing near field communication connection with the intelligent terminal.

In some embodiments, the method may further comprise: responding to the approach of the intelligent terminal, and receiving an instruction for starting a second application program sent by a first communication module after the intelligent terminal is connected with the first communication module through near field communication; and starting a second application program on a display unit of the dust collector.

The embodiment of the present application further provides a communication method for the cleaning machine 20, which includes the following steps: s1: responding to the approach of the intelligent terminal, and connecting a first communication module built in the intelligent terminal through near field communication; s2: and sending the instruction for starting the first application program to the first communication module, and activating the intelligent terminal so that the intelligent terminal automatically starts the built-in first application program.

In some embodiments, the method may further comprise: responding to the approach of the intelligent terminal, and receiving an instruction for starting a second application program sent by a first communication module after the intelligent terminal is connected with the first communication module through near field communication; the second application is started on the display unit of the washing machine 20.

The foregoing description and drawings are only for purposes of illustrating the preferred embodiments of the present application and are not intended to limit the present application, which is, therefore, to the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the present application.

Claims

1. A vacuum cleaner, characterized in that the vacuum cleaner comprises a second communication module;

2. The vacuum cleaner of claim 1, wherein the vacuum cleaner sends an instruction to start a first application to the first communication module to activate the smart terminal.

3. The vacuum cleaner of claim 1, wherein the second communication module comprises a Near Field Communication (NFC) sensing chip that sends the instruction to start the first application to the first communication module.

4. The dust collector of claim 1, wherein before the intelligent terminal automatically starts the first application, the dust collector establishes a near field communication connection with the intelligent terminal;

5. The vacuum cleaner according to claim 4, wherein after the intelligent terminal automatically starts the first application program, the second communication module sends an instruction inquiring whether a user starts a WIFI connection or a Bluetooth connection to the first communication module, so that the intelligent terminal inquires whether the user starts the WIFI connection or the Bluetooth connection through the first application program;

6. The vacuum cleaner of claim 1, further comprising a display unit in which a second application is built;

7. The vacuum cleaner of claims 1-6, further comprising a cavity;

8. A method of communicating with a vacuum cleaner, comprising:

9. The communication method of the vacuum cleaner according to claim 8, further comprising:

10. The communication method of the vacuum cleaner as claimed in claim 9, wherein the establishing a WIFI connection or a bluetooth connection with the smart terminal after the smart terminal automatically starts the first application program comprises:

11. The communication method of the vacuum cleaner according to claim 8, further comprising: