KR20190098851A - Method for Registering Payment Means for Conversational Mode Payment by Using Air Cleaning Device in Car - Google Patents

Abstract

The present invention relates to a method for registering a payment means for interactive payment using an air purification apparatus, capable of providing various kinds of interactive services. According to the present invention, the method of an operation service comprises: a step of receiving unique device information uniquely identifying an air purification apparatus; a step of receiving vehicle information of a vehicle including the air purification apparatus and wireless terminal information of a user wireless terminal; a step of confirming unique identification information for communicating with an application of the user wireless terminal; a step of confirming a token generated from being exchanged between an operation module of the air purification apparatus and the application of the user wireless terminal; a step of performing an authentication procedure; a step of confirming payment means information corresponding to a payment means which is requested by a user to be registered; and a step of mapping and storing the payment means information with at least one pieces of information stored in a storage medium, or mapping and storing identification code information identifying the payment means information stored in an issuance company server issuing the payment means corresponding to the payment means information with at least one piece of information stored in the storage medium.

Description

Method for Registering Payment Means for Conversational Mode Payment by Using Air Cleaning Device in Car}

According to the present invention, a predetermined number of photocatalyst panels in which a plurality of silicon-component beads coated with a photocatalytic material are coated in a panel form and a predetermined number of UV lamps emitting UV in a UV (UltraViolet) -A wavelength band are arranged in a specified geometric relationship. A network communication function and a short distance which are provided with an air purification module and connect to a communication network through at least one wireless network communication to provide a service by recognizing the situation in the vehicle while operating the air purification inside the vehicle through the air purification module. Sound wave that transmits / receives information through sound wave signal with OBD interworking function linked with vehicle OBD (On-Board Diagnostics) through wireless communication, voice recognition function to recognize user's utterance and voice output function to output voice to user. The vehicle is equipped with an air purifier equipped with an operation module having a transmission function and a sound wave reception function. Determine whether a given user's available wireless terminal and uniquely linked to the state in the vehicle in order to be registered in advance to the payment method of the user to the payment service and at the same time registering the air purifier.

The vehicle's On-Board Diagnostics (OBD) is a vehicle diagnostic / monitoring system integrated in an engine control system. OBD monitors all the systems inside the vehicle throughout the entire driving area and processes them so that they can be connected to the OBD scanner via the standard interface. On the other hand, if a fault occurs during vehicle diagnosis / monitoring, the OBD stores the fault history in the ECU, and the OBD scanner can query the standard interface.

On the other hand, in addition to the vehicle diagnostic / monitoring service using a well-known OBD scanner, an OBD adapter equipped with a recent Bluetooth function and a standard interface is connected to a standard interface of the vehicle OBD to obtain vehicle status information and extract an emergency signal through the Bluetooth function. An emergency situation notification system (Patent Publication No. 10-2011-0113379 (October 17, 2011)) for transmitting an emergency signal to a terminal device of a broadband network using a mobile communication terminal as a bridge has been known.

However, the service provided by the vehicle OBD in addition to the vehicle diagnostic / monitoring service using the OBD scanner in the related art uses a method of providing a service by interworking the mobile communication terminal with the vehicle OBD, and a separate device instead of the mobile communication terminal. Even though it is linked with the vehicle OBD through the use of the method of using the mobile terminal as a bridge for communication connection in the end, in this case, the resources of the mobile terminal is continuously occupied and used to provide the service using the vehicle OBD There is a problem in that the original functions (eg, telephone calls, the Internet, etc.) are limited.

On the other hand, the air purifier is a device that cleans the air by filtering out dust and bacteria in the air, it is widely used in homes and offices, etc. Recently, it has been developed for the vehicle has also been made in the form of mounting on the vehicle.

However, recently known vehicle air purifiers are cumbersome to periodically replace the filters, and there is only a simple air purifying function.

An object of the present invention for solving the above problems is to emit a UV of UV (UltraViolet) -A wavelength band and a predetermined number of photocatalyst panels in which a plurality of silicon component beads coated with a photocatalytic material are integrally formed in a panel form. At least one wireless network communication having an air purifying module having a predetermined number of UV lamps arranged in a specified geometric relationship, and operating the air purification in the vehicle through the air purifying module to recognize a situation in the vehicle and provide a service. Network communication function to connect to the communication network via OBD, OBD interworking function that works with vehicle OBD (On-Board Diagnostics) through short range wireless communication, voice recognition function to recognize the user's utterance and voice output function to output voice to the user. It is equipped with a sound wave transmission function for transmitting and receiving information through a sound wave signal and an operation module having a sound wave reception function. Check that the purifier is equipped in the vehicle and can be interoperable with the designated user's wireless terminal in the vehicle for the payment service to register the air purifier and to prepay the user's payment means for the payment service. The present invention provides a method of registering a payment method for interactive payment using an air purifying apparatus.

An object of the present invention, when registering the air purification device for sound wave communication with the app of the user wireless terminal in the vehicle in the air purification apparatus to the basic signal for outputting the sound wave signal sound wave signal for effective sound communication with the app of the user's wireless terminal It is to provide a method of registering a payment means for the interactive payment using the air purifier to set up so that the app of the air purifier and the user wireless terminal in the vehicle effectively sound wave communication.

The payment method for interactive payment using the air purifying apparatus according to the present invention includes a predetermined number of photocatalyst panels and UV (UltraViolet) -A wavelengths in which a plurality of silicon component beads coated with a photocatalytic material are integrally formed in a panel form. It is equipped with the air purifying module which arranges the designated number of UV lamps in the specified geometric relation to emit the UV of the band, and operates the air purifying function to purify the air, and connects to the communication network and the vehicle OBD ( OBD interworking function in conjunction with On-Board Diagnostics), voice recognition function to recognize the user's utterance, voice output function to output the voice to the user, and sound wave transmission function to output the sound wave signal encoding the string of bits to be transmitted Air purification plant equipped with an operation module having a sound wave receiving function for recognizing a string of bits encoded in an input sound wave signal In the method executed through the operating server for communicating with the device, the operating server receives the device specific information for uniquely identifying the air purifier according to a procedure specified through the network communication function of the operation module of the air purifier, The first step of receiving the vehicle information of the vehicle equipped with the air purifying device and the wireless terminal information of the user wireless terminal and the app specified in the user wireless terminal is installed, the operating server to communicate with the app of the user wireless terminal A second step of identifying the unique identification information for the token and the generated token for exchanging between the air purifier's operating module and the app of the user's wireless terminal; A third step of performing an authentication procedure for confirming that the token is effectively exchanged through a designated sound wave signal between apps of A fourth step of confirming payment means information corresponding to a payment means requested for registration from a user, based on the interworking with the step of exchanging the token by the operation server or by the operation server; At least two of the device specific information of the air purifier, the wireless terminal information of the user wireless terminal, the unique identification information for communicating with the app of the user wireless terminal, and the vehicle information of the vehicle are mapped and stored in a designated storage medium, Store the payment means information by mapping with at least one information stored in the storage medium or identification code information for identifying payment means information stored in the issuer server that issued the payment means corresponding to the payment means information in the storage medium. And a fifth step of mapping and storing the at least one information stored in the storage device. The.

In the method of registering payment means for interactive payment using the air purifier according to the present invention, when power is input to the air purifier, the operation module of the air purifier reads or stores information stored in a designated storage area. And confirming a device registration state by communicating with the operation server through a network communication function.

In the method of registering payment means for interactive payment using the air purifier according to the present invention, when power is input to the air purifier, the operation module of the air purifier reads the information stored in the designated storage area and the vehicle. Checking a pairing state with the OBD module connected to the OBD for short-range wireless communication, and performing a procedure of pairing the OBD module with the OBD module through the short-range wireless communication when not paired. Characterized in that further comprises.

In the method of registering a payment means for interactive payment using an air purifying apparatus according to the present invention, the first step includes the operation module of the air purifying apparatus inducing utterance of vehicle information to a user through the voice output function. While outputting the voice and transmitting the vehicle information obtained by recognizing the voice uttered by the user through the voice recognition function according to the designated procedure through the network communication function, the operation server is the voice from the operation module of the air purifier And receiving the recognized vehicle information.

In the method of registering a payment means for interactive payment using an air purifying apparatus according to the present invention, the first step is, when the input of the vehicle information of the user is transmitted from the app of the user wireless terminal, the operation server is the user wireless Receiving the vehicle information from the app of the terminal, characterized in that made.

In the payment method registration method for the interactive payment using the air purifier according to the present invention, the first step, the operation module of the air purifier induces the utterance of wireless terminal information to the user through the voice output function Recognizing the voice spoken by the user through the voice recognition function and transmitting wireless terminal information according to the designated procedure through the network communication function while outputting the voice, the operation server sends the voice from the operation module of the air purifier. And receiving the recognized wireless terminal information.

In the method for registering payment means for interactive payment using the air purifier according to the present invention, when the wireless terminal information is received from the operation module of the air purifier, the user is assigned to the wireless terminal information corresponding to the wireless terminal information. Characterized in that the step further comprises the step of checking the app is installed.

In the payment method registration method for the interactive payment using the air purifier according to the present invention, the app check step, the user terminal by confirming whether the wireless terminal information and the valid unique identification information is stored in the designated storage medium mapping Characterized in that comprises the step of checking whether the specified app is installed on the terminal.

In the payment means registration method for the interactive payment using the air purifier according to the present invention, the app confirmation step, when the app specified in the user wireless terminal is not installed, the operation server is operating the air purifier The voice output function of the module is characterized in that it further comprises the step of outputting a voice for inducing the installation of the app specified in the user wireless terminal.

In the payment means registration method for the interactive payment using the air purifier according to the present invention, the app confirmation step, if the app specified in the user wireless terminal is not installed, the operating server through the wireless terminal information Characterized in that it further comprises the step of processing to send a message for inducing the installation of the designated app to the user wireless terminal.

In the method of registering a payment means for interactive payment using an air purifying apparatus according to the present invention, the first step is, when the user's wireless terminal information is transmitted from an app of the user's wireless terminal, the operating server is the user's wireless terminal Receiving the wireless terminal information from the app, characterized in that it comprises a.

In the method for registering payment means for interactive payment using the air purifier according to the present invention, before performing the authentication procedure for exchanging the token, the operation server transmits and receives sound waves in the vehicle through the operation module of the air purifier. And processing to output voice output information for guiding the environment to a designated reference sound wave communication environment.

In the payment means registration method for the interactive payment using the air purifier according to the present invention, the reference sound wave communication environment, the environment including the environment in which the start of the vehicle is turned on or running while the doors and windows of the vehicle are all closed It is characterized by.

In the method of registering a payment means for interactive payment using an air purifier according to the present invention, in the third step, the operation server transmits the token to an operation module of an air purifier corresponding to the device specific information. And processing the sound wave to be transmitted through the sound wave transmission function of the operation module of the air purifier, and checking whether the operation server receives the token from an app of the user wireless terminal corresponding to the unique identification information. It is characterized by.

In the method of registering payment means for the interactive payment using the air purifier according to the present invention, when the token is transmitted from the operation server to the operation module of the air purifier provided in the vehicle, the operation server is the air purifier Checking at least one sound wave output intensity information for transmitting a sound wave signal encoding the token exchange information including the token through an operation module of the user; and when the operation server receives a token from an app of the user wireless terminal, Receiving at least one sound wave reception intensity information identified in the process of recognizing the token through the app of the wireless terminal and the air purification device at least one sound wave reception strength information confirmed by the operating server through the app of the user wireless terminal Matching comparison analysis of one or more sound wave output intensity information from the sound module Determining a basic signal strength for outputting a sound wave signal for effective sound wave communication between the air purifier and an app of a user's wireless terminal in the vehicle; and setting the basic strength including the determined basic signal strength by the operation server. And transmitting the information to the operation module of the air purifier, wherein the basic signal strength is set to a signal intensity for outputting sound wave signals for sound wave communication in the operation module of the air purifier. .

In the payment method registration method for the interactive payment using the air purifier according to the present invention, in the third step, the operational server transmits the sound wave by transmitting the token to the app of the user wireless terminal through the unique identification information And the operation server checking whether the token is recognized and received through a network communication function through a sound wave reception function of an operation module of an air purification device corresponding to the device specific information. do.

In the method of registering a payment means for interactive payment using an air purifier according to the present invention, when the token is transmitted from the operation server to the app of the user wireless terminal in the vehicle, the operation server of the user wireless terminal Confirming at least one sound wave output intensity information for transmitting a sound wave signal encoding the token exchange information including the token through an app, and when the operation server receives a token from the operation module of the air purifier, the air purification Receiving at least one sound wave reception intensity information identified in the process of recognizing the token through the operation module of the device and the user and at least one sound wave reception intensity information confirmed by the operation module of the air purifying device and the user Matching of one or more sound wave output intensity information that outputs sound wave signal from app of wireless terminal Analyzing and determining a basic signal intensity for outputting a sound wave signal for effective sound wave communication between the operating module of the air purifier and an app of a user's wireless terminal in the vehicle; and the operating server includes the determined basic signal intensity. And transmitting the basic intensity setting information to an operation module of the air purifier, wherein the basic signal strength is set to a signal intensity for outputting sound wave signals for sound wave communication in the operation module of the air purifier. It is characterized by.

In the method of registering payment means for the interactive payment using the air purifier according to the present invention, the operation server further comprises the step of transmitting the basic strength setting information including the determined basic signal strength to the app of the user wireless terminal; The basic signal strength may be set to a signal strength for outputting a sound wave signal for sound wave communication in an app of the user's wireless terminal.

In the payment means registration method for the interactive payment using the air purifier according to the present invention, the fourth step is characterized in that it comprises the step of receiving the payment means information from the app of the user wireless terminal. .

In the method of registering payment means for interactive payment using the air purifier according to the present invention, the fourth step is input through an app of the user's wireless terminal and transmitted through sound waves, and then through an operating module of the air purifier. And receiving the payment means information transmitted by the sound wave and transmitted through a network communication function.

According to the present invention, a predetermined number of photocatalyst panels in which a plurality of silicon-component beads coated with a photocatalytic material are formed into a panel form and a predetermined number of UV lamp units emitting UVs in the UV (UltraViolet) -A wavelength band are designated. OBD interworking with the vehicle OBD and the network communication function connected to the communication network to provide a service to recognize the situation in the vehicle while operating the air purification inside the vehicle through the air purification module Operation module equipped with the function and the voice recognition function to recognize the user's utterance, the voice output function to output the voice to the user and the sound wave transmission function and the sound wave reception function to communicate by transmitting and receiving sound waves with the mobile terminal of the mobile phone user in the vehicle The provided air purifier is provided in the vehicle and registered in the operation server through the air purifier. As well as air purification services, there is an advantage in providing various services interactively.

According to the present invention, when providing a payment service requiring a security function among the services provided through the air purifier provided in the vehicle, the air purifier provided in the vehicle and the user's wireless terminal in the vehicle By generating sound wave communication based on sound wave transmission and reception and providing the payment service, there is an advantage of providing a secure and convenient payment service that can not be illegally seized from outside the vehicle when the user carries a designated wireless terminal and boards the vehicle. .

1 is a diagram showing the configuration of a system for registering an air purifier 200 according to an embodiment of the present invention.
2 is a view showing a functional configuration of the air purifier 200 according to the embodiment of the present invention.
3 is a view showing a functional configuration of the operation module 300 provided in the air purifying apparatus 200 according to the embodiment of the present invention.
4 is a diagram illustrating an information transmission and reception process for registering the air purifier 200 according to an embodiment of the present invention.
5 is a diagram illustrating a token authentication process for registering the air purifier 200 according to an embodiment of the present invention.
6 is a view illustrating a token authentication process for registering the air purifier 200 according to another embodiment of the present invention.
7 is a diagram illustrating a registration process of the air purifier 200 according to the embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

That is, the following embodiments correspond to embodiments of the preferred union form among many embodiments of the present invention, and embodiments or omit specific configurations (or steps) in the following embodiments. An embodiment of dividing a function implemented in a specific configuration (or step), or an embodiment, a specific configuration (or step) incorporating a function implemented in two or more configurations (or steps) into one configuration (or step). Embodiments to replace the order of operation, etc., unless explicitly stated otherwise in the following examples will be apparent that all belong to the scope of the present invention. Therefore, it is to be noted that various embodiments corresponding to a subset or a filter based on the following examples may be divided retrospectively according to the filing date of the present invention.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom. Therefore, the definition should be made based on the contents throughout the present invention.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is only.

1 is a view showing the configuration of the air purifying device 200 and the payment means registration system according to an embodiment of the present invention.

In more detail, in FIG. 1, a predetermined number of photocatalyst panels in which a plurality of silicon-component beads coated with a photocatalytic material are coated in a panel form and a predetermined number of UV lamps that emit UV light in a UV (UltraViolet) -A wavelength band On-Board Diagnostics (OBD) through near field communication and network communication function that connects to communication network through at least one wireless network communication while operating air purification function to purify air with geometrically arranged air purification module Operation module with sound wave transmission function and sound wave reception function for transmitting and receiving information through sound wave signal, and having OBD interworking function and voice recognition function for recognizing user's speech and voice output function for outputting voice to user. 300 is provided with the air purifier 200 is provided in the vehicle and the user wireless end designated in the vehicle for the payment service The configuration of a system for registering the air purifying apparatus 200 by confirming whether it is in a uniquely interlockable state with the horse 190 and at the same time registering the user's payment means for a payment service. Those skilled in the art may refer to and / or modify the present invention in various ways to implement the air purifying apparatus 200 and the payment means registration system (for example, some components may be omitted, or It is possible to infer a subdivided or combined implementation method), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG.

The system of the present invention includes a network communication function for connecting to a communication network through at least one wireless network communication, an OBD interworking function for interworking with the vehicle OBD through short range wireless communication, a voice recognition function for recognizing a user's speech, and a voice to a user. An air purifier (200) having a sound output function and a sound wave transmission function and a sound wave reception function for transmitting and receiving information through a designated sound wave signal, and an air purifier (200) connected to a vehicle OBD through short-range wireless communication. OBD module 180 that interoperates with the user, a user wireless terminal installed with an app having a function for transmitting and receiving information to and from the air purifier 200 through a specified sound wave signal and the air purifier 200 Interworking with the air purifier 200 through a network communication function of a) and interworking with the user wireless terminal 190 via a designated communication path, and the user with the air purifier 200 Check the information exchange of the sound wave transmission and reception based on the line between the terminal 190 and comprises a production server 100 to perform a procedure for providing various services. For convenience, the figure 1 shows an operation server 100 as one server, but the present invention is not limited thereto, and the operation server 100 is implemented in software form on a server combination or two or more servers. All embodiments may be included and are not limited by the specific physical configuration or name.

The air purifier 200 is a generic term for a device provided in a vehicle and interactively interfaced with a user to provide various services. Mounted on a call-sol box, etc., or built into the vehicle, and may be embedded in the vehicle.

According to the exemplary embodiment of the present invention, the air purifier 200 is configured to communicate with the user through the OBD interworking function linked with the vehicle OBD through a short distance wireless communication and a network communication function connected to the communication network to interactively interface with the user. It has a voice recognition function for recognizing and a voice output function for outputting a voice to the user, and a sound wave transmission function for transmitting and receiving information through a designated sound wave signal to uniquely interwork with the user wireless terminal 190 designated for the payment service; A sound wave reception function may be further provided. A detailed description of the air purifier 200 will be made with reference to FIG. 2.

The vehicle has an OBD port for connecting to the vehicle OBD according to the standard after the OBD-II near the driver's seat, the OBD module 180 is connected to the OBD port of the vehicle (not shown), and through the connection portion A scan unit (not shown) that operates by receiving operating power from the OBD port and scans OBD information according to a designated OBD standard from the vehicle OBD through the connection unit, and operates through a specified operating range applied from the OBD port A short range wireless module (not shown) is paired with the air purifier 200 through a wireless communication protocol and performs short range wireless communication with the air purifier 200 through the short range wireless communication. The short range wireless module transmits OBD information (or driving information, status information, etc.) obtained from the vehicle OBD through the scan unit according to a communication protocol agreed with the air purifier 200 to the air purifier 200. Near field wireless transmission. Preferably, the OBD module 180 may be composed of the air purifier 200 and a set.

The user wireless terminal 190 is installed by the user and the app interlocking with the air purifier 200 for a specified service including a payment service in a vehicle equipped with the air purifier 200 As a generic term for a wireless communication device, it may include a smart phone, a mobile phone, a mobile communication device, a tablet PC, etc. of a user who has preferably installed and executed a designated app.

According to an embodiment of the present invention, the user wireless terminal 190 has a communication configuration for connecting to a communication network through at least one wireless network communication and a sound wave input / output configuration for inputting and outputting a specified sound wave signal to maintain an active state at all times. Preferably, the app installed in the wireless terminal can be driven without a separate user operation and at the same time can use the communication configuration and sound wave input and output configuration.

The operation server 100 is a generic term of the server-side configuration that interworks with the air purifier 200 through the network communication function of the air purifier 200, the network communication function provided in the air purifier 200, Hardware that performs the server-side procedure specified to be performed on the server side to provide various services by interlocking two or more functions among the OBD interworking function, voice recognition function, voice output function, sound wave transmission function, and sound wave reception function in a specified order. And / or generic term for software configuration.

According to an embodiment of the present invention, the operation server 100 may independently provide various services (eg, provide a notification service) through the air purifier 200, and various services according to the implementation method. Interworking with the specified server to provide a (e.g., interworking with the voice recognition server for server type voice recognition, interworking with the message sending server for the notification service to the user wireless terminal 190, interworking with the payment server for payment service, finance Interworking with financial servers for transactions, interlocking with order servers for ordering services, interlocking with fueling servers for refueling services, and shopping servers for shopping services, etc.). On the other hand, according to the implementation method, it is possible to be provided with a function of the server to be interlocked for various services in the operation server 100, whereby the present invention is not limited.

According to the exemplary embodiment of the present invention, the operation server 100 may communicate with the user wireless terminal 190 installed with the designated app via the designated communication path. Preferably, the operation server 100 communicates with an app of the user wireless terminal 190 or interworks with or manages a designated server (for example, an app of the wireless terminal) that interworks with an app of the user wireless terminal 190. It can communicate with the app of the user wireless terminal 190 via a management server (not shown) or a relay server (not shown) relaying the wireless terminal and the operation server 100.

Referring to FIG. 1, the operation server 100 receives device specific information for uniquely identifying the air purifier 200 according to a procedure specified through a network communication function of the air purifier 200. An information receiver 105 for receiving vehicle information of a vehicle having an air purifier 200 and wireless terminal information of the user wireless terminal 190, and an app designated to the user wireless terminal 190 corresponding to the wireless terminal information. And a terminal identification unit 110 for confirming unique identification information for communicating with an app of the user wireless terminal 190 when the app designated in the user wireless terminal 190 is installed, and the air purification. Token confirmation unit 115 for confirming the generated token to exchange through the specified sound wave signal between the device 200 and the app of the user wireless terminal 190, the air purifier 200 and the user wireless terminal ( Between 190 apps Token is effectively exchanged between the token authentication unit 120 and the app of the air purifier 200 and the user wireless terminal 190 to perform an authentication procedure for confirming that the token is effectively exchanged through a predetermined sound wave signal. The device specific information of the air purifier 200 and the wireless terminal information of the user wireless terminal 190 and the unique identification information for communicating with the app of the user wireless terminal 190 and the vehicle information designated and stored It is provided with an information storage unit 130 to store in the medium, and effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 in the vehicle in conjunction with the authentication process of the token authentication unit 120 At least for determining the basic signal strength for outputting the sound wave signal for setting and the basic signal strength of the sound wave signal output for the sound wave communication in the air purification apparatus 200 or the user wireless terminal 190 The apparatus further includes a signal strength setting unit 125 that performs one procedure.

The air purifier 200 reads the registration status check information stored in a designated storage area when power is input to the air purifier 200 or starts operation to communicate with the operation server 100 through the network communication function. Check the device registration status. According to an exemplary embodiment of the present invention, when the air purifier 200 is registered in the operation server 100, the device registration state of the air purifier 200 is checked in a designated storage area of the air purifier 200. Possible registration status confirmation information may be stored, in which case the air purifier 200 reads whether the registration status confirmation information for registering the air purifier 200 is stored in the designated storage area or By checking whether the registration status check information stored in the designated storage area corresponds to the registered state of the air purifier 200, it is possible to check whether the air purifier 200 is registered in the operation server 100. Meanwhile, according to another exemplary embodiment of the present invention, when the air purifier 200 starts to operate by inputting power, the operation server 100 attempts to communicate with the operation server 100 through the network communication function. By transmitting the device specific information of the air purification apparatus 200 to request whether the air purification apparatus 200 corresponding to the device specific information is registered state, the operation server 100 to the specified storage medium It is possible to generate registration status confirmation information on whether the unique information is registered and send it to the air purifier 200, in which case the air purifier 200 receives the registration status confirmation information from the operation server 100. By receiving and reading, it is possible to check whether the air purifier 200 is registered in the operation server 100. Preferably, when the air purifier 200 is not registered in the operation server 100, the air purifier 200 registers the air purifier 200 in the operation server 100. You can decide to perform the procedure.

On the other hand, the air purifier 200 reads short-range wireless status check information stored in a designated storage area when power is supplied to the air purifier 200 and starts operation. Check if it is paired for communication. If the short range wireless communication is not paired with the OBD module 180, the air purifier 200 pairs with the OBD module 180 through the short range wireless communication according to a designated pairing protocol of the short range wireless communication. The procedure can be performed. On the other hand, when the air purifier 200 and the OBD module 180 are unpaired and newly (or again) paired, the air purifier 200 is connected to the operation server 100 by the air purifier ( 200 may be determined to perform the procedure of registering (or re-registering or updating).

If it is determined to register the air purifier 200 to the operation server 100, the air purifier 200 is the voice output information designated to start the registration procedure of the air purifier 200 through a voice output function While outputting the voice, the voice recognition function checks whether the voice recognition information including a keyword (eg, a command keyword, an instruction keyword, etc.) designated to start the registration procedure of the air purifier 200 is recognized. If a designated keyword is input through the voice recognition function, the air purifier 200 checks device specific information that uniquely identifies the air purifier 200 from a designated storage area, and through the network communication function. The device specific information may be transmitted to the operation server 100, or registration request information including the device specific information may be transmitted to the operation server 100. In this case, the information receiver 105 may receive the device specific information from the air purifier 200 or receive registration request information including the device specific information.

According to the first vehicle registration embodiment of the present invention, the air purifier 200 voice-recognizes vehicle information of the vehicle equipped with the air purifier 200 through the voice recognition function, and performs the network communication function. The vehicle information may further include a function of transmitting the vehicle information to the operation server 100 or the registration request information including the vehicle information to the operation server 100. Preferably, the air purifier 200 confirms the vehicle information obtained by recognizing the voice uttered by the user through the voice recognition function while outputting a voice for inducing utterance of the vehicle information to the user through the voice output function. The vehicle information may be transmitted to the operation server 100 or the registration request information including the vehicle information may be transmitted to the operation server 100 through the network communication function. In this case, the information receiver 105 may receive the vehicle information from the air purifier 200 or receive registration request information including the vehicle information.

According to the second vehicle registration embodiment of the present invention, the vehicle information is initially driven after the app designated in the user wireless terminal 190 is installed (or driven before registration of the vehicle information). ) Can be registered through the driven app of the user wireless terminal 190. Preferably, when the vehicle information of the user is input and transmitted in the app of the user wireless terminal 190, the information receiver 105 may receive the vehicle information from the app of the user wireless terminal 190.

According to the first terminal registration embodiment of the present invention, the air purifier 200 is a wireless terminal information (for example, mobile phone number, phone number, etc.) to uniquely identify the user wireless terminal 190 through the voice recognition function The voice recognition method may further include a function of transmitting the wireless terminal information to the operation server 100 through the network communication function or transmitting the registration request information including the wireless terminal information to the operation server 100. have. Preferably, the air purifier 200 is a voice to induce the utterance of the wireless terminal information corresponding to the user wireless terminal 190 to be interlocked by the sound wave communication with the air purification apparatus 200 to the user through the voice output function While checking the wireless terminal information obtained by recognizing the voice spoken by the user through the voice recognition function, and transmitting the wireless terminal information to the operation server 100 through the network communication function or the wireless terminal information Registration request information including a may be transmitted to the operation server (100). In this case, the information receiving unit 105 may receive the wireless terminal information from the air purifier 200 or transmit registration request information including the wireless terminal information to the operation server 100.

Meanwhile, when the wireless terminal information is received from the air purifier 200, the terminal checking unit 110 may check whether an app designated in the user wireless terminal 190 corresponding to the wireless terminal information is installed. Preferably, the terminal checker 110 checks whether the received wireless terminal information and valid unique identification information are mapped and stored in a designated storage medium, and checks whether the designated app is installed in the user wireless terminal 190. When the app designated in the user wireless terminal 190 is not installed, a procedure of inducing to install the app designated in the user wireless terminal 190 may be performed.

According to an embodiment of the first app installation induction of the present invention, the terminal checking unit 110, if the app specified in the user wireless terminal 190 is not installed, through the voice output function of the air purifier 200 The user wireless terminal 190 may process to output a voice for inducing a designated app installation. For example, the terminal identification unit 110 configures the audio output information for inducing the installation of the app specified in the user wireless terminal 190 and transmits the audio output device 200 to process the audio output, or the Voice output for inducing the app installation through the air purifier 200 by transmitting instruction information instructing the air purifier 200 to output voice output information for inducing a specified app installation to the user wireless terminal 190 It can be processed to output information.

According to the second app installation inducing embodiment of the present invention, the terminal identification unit 110 may process to send a message to induce the installation of the app designated by the user wireless terminal 190 through the wireless terminal information.

According to an embodiment of the present invention, when the app designated in the user wireless terminal 190 is not installed, the app designated in the user wireless terminal 190 may be installed according to the first or second app installation inducing embodiment. have. On the other hand, according to the embodiment, the user can install the app specified in the user wireless terminal 190 without inducing the app installation, thereby the present invention is not limited. Meanwhile, when the app is installed and executed in the user wireless terminal 190, the terminal checking unit 110 communicates with the app of the user wireless terminal 190 and / or communicates with the designated server according to a specified procedure. Through uniquely identifying the app of the user wireless terminal 190 on a designated communication network (eg, packet-switched Internet) and communicating with the app of the user wireless terminal 190 via the designated communication network. Identification information (eg, device token, application identification information, Universal Unique Identifier (UUID), a separate unique identifier, etc. designated to uniquely identify the app of the user wireless terminal 190, etc.) are identified.

According to a second terminal registration embodiment of the present invention, the wireless terminal information is the first operation of the app installed on the user wireless terminal 190 after the app specified in the user wireless terminal 190 is installed (or the registration of the wireless terminal information) Full driving) can be registered through the driven app of the user wireless terminal 190. Preferably, when the user inputs (or extracts from the designated storage area of the wireless terminal) the wireless terminal information of the user in the app of the user wireless terminal 190, the information receiving unit 105 is the app of the user wireless terminal 190 The wireless terminal information can be received from the.

Receive device specific information of the air purifier 200 from the air purifier 200 through the information receiving unit 105, and according to the first or second vehicle registration embodiment the air purifier 200 When receiving the vehicle information of the vehicle having a wireless terminal and the wireless terminal information of the user wireless terminal 190 according to the first or second terminal registration embodiment according to the implementation method (for example, do not perform token authentication) Or the like) The information storage unit 130 may map the device specific information, the vehicle information, and the wireless terminal information to store in a designated storage medium. On the other hand, receiving the wireless terminal information of the user wireless terminal 190 through the information receiving unit 105, and uniquely identify and communicate with the app of the user wireless terminal 190 via the terminal identification unit 110 When the unique identification information is identified, the information storage unit 130 may map the wireless terminal information of the user wireless terminal 190 and the unique identification information and store it in a designated storage medium. Meanwhile, when token authentication is performed, the information storage unit 130 temporarily stores the device-specific information, vehicle information, and wireless terminal information by mapping and / or uniquely identifying the wireless terminal information until the token authentication is completed. The information can be mapped and stored temporarily.

Meanwhile, when performing token authentication, the device specific information of the air purifying device 200 is received through the information receiving unit 105, vehicle information of the vehicle having the air purifying device 200 is received, and When receiving the wireless terminal information of the user wireless terminal 190, the token verification unit 115 is generated to exchange through the sound wave signal specified between the air purification device 200 and the app of the user wireless terminal 190. The generated token. The token is a code of a designated code system to be exchanged through a designated sound wave signal between the air purifier 200 and the app of the user wireless terminal 190. The token is dynamically generated and stored for a predetermined time. Session code that is held for a period of time, or one or more codes that are dynamically generated for a service and used one or more times for the service and then discarded.

According to the first token generation embodiment of the present invention, the token verification unit 115 is a token of the designated code system to be exchanged through the designated sound wave signal between the app of the air purifier 200 and the user wireless terminal 190 Can be generated.

According to a second token generation embodiment of the present invention, the token may be generated through the air purifier 200 and transmitted to the operation server 100 through a network communication function, in which case the token verification unit ( 115 may receive the token generated through the air purifier 200.

According to a third token generation embodiment of the present invention, the token may be generated through an app of the user wireless terminal 190 and transmitted to the operation server 100, in which case the token verification unit 115 may be The token generated through the app of the user wireless terminal 190 may be received.

According to the fourth token generation embodiment of the present invention, the token may be generated and confirmed in the form of at least partially combining at least two or more embodiments of the first to third token generation embodiments, whereby the present invention This is not limited.

Meanwhile, when one or more tokens generated through at least one embodiment of the first to fourth token generation embodiments are confirmed, the token authentication unit 120 includes the air purifier 200 and the user wireless terminal 190. Performs an authentication procedure to confirm that the token is effectively exchanged through the specified sound wave signal between the app. Meanwhile, the signal strength setting unit 125 generates a sound wave signal for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 in a vehicle in association with the authentication process of the token authentication unit 120. At least one procedure may be performed to determine the basic signal strength to be output and to set the basic signal strength of the sound wave signal output for sound wave communication in the air purifier 200 or the user wireless terminal 190.

According to the embodiment of the present invention, the signal strength setting unit 125 performs a procedure of authenticating by exchanging tokens using a designated sound wave signal between the air purifier 200 and the app of the user wireless terminal 190. Previously, the air purification apparatus 200 may process to output voice output information for guiding the sound wave transmission / reception environment in the vehicle to a designated reference sound wave communication environment. Preferably, the reference sound wave communication environment may include an environment in which the vehicle is started or running while both the door and the window of the vehicle are closed. In this case, the air purifier 200 closes the door of the vehicle and the window The voice output information may be outputted to induce closing.

According to the first token authentication embodiment of the present invention, the token authentication unit 120 transmits the token to the air purifier 200 corresponding to the device-specific information so that the sound wave transmission function of the air purifier 200 Through the sound wave transmission through, the authentication procedure for confirming whether the token provided to the air purifier 200 is received from the app of the user wireless terminal 190 corresponding to the unique identification information can be performed. If the basic signal strength for outputting the sound wave signal for sound wave communication is not set in the air purifier 200, the air purifier 200 sets the basic signal strength for outputting the sound wave signal. The sound wave may be output more than a specified number of times while changing the output intensity of the sound wave signal encoding the token. On the other hand, when the designated reference sound wave communication environment is induced through the voice output of the air purifier 200, the signal strength setting unit 125 is a sound wave signal for setting the basic signal strength is induced through the voice output It can be regarded as being output in the reference sound wave communication environment.

If the token authentication unit 120 transmits the token to the air purifying device 200 corresponding to the device specific information according to the first token authentication embodiment, the signal strength setting unit 125 performs the air purification. The apparatus 200 may identify at least one sound wave output intensity information for transmitting a sound wave signal encoding the token exchange information including the token. According to the exemplary embodiment of the present invention, the signal intensity setting unit 125 outputs a sound wave signal at an output intensity increase value (if one sound wave output intensity increases) to increase the sound wave output intensity at a specified minimum sound wave output intensity information and a predetermined time interval. If so, it may be provided to the air purifier 200 (or check the minimum sound wave output intensity information and the output intensity increase value set in the air purifier 200), based on the air purifier 200 ), You can check the sound wave output intensity information of the sound wave signal output at a specific time. Alternatively, the air purifier 200 outputs a specific sound wave while outputting a sound wave signal by increasing the output intensity from the specified minimum sound wave output intensity by increasing the output intensity value (if one outputs a sound wave signal with one sound wave output intensity). Sound wave output time point information (if the signal intensity setting unit 125 provides sound wave output intensity information for the time when the sound wave signal is outputted at the same time as the sound wave output intensity information and the sound wave signal of the specific sound wave output intensity). Can be omitted when checking the received time point as the sound wave output time point) to the operation server 100, in which case the signal strength setting unit 125 is one or more sound wave output intensity from the air purifier 200. You can check the sound wave output time at the same time as receiving the information.

Alternatively, when the token authentication unit 120 receives a token from an app of the user wireless terminal 190 corresponding to the unique identification information, the token authentication unit 120 receives the token from the app of the user wireless terminal 190 according to the first token authentication embodiment. One or more sound wave reception strength information confirmed in the process of recognizing the token may be received. According to the exemplary embodiment of the present invention, the app of the user wireless terminal 190 reads the sound wave input sound wave signal and recognizes the sound wave received intensity information and sound wave reception time point information (if signal strength setting unit 125 ) Can be omitted if the time point of receiving the sound wave reception intensity information is confirmed as the sound wave reception time point), and the recognized token and sound wave reception intensity information and sound wave reception time point information can be transmitted to the operation server 100. In this case, the signal strength setting unit 125 may receive one or more tokens and sound wave reception strength information from an app of the user wireless terminal 190 and check a sound wave reception time. Alternatively, the app of the user's wireless terminal 190 transmits the first recognized token to the operation server 100, and then checks one or more sound wave reception intensity information and sound wave reception time point information each time the same token is recognized, and the confirmation The received sound wave reception intensity information and sound wave reception time information to the operation server 100, in this case, the signal strength setting unit 125 and one or more sound wave reception intensity information from the app of the user wireless terminal 190 Sound wave reception time point information can be received.

According to the first token authentication embodiment, one or more sound wave output intensity information outputting the sound wave signal encoded by the token through the air purifier 200 is confirmed, and the token is recognized through an app of the user wireless terminal 190. When the sound wave reception intensity information of one or more time points is confirmed, the signal strength setting unit 125 is one or more sound wave reception intensity information confirmed through the app of the user wireless terminal 190 and the sound wave in the air purifier 200 Basically outputting a sound wave signal for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 in the vehicle by matching and analyzing the time points of the at least one sound wave output intensity information outputting the signal. Determine signal strength. Preferably, the signal strength setting unit 125 outputs the sound wave of the air purifier 200 matched with the sound wave reception intensity information that the sound wave reception intensity information confirmed through the app of the user wireless terminal 190 is greater than the specified reference intensity. The strength information may be set as a basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190.

When the basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 is determined, the signal strength setting unit 125 may include an air purifier corresponding to the device-specific information ( Basic strength setting information including the determined basic signal strength, and the air purification apparatus 200 receives the basic strength setting information, and uses the received basic strength setting information to clean the air. The apparatus 200 may set a basic signal strength for outputting a sound wave signal for sound wave communication.

Meanwhile, when the basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 is determined, the signal strength setting unit 125 corresponds to the user wireless terminal 190 corresponding to the unique identification information. ) Can transmit basic strength setting information including the determined basic signal strength to the app of the user, the app of the user wireless terminal 190 receives the basic strength setting information, by using the received basic strength setting information An app of the user wireless terminal 190 may set a basic signal strength for outputting a sound wave signal for sound wave communication.

According to the second token authentication embodiment of the present invention, the token authentication unit 120 processes the token transmission to the app of the user wireless terminal 190 through the unique identification information to transmit sound waves, the device-specific information The token provided to the app of the user wireless terminal 190 is recognized through the sound wave reception function of the air purifier 200 corresponding to the user wireless terminal 190 through the network communication function of the air purifier 200 ), You can perform authentication ligation to check if the token provided by the app is received. If the basic signal strength for outputting the sound wave signal for sound wave communication is not set in the app of the user wireless terminal 190, the app of the user wireless terminal 190 is the default signal strength for outputting the sound wave signal The sound wave may be output more than a specified number of times while changing the output intensity of the sound wave signal encoding the token in order to set. On the other hand, when the designated reference sound wave communication environment is induced through the voice output of the air purifier 200, the signal strength setting unit 125 is a sound wave signal for setting the basic signal strength is induced through the voice output It can be regarded as being output in the reference sound wave communication environment.

If the token authentication unit 120 transmits the token to the app of the user wireless terminal 190 corresponding to the unique identification information according to the second token authentication embodiment, the signal strength setting unit 125 is the One or more sound wave output intensity information for transmitting a sound wave signal encoding the token exchange information including the token through the app of the user wireless terminal 190 can be confirmed. According to the exemplary embodiment of the present invention, the signal intensity setting unit 125 outputs a sound wave signal at an output intensity increase value (if one sound wave output intensity increases) to increase the sound wave output intensity at a specified minimum sound wave output intensity information and a predetermined time interval. May be omitted) to the app of the user wireless terminal 190 (or check the minimum sound wave output intensity information and the output intensity increase value set in the app of the user wireless terminal 190), and based on this, the user App of the wireless terminal 190 can check the sound wave output intensity information of the sound wave signal output sound wave at a specific time. Alternatively, the app of the user wireless terminal 190 increases the output intensity by the output intensity increase value (if one outputs the sound wave signal with one sound wave output intensity) from the specified minimum sound wave output intensity, and outputs the sound wave signal while outputting the sound wave signal. Sound wave output time information (if the signal intensity setting unit 125 is a sound wave output intensity for the time when the sound wave output intensity information and the sound wave signal of the specific sound wave output intensity) Can be omitted if the time of receiving the information as a sound wave output time point) can be transmitted to the operation server 100, in which case the signal strength setting unit 125 is one from the app of the user wireless terminal 190 The sound wave output strength information can be received and the sound wave output time point can be checked.

Alternatively, when the token authentication unit 120 receives a token from the air purifier 200 corresponding to the device-specific information, the token authentication unit 120 receives the token through the sound wave receiving function of the air purifier 200. One or more sound wave reception strength information confirmed in the process of recognizing the token may be received. According to the method of the present invention, the air purifier 200 is the sound wave reception intensity information and sound wave reception time point information (if the signal strength setting unit 125 is the sound wave reception strength at the time when the token is recognized through the sound wave reception function) Can be omitted when checking the time point at which the information is received by the sound wave reception time), and transmits the recognized token, sound wave reception intensity information, and sound wave reception time information to the operation server 100, in which case the signal The strength setting unit 125 may receive one or more tokens and sound wave reception intensity information from the air purifier 200 and check a sound wave reception time. Alternatively, the air purifier 200 transmits the first recognized token to the operation server 100, and then, whenever recognizing the same token, checks one or more sound wave reception intensity information and sound wave reception time point information, and the identified sound wave. Receiving strength information and sound wave reception time information may be transmitted to the operation server 100, in which case the signal strength setting unit 125 is one or more sound wave reception strength information and sound wave reception time information from the air purifier 200 Can be received.

According to the second token authentication embodiment, one or more sound wave output intensity information outputting the sound wave signal encoded by the token through the app of the user wireless terminal 190 is confirmed, and the token is recognized by the air purifier 200. When the sound wave reception intensity information of one or more points of time is confirmed, the signal strength setting unit 125 is one or more sound wave reception intensity information confirmed through the air purifier 200 and the sound wave in the app of the user wireless terminal 190 Basically outputting a sound wave signal for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 in the vehicle by matching and analyzing the time points of the at least one sound wave output intensity information outputting the signal. Determine signal strength. Preferably, the signal strength setting unit 125 outputs the sound wave of the air purifier 200 matched with the sound wave reception intensity information that the sound wave reception intensity information confirmed through the app of the user wireless terminal 190 is greater than the specified reference intensity. The strength information may be set as a basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190.

When the basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 is determined, the signal strength setting unit 125 may include an air purifier corresponding to the device-specific information ( Basic strength setting information including the determined basic signal strength, and the air purification apparatus 200 receives the basic strength setting information, and uses the received basic strength setting information to clean the air. The apparatus 200 may set a basic signal strength for outputting a sound wave signal for sound wave communication.

Meanwhile, when the basic signal strength for effective sound wave communication between the air purifier 200 and the app of the user wireless terminal 190 is determined, the signal strength setting unit 125 corresponds to the user wireless terminal 190 corresponding to the unique identification information. ) Can transmit basic strength setting information including the determined basic signal strength to the app of the user, the app of the user wireless terminal 190 receives the basic strength setting information, by using the received basic strength setting information An app of the user wireless terminal 190 may set a basic signal strength for outputting a sound wave signal for sound wave communication.

Referring to FIG. 1, the operation server 100 may include an information receiver 105 that receives payment means information input through an app of the user wireless terminal 190, and an apparatus specific to the air purifier 200. Information and wireless terminal information of the user's wireless terminal 190, the unique identification information for communicating with the app of the user's wireless terminal 190 and at least two pieces of information of the vehicle information of the vehicle to store information stored in a specified storage medium Check the payment means information corresponding to the payment means requested to be registered from the user based on a result interoperating with the unit 130 and the process of exchanging the tokens or validly exchanging the tokens; Payment means stored in the issuing server (or payment server) that is stored by mapping with at least one information stored in the storage medium or issuing a payment means corresponding to the payment means information. And a payment means registration unit 135 for mapping the identification code information for identifying the beam with at least one information stored in the storage medium.

The information receiving unit 105 receives the payment means information input through the app of the user wireless terminal 190 in the designated route. The information receiving unit 105 may receive the payment means information from an app of the user wireless terminal 190 in conjunction with the process of receiving / confirming the wireless terminal information or the unique identification information. On the other hand, when performing the process of exchanging the token through the token authentication unit 120, the information receiving unit 105 in conjunction with the process of exchanging the token or based on the result of effectively exchanging the token The payment method information input through the app of the wireless terminal 190 may be received. Meanwhile, according to the implementation method, the payment means information may be voice recognized through the voice recognition function of the air purifier 200, and the present invention is not limited thereto.

According to the first payment means registration embodiment of the present invention, the app of the user wireless terminal 190 may receive payment means information, and transmit the input payment means information, the information receiving unit 105 is the user The payment means information is received from the app of the wireless terminal 190. In the case of performing a process of exchanging tokens between apps of the user wireless terminal of the air purifier 200, the app of the user wireless terminal 190 interworks with the process of exchanging the token or effectively exchanges the token. It receives and transmits payment method information based on a result, and the information receiving unit 105 is linked with the process of exchanging the token or from the app of the user wireless terminal 190 based on the result of validly exchanging the token. The payment means information may be received.

According to the second payment means registration embodiment of the present invention, when performing the process of exchanging tokens between the app of the user wireless terminal of the air purifier 200, the app of the user wireless terminal 190 is the token The payment means information may be received based on a result of interworking with the exchange process or validly exchanging the token, and may transmit sound waves based on the input payment means information, and the air purifier 200 may receive a sound wave. Through the payment means information can be received sound waves. In this case, the air purifying apparatus 200 may transmit the payment means information through a network communication function, and the information receiving unit 105 interworks with the process of exchanging the token or based on a result of effectively exchanging the token. As a result, the means information may be received from the air purifier 200.

According to a third payment means registration embodiment of the present invention, the payment means information may be obtained by recognizing the voice uttered by the user according to the induction of the utterance through the voice output function of the air purifier 200, in this case The air purifier 200 may transmit the obtained payment means information through the network communication function. In this case, the information receiving unit 105 may receive the payment means information obtained based on the speech recognition from the air purification apparatus 200.

According to the fourth payment means registration embodiment of the present invention, the payment means information may be obtained by recognizing the voice spoken by the user according to the induction of the speech through the voice output function of the air purification apparatus 200, air purification apparatus 200 may transmit sound wave fraud payment means information through a sound wave transmission function. In this case, the app of the user wireless terminal 190 may receive and transmit the sound wave information of the payment means, and the information receiver 105 may receive the sound wave received payment means information from the app of the user wireless terminal 190. Can be.

Through the information receiving unit 105 uniquely identifies the device specific information of the air purifier 200 and the wireless terminal information of the user wireless terminal 190 and the app of the user wireless terminal 190 and at the same time the user wireless terminal When the unique identification information for communicating with the app of 190 and the vehicle information of the vehicle provided with the air purifier 200 are received or the process of exchanging the token is performed, the information storage unit 130 is performed. At least two of the device-specific information of the air purifier 200, the wireless terminal information of the user wireless terminal 190, the unique identification information for communicating with the app of the user wireless terminal 190 and the vehicle information of the vehicle Can be mapped and stored in the specified storage medium.

On the other hand, when the payment means information is received through the information receiving unit 105, the payment means registration unit 135 validates the validity of the payment means through the issuer server that issued the payment means corresponding to the payment means information. Authentication (eg, issuance authentication by transmitting payment means information and user information to the issuer server), and when validating the payment means, the payment means information may be mapped and stored with at least one information stored in the storage medium. have.

On the other hand, if the payment means information is not stored in the storage medium of the operation server 100, the payment means registration unit 135 is the payment to the storage medium of the issuer server (or payment server) side that issued the payment means Process to store the means information, and verify / generate identification code information uniquely identifying the payment means information stored in the storage medium of the issuer server (or payment server) or through the issuer server (or payment server) The generated identification code information may be received, and the identification code information identifying payment means information stored in the issuer server (or payment server) may be mapped and stored with at least one information stored in the storage medium. Thereafter, the payment means information stored in the storage medium (or the payment means information stored in the issuer server (or payment server) mapped to the identification code information stored in the storage medium) is the air purifying device 200 and the user wireless terminal ( It is characterized in that it is used as a payment means of various services provided by interlocking the app of 190).

Referring to Figure 1, the operation server 100, the device specific information of the air purifying device 200, the wireless terminal information of the user wireless terminal 190 and the app of the user wireless terminal 190 in a designated storage medium When the unique identification information and the vehicle information are stored in the mapping, the air purifier 200 receives the driving information or the status information of the vehicle obtained from the vehicle OBD through short-range wireless communication and stores them in a designated storage medium. OBD collection unit 140, and generates a variety of notification information based on the driving information or status information of the vehicle collected through the air purifier 200, the voice output function through the voice output function of the air purifier 200 And a notification processing unit 145 for processing.

The air purifier 200 processes short-range wireless communication with the OBD module 180 connected to the vehicle OBD through an OBD interworking function, and periodically operates driving information or status information of the vehicle from the vehicle OBD through the short-range wireless communication. Acquire and store for a predetermined period of time, the operation information or state information to be transmitted to the operation server 100 from the obtained operation information or state information can be selected and transmitted to the operation server 100 through a network communication function. Here, the driving information or the status information of the vehicle is a name for convenience in order to easily explain the purpose or function of the OBD information obtained from the vehicle OBD. In the present invention, the driving information obtained from the vehicle OBD includes a set of information that can be changed by the user's driving behavior among the information obtainable from the vehicle OBD or during the operation of the vehicle, and the status information includes the vehicle among the information obtainable from the vehicle OBD. It is a set of information needed to understand the state of. Therefore, any one of the information obtained from the vehicle OBD may be included in the driving information or in the status information, whereby the present invention is not limited.

When the air purifying apparatus 200 transmits the selected driving information or status information from the driving information or the status information obtained from the vehicle OBD through short-range wireless communication, the OBD collecting unit 140 performs the air purifying apparatus 200. The driving information or the status information is received from the storage medium.

The notification processor 145 reads the driving information or the status information collected and stored through the OBD collection unit 140 to generate various notification information, and through the voice output function of the air purifier 200, the notification information. Process to output voice.

According to a first notification embodiment of the present invention, the notification processing unit 145 exchanges part identification information for identifying a new or previous exchanged part of the consumable parts provided in the vehicle and the standard exchange of the parts. Check the replacement time discrimination information to determine the time to replace the parts corresponding to the timing, and designate and store it as the analysis target parts information. Acceleration pattern including the time taken to reach the speed, fuel consumption pattern including the amount of fuel consumed to accelerate to reach the specified speed in the stop state, deceleration pattern including the time required to stop while driving at the specified speed One or more patterns, etc.). The notification processor 145 may analyze the correlation between the analyzed user driving pattern and the stress applied to the designated analysis target part to exchange the parts earlier than the replacement time corresponding to the standard replacement time of each component. Identify the parts scheduled to be replaced, calculate the parts replacement time adjusted earlier than the parts replacement time corresponding to the standard replacement time of the replacement parts based on the analysis result of the correlation, and calculate the operation information collected during the recent period. Read and confirm that the at least one replacement part is due to reach the adjusted part replacement time, and when the at least one replacement part is due to the replacement part replacement time through the voice output function of the air purifier 200 Notification schedule corresponding to the part replacement notification of the part to be replaced at the time of replacing the part A beam may be generated and processed to output the notification information through the voice output function of the air purifier 200.

According to a second notification embodiment of the present invention, the notification processing unit 145 checks the total driving distance of the vehicle among the driving information collected and stored through the OBD collecting unit 140, and the total driving of the identified vehicle Compare the distance and the standard replacement time of each part stored in the database to check the part identification information of the new part corresponding to the standard replacement time within the total mileage, and determine the time to replace the part corresponding to the standard replacement time of the new part. It is possible to confirm the replacement time determination information for discrimination, and to confirm whether the replacement time corresponding to the replacement time determination information is reached, and when the replacement time is reached, the audio output function of the air purifier 200 is activated. By generating notification information corresponding to the parts replacement notification of the parts arrived at the time of the parts replacement, and the voice output function of the air purifier 200 The notification information may be processed to output voice.

According to a third notification embodiment of the present invention, the notification processing unit 145 compares the previous state information with the latest state information among the state information collected and stored through the OBD collecting unit 140 and the previous state information. In the abnormal state of the part is confirmed or continued in the latest status information, the part that has solved the abnormal state is confirmed as a replacement part, the part identification information of the replacement part, and confirmed based on the collected stored operation information Replacement time determination information for determining a part replacement time corresponding to the standard replacement time of the replacement part by using one or more information of the travel distance at the time of eliminating the abnormal state of the replacement part and the standard replacement time information of the replacement part Check whether it is at the time of replacement of the part corresponding to the replacement time determination information, In this case, through the voice output function of the air purifier 200, notification information corresponding to the parts replacement notification of the parts arrived at the time of replacing the parts is generated, and the voice output function of the air purifier 200 is generated. The notification information may be processed to output voice.

According to the fourth notification embodiment of the present invention, the air purifying apparatus 200 is provided with a positioning function, and the position information is included in the state information collected and stored through the OBD collecting unit 140 or the state information. And collecting and storing location information, the notification processor 145 compares the collected location information with geographic information and reads the status information to turn the vehicle off and on near the vehicle repair station on the geographic information. Check if it is lost. When the vehicle is turned off and turned on near the vehicle repair station, a voice output function of the air purifier 200 is processed to output a query to the user to confirm whether or not the parts are replaced at the vehicle repair station. The voice recognition function of the air purifier 200 recognizes the user's answer to the query to receive textual voice recognition information, and detects a keyword related to a part exchange among words included in the received voice recognition information. And confirms the part identification information of the replacement parts exchanged at the vehicle maintenance station, and obtains at least one of the travel distance at the time of replacing the parts and the standard replacement time information of the replacement parts based on the collected and stored driving information. To determine the parts replacement time corresponding to the standard replacement time of the replacement parts. The timing discrimination information can be confirmed, and whether the component replacement time corresponding to the replacement timing determination information is reached, and when the component replacement time arrives, the component replacement is performed through the voice output function of the air purifier 200. Notification information corresponding to the parts replacement notification of the parts arrived at the time can be generated, and through the voice output function of the air purifying device 200 can be processed to output the notification information.

According to the fifth notification embodiment of the present invention, the notification processing unit 145 is the oil identification information for identifying the new or previous exchanged oil of the oil injected into the vehicle and the standard replacement time of the oil After confirming the exchange time discrimination information to determine the oil change time corresponding to the designated and stored as the analysis target oil information, and reading the stored operation information collected for a certain period of time to analyze the user operation pattern, the user operation pattern and analysis target Analyze the correlation between the increase in contamination of the oil to identify the oil to be exchanged that must be exchanged earlier than the oil change time corresponding to the standard oil change time of each oil, and based on the analysis result of the correlation Calculate the adjusted oil change time earlier than the oil change time corresponding to the standard change time, Reads the driving information collected during the period to check whether the at least one scheduled oil change is at the adjusted oil change timing, and when the at least one scheduled oil change is at the advanced oil change timing, the air purifier 200 To generate the notification information corresponding to the oil change notification of the oil scheduled to be replaced at the oil replacement time through the voice output function of the), and to output the notification information through the voice output function of the air purifier 200 Can be processed.

According to a sixth notification embodiment of the present invention, the notification processing unit 145 checks the total driving distance of the vehicle among the driving information collected and stored through the OBD collecting unit 140 and the total driving of the identified vehicle. By comparing the distance between the standard exchange time of each oil stored in the database and the oil identification information of the new oil corresponding to the standard change time within the total mileage, and confirming the oil change time corresponding to the standard change time of the new oil It is possible to confirm the replacement time determination information for discrimination, and confirm that the oil replacement time corresponding to the replacement time determination information is reached, and when the oil replacement time arrives, the voice output function of the air purifier 200 is activated. By generating the notification information corresponding to the oil change notification of the oil arrived at the oil change time, and the voice output function of the air purifier 200 The notification information may be processed to output voice.

According to a seventh notification embodiment of the present invention, the notification processing unit 145 compares the previous state information with the recently received state information among the state information collected and stored through the OBD collecting unit 140 and the previous state information. The oil-related abnormality of the part related to the action of the oil is confirmed or persisted, and the oil status information of the oil associated with the part is confirmed from the latest status information and the oil-related abnormality is resolved. And the oil change time corresponding to the standard oil change time of the oil by using at least one of the mileage at the time of eliminating the abnormal state related to the oil and the standard oil change time information of the oil identified on the basis of the collected and stored driving information. It is possible to confirm the replacement time discrimination information for discrimination and to arrive at the oil change time corresponding to the replacement time discrimination information. When the oil change time arrives, the voice change function is generated through the voice output function of the air purifier 200 to generate notification information corresponding to the oil change notification of the oil that has arrived at the oil change time, The voice output function of the device 200 may process the voice signal to be outputted.

According to an eighth notification embodiment of the present invention, the air purifying device 200 is provided with a positioning function, and the position information is included in the state information collected and stored through the OBD collecting unit 140 or the state information. And collecting and storing location information, the notification processor 145 compares the collected location information with geographic information and reads the status information to turn the vehicle off and on near the vehicle repair station on the geographic information. If the vehicle is turned off and then turned on in the vicinity of the vehicle repair station, the voice output function of the air purifier 200 processes to output a query to the user to check whether oil is exchanged at the vehicle repair station. And, through the voice recognition function of the air purifier 200, recognizes the user's answer speech to the question and texts the voice Receives recognition information, detects and reads a keyword related to oil change among words included in the received voice recognition information, confirms oil identification information of oil exchanged at the vehicle repair station, and based on the collected and stored driving information. By using at least one of the confirmed mileage at the time of oil change and the information on the standard replacement time of the oil can be confirmed the replacement time determination information for determining the oil replacement time corresponding to the standard replacement time of the oil, Confirm that the oil change time corresponding to the replacement time determination information is reached, and when the oil change time arrives, the oil change notification of the oil that has arrived at the oil change time through the voice output function of the air purifier 200. Create notification information corresponding to the, through the voice output function of the air purifier 200 The beam can be processed for audio output.

2 is a view showing a functional configuration of the air purifier 200 according to the embodiment of the present invention.

More specifically, FIG. 2 shows a predetermined number of air purification panels and UV (UltraViolet) -A wavelength bands, which are fabricated with a specified geometry by integrally molding silicon-coated beads coated with a photocatalytic material in a panel form. Air purifying module 210 having UV lamps 220 arranged in a specified geometric relationship, and various situations occurring in the air purifying vehicle while controlling or operating an air purifying operation of the air purifying module 210. As a side cross-sectional structure of a vehicle-mounted air purifier 200 having an operation module 300 for providing various additional services based on the situation recognition by recognizing the present invention, general knowledge in the technical field to which the present invention pertains is provided. If it is a person having, various embodiments of the functional configuration (for example, some components) of the functional configuration of the air purifier 200 will be omitted by referring to and / or modified with reference to FIG. Or, or would be able to infer the granular or, or combined embodiment method), the present invention is made, including any exemplary way in which the inference, to which the the technical features are not limited to the exemplary method shown in the figure 2.

The air purifier 200 of the present invention is a device which can be carried by a user or mounted inside a user's vehicle, and uses a photocatalytic material to decompose harmful components contained in the air around the user or inside the vehicle into harmless components. As a generic term, according to an embodiment of the present invention, the air purifying apparatus 200 may include an outer shape of the housing portion 205 of a tumbler shape that can be carried by a user or mounted on a cup holder inside the user's vehicle. However, the outer shape of the housing 205 of the air purifier 200 is not limited to a tumbler shape. The appearance etc. which can be mounted to a backrest part) shall belong to the scope of the present invention. Meanwhile, the space in which the air purifier 200 of the present invention can be mounted is not limited to the inside of the vehicle. However, the present invention will be described mainly based on the embodiment of the air purifying apparatus 200 which is mounted inside the vehicle and operates during driving or driving of the vehicle.

Referring to FIG. 2, the air purifier 200 includes a predetermined number of photocatalyst panels 215 and a predetermined number of UV lamps 220 arranged in a predetermined geometric relationship, and includes harmful components contained in air sucked from the outside. Air purification module 210 for purifying the air, and various conditions occurring in the vehicle during the air purification while controlling or operating the air purification operation of the air purification module 210 to provide a variety of additional services based on the situation recognition Including the operation module 300, and the interface module 260 for implementing the interface between the operation module 300 and the user, the air purification module 210 and the designated operation module 300 can be provided It includes a housing portion 205 of the external shape, and a support portion 255 for mounting in a designated mounting space including the inside of the vehicle. Meanwhile, a functional configuration of the operation module 300 and a detailed embodiment thereof will be described with reference to FIG. Y, and for convenience of description, FIG. 2 will not be described in detail.

The housing part 205 is a generic name of a component that implements the external shape of the air purifier 200, and includes an accommodation space for accommodating and fixing the air purifying module 210 and the operation module 300 and a designated external structure. . According to an embodiment of the present invention, the housing part 205 may include an outer shape of a tumbler form.

The support part 255 is a generic term for a component for mounting the air purifier 200 in a designated mounting space. According to an embodiment of the present invention, the support part 255 may be mounted on a cup holder in a vehicle. It may include the appearance of the form. On the other hand, even if only the structure of the housing shelf, if the air purifier 200 can be mounted in a designated mounting space, the support portion 255 can be omitted, thereby the present invention is not limited.

The interface module 260 is a generic term for a set of components for implementing an interface between the operation module 300 and a user, and is provided on one side of the housing 205 and / or as shown in the embodiment of FIG. 2. It may be provided in a structure coupled to the housing portion 205. For example, the interface module 260 may be implemented as a structure coupled to the upper portion of the tumbler housing portion 205 as in the embodiment of FIG. 2, but the present invention is not limited thereto. Module 260 is also apparent that the embodiments provided on one side (eg, side, etc.) of the housing portion 205 also belong to the scope of the present invention.

Meanwhile, as shown in the embodiment of FIG. 2, the interface module 260 is coupled to the upper portion of the tumbler housing 205 and is provided on the air flow path formed by the fan unit 250 of the air purification module 210. In this case, the interface module 260 is a discharge unit for discharging the air discharged through the fan portion 250 of the air purification module 210 (for example, the air purified through the air purification module 210) to the outside ( 265 is preferred. The discharge part 265 preferably includes a grate-shaped hole.

Referring to FIG. 2, the interface module 260 may include: an information display unit displaying information for controlling or operating an operation of the air purification module 210, and for controlling or operating an operation of the air purification module 210. The touch input unit 275 receives a user input.

The information display unit displays information for on / off selection, mode selection, and specific function activation / deactivation of the air purifier 200, and the touch input unit 275 is based on the information displayed through the information display unit. The operation inputs (eg, on / off touch inputs, all selected touch inputs, active / inactive touch inputs of a specific function, etc.) of the touch inputs are provided to the operation module 300.

Referring to FIG. 2, the interface module 260 includes at least one of a speaker for outputting sound waves of the operation module 300 and a microphone for inputting sound waves of the operation module 300. As an example, when the speaker is provided on the inner side of the information display unit or the touch input unit 275, the information display unit or the touch input unit 275 preferably has a hole for transmitting the sound wave output by the speaker to the outside. The width of the hole is preferably 30% or more of the diaphragm area of the speaker.

The speaker is electrically connected to the operation module 300, and outputs a sound wave signal having a specified signal strength under the control of the operation module 300. The microphone is electrically connected to the operation module 300, and converts the vibration of the air into an electrical signal to provide to the operation module 300, the operation module 300 provides a sound wave signal corresponding to the electrical signal Input processing

Referring to FIG. 2, the air purification module 210 includes a photocatalyst panel 215 fabricated by forming a plurality of silicon component beads coated with a photocatalytic material in the form of a panel and having both sides of a designated geometric structure. A UV lamp part 220 emitting UV in the UV-A wavelength band, and a frame part 235 for arranging and fixing the photocatalyst panel 215 and the UV lamp part 220 to form a specified geometric relationship, A suction part 240 that sucks external air from one side direction specified based on the position of the photocatalyst panel 215 and a direction different from the suction part 240 based on the position of the photocatalyst panel 215. And a discharge part 245 for discharging air, and through the discharge part 245 after flowing a designated flow path for sucking air from the outside through the suction part 240 to contact the photocatalyst panel 215. Pressure to discharge to the outside It further includes a fan unit 250 to generate.

The photocatalytic material is a generic term for a material that receives light to promote a chemical reaction. Preferably, the photocatalytic material of the present invention includes titanium oxide (TiO 2). According to the present invention, the titanium oxide is characterized by receiving UV and promoting the chemical reaction of almost all materials except silicon.

The photocatalyst panel 215 of the present invention is manufactured to have both sides of a designated geometry by integrally molding a plurality of silicon component beads coated with a photocatalyst material in the form of a panel. According to the method of the present invention, the photocatalyst panel 215 has a predetermined thickness t (4 mm ≦ t ≦ 12 mm) while integrating a plurality of silicon component beads having a diameter of 0.4 mm to 1.5 mm coated with a photocatalytic material in the form of a panel. And a plurality of silicon component beads coated with the photocatalytic material are molded into a panel having a specified thickness t (4 mm ≤ t ≤ 12 mm) and formed into a panel having both sides of a specified geometric structure. It can be manufactured by processing into a panel with both sides of the specified geometry. Hereinafter, for convenience, the embodiment of the present invention will be described for the features of the present invention mainly on an embodiment in which the thickness of the photocatalyst panel 215 is about 6 mm.

Meanwhile, according to the exemplary embodiment of the present invention, the geometric structure formed on both sides of the photocatalyst panel 215 may include a rectangular structure having a short side length of 40 mm to 80 mm and a long side length of 80 mm to 120 mm. have. However, the two-sided geometric structure of the photocatalyst panel 215 is not limited to a rectangular structure, and may include various types of geometric structures (for example, polygonal structures such as pentagons and hexagons, circular or elliptical structures, etc.) The present invention is not limited thereby. Hereinafter, for convenience, embodiments of the present invention will be described based on the embodiment of the rectangular structure in which the geometry of the photocatalyst panel 215 has a short side length of 60 mm and a long side length of 80 mm.

Meanwhile, the photocatalyst panel 215 of the present invention is manufactured by integrally molding a plurality of silicon component beads coated with the photocatalyst material, so that the first silicon component is safe for the photocatalyst material, and the second silicon component (= glass) is light efficient. UV light transmitted from one side of the photocatalyst panel 215 can be transmitted to the beads integrated in the opposite side of the photocatalyst panel 215 to activate the photocatalytic function of the photocatalytic material coated on the beads. In addition, when the third sphere-shaped beads are integrated, the contact area between each bead and the beads is minimized, and the contact area between the beads and the photocatalytic material coated on each bead is maximized. Meanwhile, if the diameters of the beads used to fabricate the photocatalyst panel 215 of the present invention are kept constant, the voids between the beads and the beads are maximized to increase the transmittance through which the air penetrates the panel, while varying the diameters of the beads. In this case, the contact area between air and the photocatalytic material of the photocatalyst panel 215 is maximized instead of the voids and the air permeability between the beads decrease.

Meanwhile, when the air sucked from the outside in the air purification module 210 of the present invention is contacted with the photocatalyst material of the photocatalyst panel 215 while flowing along a designated flow path, the photocatalyst panel 215 according to one embodiment of the present invention. Is manufactured using beads of various diameters, and maximizes the contact area between the air and the photocatalytic material that penetrates into the pores inside the panel while flowing along the designated flow path, and at the same time, the reaction time of the air and the photocatalytic material is in contact with the reaction. It is desirable to maximize (or contact retention time). However, the photocatalyst panel 215 of the present invention is not limited to the case of using beads of various diameters, and it is apparent that even if beads of a certain diameter belong to the scope of the present invention. However, in some embodiments of the present invention, when the air sucked from the outside is brought into contact with the photocatalytic material of the photocatalyst panel 215 while flowing along a designated flow path, the air and the photocatalyst material that have penetrated into the voids inside the photocatalytic panel 215 are provided. The larger the contact area for contacting and the longer the reaction time (or contact retention time) of the air and photocatalytic material that has penetrated the voids, the more harmful components of the air are decomposed into completely harmless (or safe) components. Can be.

According to the exemplary embodiment of the present invention, the air purification module 210 may be manufactured by including one photocatalyst panel 215 having both surfaces whose contact area with air is equal to or greater than a designated reference contact area. Alternatively, the air purification module 210 may be manufactured to include two or more photocatalyst panels 215 capable of forming an area of a contact area with air that is larger than a reference contact area. The former air purification module 210 may be mounted in the air purifier 200 having a thin or long housing structure, and the latter air purification module 210 may have a three-dimensional volume such as a cylindrical or tumbler shape or a cuboid. It can be mounted on the air purifier 200 of the structure. Hereinafter, for convenience, the present invention provides an M (M≥2) photocatalyst panel fabricated to have both sides of a specified geometry by integrally molding a plurality of silicon component beads coated with a photocatalytic material on the air purification module 210 in the form of a panel ( Features of the present invention will be mainly described with reference to the embodiment having 215, but the present invention is not limited thereto, and the present invention also includes an embodiment having M (M≥1) photocatalyst panels 215. It can be stated.

The UV lamp unit 220 is a generic term for a component that emits UV light in a UV-A wavelength band (eg, 320-405 nm wavelength band) at a predetermined light intensity, and preferably UV-LED emitting UV in the UV-A wavelength band. It is made to include. For example, the UV lamp unit 220 may have a vertical angle range in which each panel area of the photocatalyst panel 215 (for example, UV light of the UV lamp unit 220 is directly irradiated to a radiation angle range of the UV lamp unit 220). A photocatalyst material coated on beads integrated in a predetermined angular range region, an inner region of the photocatalyst panel 215 to which UV of the UV lamp unit 220 is transmitted (or diffusely reflected) and irradiated, etc.). It can emit UV in the UV-A wavelength band irradiated at a light intensity of 6 ~ 10 ㎽ / ㎠ (± 1 ㎽ / ㎠).

On the other hand, the UV lamp unit 220 is produced by setting the emission angle on the specification for emitting UV in the UV-A wavelength band. Here, the radiation angle on the spec is the radiation angle set on the spec set by the manufacturer who designs or manufactures the UV lamp unit 220. For example, the UV lamp unit 220 including one UV_LED may be manufactured to include a radiation angle on a spec including an angle range of 120 ° to 160 °. However, the radiation angle on this specification means only the maximum angle range in which the UV lamp unit 220 can emit UV, and the UV light emitted from the UV lamp unit 220 has an effective light intensity and an effective wavelength spectrum. It does not mean a range of angles that can be reached. Accordingly, the present invention provides an effective light intensity (for example, light intensity for activating the photocatalytic function of the photocatalytic material) and effective wavelength spectrum (for example, UV emitted from the UV lamp unit 220 in each panel region of the photocatalyst panel 215). It is preferable to set and use a designated radiation angle θ in the design including an angular range where the wavelength value activating the photocatalytic function of the photocatalytic material can be reached in the peak wavelength region. For example, the specified radiation angle θ in the design is a distance relationship between the photocatalyst panel 215 and the UV lamp unit 220 (eg, the vertical distance between one surface of the photocatalyst panel 215 and the UV lamp unit 220). Etc.) and the geometry of the surface of the photocatalyst panel 215 (eg, the length of the long side or the short side of the rectangular structure, the diameter or radius of the circular or elliptical structure, etc.) and the characteristics of the operating power applied to the UV lamp unit 220 (eg, And at least one (or combination of two or more) of a constant current of 350 mA (± 10 mA) and at least DC 3.6 V or more (or a voltage of DC 3.6 V to 4.0 V) per each UV lamp unit 220. Can be.

According to the first radiation angle embodiment of the present invention, the designated radiation angle θ in the design may include the radiation angle range on the specification of the UV lamp unit 220 as it is. For example, the UV light emitted from the UV lamp unit 220 is effective in each panel region of the photocatalyst panel 215 within the radiation angle range on the specification of the UV lamp unit 220 and the UV of the effective wavelength spectrum If attainable, the specified radiation angle θ in the design may include the radiation angle range on the specification. For example, when the radiation angle on the specification of the UV lamp unit 220 is 120 °, the designated radiation angle θ in the design may include the 120 °.

According to the second radiation angle embodiment of the present invention, the specified radiation angle θ in the design may include a range in which the radiation angle range on the specification of the UV lamp unit 220 is reduced by a certain ratio. For example, based on the distance relationship between the UV lamp unit 220 and the photocatalyst panel 215 and the characteristics of the operating power applied to the UV lamp unit 220, When the effective light intensity and the UV of the effective wavelength spectrum can be reached in each panel region of the photocatalyst panel 215 within the 2/3 range, the specified radiation angle θ in the design is at 2/3 of the radiation angle range on the specification. It may include a corresponding radial angle range. For example, when the radiation angle on the specification of the UV lamp unit 220 is 120 °, the designated radiation angle θ in the design may include 90 ° corresponding to 2/3 of the 120 °.

According to the third radial angle embodiment of the present invention, the designated radiation angle θ in the design may be set to include an angle range of at least a part of the angle ranges of the first to second radial angle embodiments. For example, the designated radiation angle θ in the design may be set to include an angle range of at least a part of the radiation angle range on the specification in a range in which the radiation angle range on the specification is reduced by a certain ratio. For example, the designated radiation angle θ in the design may include an angle range of at least some of the angles of 90 ° to 160 °.

According to the embodiment of the present invention, the air purification module 210 may be manufactured including one UV lamp unit 220 for emitting UV in the UV-A wavelength band. Alternatively, the air purification module 210 may be manufactured to include two or more UV lamps 220 that emit UV in the UV-A wavelength band. In the former case, the UV lamp unit 220 may include a tube or rod form or an array structure of UV_LED. In the latter case, the UV lamp unit 220 may include an individual UV_LED form. Hereinafter, for convenience of the present invention will be described a feature of the present invention mainly on the embodiment provided with N (N≥2) UV lamp unit 220 to emit UV in the UV-A wavelength band in the air purification module 210 However, the present invention is not limited thereto, and the present invention may include an embodiment having N (N≥1) UV lamp parts 220.

The frame part 235 is a general term for a component that arranges and fixes the photocatalyst panel 215 and the UV lamp 220 in a geometric relationship designated for high efficiency air purification. The UV lamp 220 and the photocatalyst panel 215 In addition to forming a flow path for the flow of air between the) and the air purification module 210 is provided with a plurality of photocatalyst panels 215, the air flow path between the photocatalyst panel 215 and the photocatalyst panel 215 At the same time, beads of UV-A wavelength band emitted from the UV lamp unit 220 are integrated in the photocatalytic panel 215 with an effective light intensity and an effective wavelength spectrum for maximizing the photocatalytic function of the photocatalytic material. The UV lamp unit 220 and the photocatalyst panel 215 are disposed and fixed in a designated geometric relationship designed to irradiate the photocatalyst material coated on the field.

According to the exemplary embodiment of the present invention, the frame portion 235 has a designated geometric relationship that establishes a distance relationship of a vertical distance d in which a distance relationship between one surface of the photocatalyst panel 215 and the UV lamp unit 220 is specified. It is preferable to arrange and fix the photocatalyst panel 215 and the UV lamp unit 220. Here, the designated vertical distance d between one surface of the photocatalyst panel 215 and the UV lamp unit 220 preferably includes a vertical distance of 18 mm to 30 mm. For example, the frame part 235 may measure a vertical distance between one surface of the both sides of the photocatalyst panel 215 to which UV light emitted from the UV lamp part 220 is directly irradiated and the UV lamp part 220. It can arrange and fix in the distance relationship of 18 mm-30 mm. Alternatively, when the thickness of the photocatalyst panel 215 is t, the frame part 235 is one surface on which both sides of the photocatalyst panel 215 are directly irradiated with UV light emitted from the UV lamp unit 220 and the UV light. The vertical distance between the lamp unit 220 can be fixed in a distance relationship of 18mm ~ (30-t) mm.

According to the method of the present invention, the frame portion 235 is arranged to fix the M (M ≥ 2) photocatalyst panel 215 and the N (N ≥ 2) UV lamp unit 220 in the above specified geometric relationship M photocatalyst panels 215 including an upper frame portion 235 and a lower frame portion 235 and a side frame portion 235 for forming a constant volume of internal space therein, and for forming the specified geometric relationship. The panel arrangement frame part 235 for arranging and fixing the lamp at a designated position of the inner space, and the N UV lamp parts 220 for arranging and fixing the N UV lamp parts 220 at a designated position of the inner space to form the designated geometric relationship. An arrangement adjusting frame portion 235 for staggering the M photocatalyst panels 215 to form a flow path for the flow of air between the M photocatalyst panels 215. Contains can do.

According to the method of the present invention, the frame portion 235 is a panel arrangement for fixing the M photocatalyst panels 215 in the middle portion of the side surface of the air purification module 210 spaced apart from each other by a predetermined interval between panels The frame part 235 is provided. Preferably, the panel arrangement frame 235 may include a guide shape into which the photocatalyst panel 215 having a specified thickness t can be inserted. According to the exemplary embodiment of the present invention, the panel arrangement frame unit 235 may be spaced apart from each other so that the panel spaces between the photocatalyst panel 215 and the photocatalyst panel 215 are 3 mm to 10 mm to be opposed to each other. Can be. The panel arrangement frame part 235 may include a shape provided in the side frame part 235.

According to the method of the present invention, the frame portion 235 is formed of the M to form a charge for the sequential flow of air between the M photocatalyst panel 215 disposed opposite by the panel arrangement frame portion 235 And an arrangement adjusting frame portion 235 for zigzag arrangement of the photocatalyst panel 215. For example, the arrangement adjustment frame unit 235 is formed in a projection shape for maintaining the air flow path while zigzag arrangement of the M photocatalyst panels 215 or a door structure or a grate shape in which air can enter or exit. It may include. Meanwhile, the arrangement adjustment frame part 235 may include a form provided in the upper frame part 235 or provided in the lower frame part 235.

According to the exemplary embodiment of the present invention, the panel arrangement frame portion 235 and the arrangement adjustment frame portion 235 may be formed of the m (1 ≦ m <M) photocatalyst panels 215 and M of the M photocatalyst panels 215. A predetermined surface of the mth photocatalyst panel 215 and the (m + 1) th photocatalyst panel 215 may be spaced apart by a predetermined interval so as to form an air flow path between the (m + 1) photocatalyst panels 215. At the same time, the air sucked from the outside through the suction unit 240 flows along at least a part of the other surface of the mth photocatalyst panel 215, and the mth photocatalyst panel 215 and the ( m + 1) the mth photocatalyst panel 215 to flow along at least a part of the other side of the (m + 1) photocatalyst panel 215 after flowing between opposing surfaces between the photocatalyst panels 215 The task (m + 1) photocatalyst panel 215 may be fixed in a zigzag arrangement.

According to the exemplary embodiment of the present invention, the frame part 235 may include at least one photocatalyst panel 215 and the N UV lamps of the M photocatalyst panels 215 disposed and fixed by the panel arrangement frame part 235. The lamp 220 is provided with a lamp arrangement frame unit 235 for fixing a predetermined number of UV lamps 220 of the unit 220 spaced apart in a distance relationship of a specified vertical distance d.

Referring to FIG. 2 according to the embodiment of the present invention, the air purification module 210 is disposed by fixing a predetermined number of UV lamps 220 on one surface facing the photocatalyst panel 215 and the UV lamp unit A lamp arrangement unit 225 having a circuit for UV light emission of 220 may be further provided.

According to the embodiment of the present invention, in order to emit the UV light of the UV lamp unit 220, in addition to the UV lamp unit 220, a power supply for the light emission of the UV and a lamp related circuit configuration are required. The manufacturing cost is increased to mount directly to 235). In the present invention, after mounting a predetermined number of UV lamp unit 220 and the lamp-related circuit configuration in a separate lamp arrangement unit 225, the lamp arrangement unit 225 is designated by the lamp arrangement frame unit 235 The fixed number of the photocatalyst panels 215 and the lamp arrangement portion 225 of the M photocatalyst panels 215 arranged and fixed through the panel arrangement frame portion 235 is fixed to the arrangement area. It can be processed so that the distance relationship of the specified vertical distance d between the UV lamp unit 220 of. For example, the lamp arrangement 225 may include a predetermined number of UV lamps 220 and a PCB (Printed Circuit Board) form that can be mounted to the lamp-related circuit configuration, the UV lamp 220 In order to efficiently dissipate the heat generated by the metal may include a PCB.

According to the exemplary embodiment of the present invention, the lamp arrangement unit 225 arranges and fixes a predetermined number of UV lamp units 220 on one surface facing the photocatalyst panel 215, and fixes the UV lamp unit 220. The lamp-related circuit arrangement may be mounted on one or more of the same or opposite sides of the fixed surface. The lamp arrangement unit 225 arranges and fixes one of the UV lamp units 220 of the N UV lamp units 220 on one surface facing the photocatalyst panel 215 or to the photocatalyst panel 215. N (2 ≦ n ≦ N) UV lamps 220 among the N UV lamps 220 may be disposed and fixed on an opposite surface.

Meanwhile, when n (2 ≦ n ≦ N) UV lamp parts 220 are disposed and fixed on one surface of the lamp arrangement part 225 facing the photocatalyst panel 215, the lamp arrangement part 225 may be It is preferable to arrange and fix the spacing relationship between the n UV lamp parts 220 emitting UV to the same surface of the photocatalyst panel 215 in the spacing relationship of the designated lamp spacing L. As shown in FIG. According to the embodiment of the present invention, if the designated radiation angle in the design of the UV lamp unit 220 is θ, and the vertical distance between the UV lamp unit 220 and the photocatalyst panel 215 is d, the n UVs It is preferable that the designated lamp interval L designated for arranging the lamp portions 220 to include the interval within the designated maximum interval Lma2 (Lma2 = 2 * d * tan (θ / 2)). Preferably, the designated lamp interval L designated to space the n UV lamp units 220 apart from each other is an interval in which the specified maximum interval Lma2 is reduced by a predetermined ratio (for example, an interval of 30% to 50% reduction in Lma2). It may include.

Meanwhile, according to the exemplary embodiment of the present invention, when the n UV lamp units 220 are spaced apart by a predetermined lamp interval L, the photocatalyst panel 215 may be divided by the specified radiation angle of the UV lamp unit 220. UV light emitted from the UV lamp unit 220 may include a UV overlapping region is irradiated by overlapping. That is, the light intensity and the wavelength spectrum of UV emitted from one UV lamp unit 220 are light in which the photocatalytic function of the photocatalytic material can be activated in the region of the photocatalyst panel 215 near the UV lamp unit 220. Although it may include the effective range of the intensity and the wavelength spectrum, when the deviation from the vertical direction of the UV lamp unit 220 by a predetermined angle or more, at least one of the light intensity and the wavelength spectrum may be out of the effective range. In this case, the present invention sets a UV overlapping region in which UVs emitted from two or more UV lamps 220 are overlapped and irradiated on the photocatalyst panel 215 to a predetermined angle or more in a vertical direction of the UV lamp unit 220. The photocatalyst panel 215 may be processed to be irradiated with UV of the effective light intensity and wavelength spectrum.

According to the exemplary embodiment of the present invention, when the lamp arrangement unit 225 having a predetermined number of UV lamp units 220 and a lamp related circuit configuration is prepared, the lamp arrangement frame unit 235 is the lamp arrangement unit 225. The UV light emitted from the UV lamp unit 220 maximizes the photocatalytic function of the photocatalyst material while forming a flow path for the flow of air between the UV lamp unit 220 and the photocatalyst panel 215 disposed at The photocatalyst panel 215 and the lamp arrangement 225 may be placed and fixed in a specified geometric relationship designed to irradiate the photocatalytic material coated on the beads integrated in the photocatalytic panel 215 with an intensity and an effective wavelength spectrum.

Referring to FIG. 2 according to the embodiment of the present invention, the air purification module 210 is disposed on a surface different from the surface on which the UV lamp unit 220 is disposed among the surfaces of the lamp arrangement unit 225. The UV lamp unit 220 may further include a heat dissipation fin unit connected to a heat conductive material to conduct heat generated by the UV lamp unit 220 during heat emission.

The UV lamp unit 220 is continuously heated while emitting UV, according to the applicant's experiment, when the UV lamp unit 220 does not radiate the UV lamp unit 220 in the inner space of the air purifier 200 The temperature of the unit 220 and its surroundings rises to about 150 ° C. or more, in which case, the light intensity of the UV lamp unit 220 may be modified or a portion of the wavelength spectrum may be modified. The deformation of reduces the photocatalytic function of the photocatalytic material. Thus, the present invention is connected to the UV lamp unit 220 and the thermal conductive material on the other side of the surface of the lamp arrangement unit 225 where the UV lamp unit 220 is disposed, the UV lamp unit 220 The heat dissipation fin portion is disposed to conduct heat to the heat generated during the UV light emitting process of the heat dissipation; The temperature of the lamp unit 220 and its surroundings can be maintained within a specified temperature range. Preferably, the heat radiation fin part may include a metal material or a graphite material having high thermal conductivity. For example, the heat dissipation fin unit may maintain the temperature of the UV lamp unit 220 and the surroundings at 60 ° C to 70 ° C or less.

According to the embodiment of the present invention, the lamp arrangement unit 225 having a predetermined number of UV lamp unit 220 and a lamp related circuit configuration and having a heat dissipation fin unit for heat dissipation of the UV lamp unit 220 according to the embodiment. Is prepared, the lamp arrangement frame unit 235 forms the flow path for the flow of air between the UV lamp unit 220 and the photocatalyst panel 215 disposed in the lamp arrangement unit 225, the UV lamp unit In the geometric relationship specified, the UV emitted at 220 is designed to irradiate the photocatalytic material coated on beads integrated in the photocatalytic panel 215 with an effective light intensity and an effective wavelength spectrum that maximize the photocatalytic function of the photocatalytic material. The photocatalyst panel 215 and the lamp arrangement 225 may be fixedly arranged.

According to the method of the present invention, the lamp arrangement frame portion 235 is the lamp arrangement portion 225 to form a flow path for flowing the air sucked from the outside near the projection pin portion provided in the lamp arrangement portion 225 ) Is preferably fixed.

According to the exemplary embodiment of the present invention, at least one of the upper frame portion 235 and the lower frame portion 235 may have external air from one side direction designated based on the position of the photocatalyst panel 215. It may include a suction unit 240 having a designated suction area for suction. Meanwhile, at least one frame part 235 of the upper frame part 235 and the lower frame part 235 discharges air in one direction different from the suction part 240 based on the position of the photocatalyst panel 215. It may include a discharge portion 245 having a specified discharge area for.

According to the exemplary embodiment of the present invention, the discharge area of the discharge part 245 includes an area smaller than or equal to the suction area in order to maximize the flow time during which air sucked from the outside flows in contact with the photocatalyst panel 215. (Or the suction area of the suction part 240 may include an area smaller than or equal to the discharge area to maximize the flow time of the air sucked from the outside in contact with the photocatalyst panel 215). However, the area relationship between the discharge area and the suction area is not limited to the above relationship, and when the flow time is controllable by the pressure generated by the fan unit 250, the area relationship between the discharge area and the suction area may be omitted. Do.

Meanwhile, according to the experiments of the applicant, air purification by the photocatalytic material provided in the photocatalyst panel 215 is maintained by keeping the wavelength spectrum of the UV lamp unit 220 including the UV_LED constant or minimizing the wavelength spectrum deformation caused by external environmental changes. In order to maximize the function, the operating power applied to each UV lamp unit 220 preferably satisfies the constant current condition that maintains a constant current value. Preferably, the operating power for each UV lamp unit 220 is 350 mA (±). An operating power source that satisfies the constant current condition of 10 mA) and the voltage condition of at least DC 3.6V or more (or DC 3.6V to 4.0V) is preferably applied. Conventional UV light emitting circuits are designed to maintain a constant voltage rather than a constant current, and the present invention is characterized by maintaining a constant current.

According to the exemplary embodiment of the present invention, the operating power of the UV lamp unit 220 may be supplied from the outside (eg, a vehicle) through the operation module 300 and / or through a separate power supply unit.

According to the exemplary embodiment of the present invention, the operating power of the UV lamp unit 220 preferably satisfies a constant current condition of 350 mA (± 10 mA) and a voltage condition of at least DC 3.6 V or more (or DC 3.6 V to 4.0 V). However, the condition of this operating power supply can not be achieved through a conventional USB power supply (eg, DC 5V), but can be achieved through a vehicle power supply (eg, DC 12V, DC 24V for large vehicles).

According to the exemplary embodiment of the present invention, the vehicle power is preferably applied in parallel to the two lamp arrangements 225, and the two lamp arrangements 225 are arranged in parallel to each lamp arrangement. It is preferable to apply in series to each of the two UV lamp unit 220 provided in the unit 225. According to the implementation method of the present invention, it is preferable that a predetermined constant current of 350 mA (± 10 mA) and a voltage of at least DC 3.6 V or more are applied to each UV lamp unit 220. When applied in parallel to 225 and then applied in series relation to the two UV lamp unit 220 in each lamp arrangement 225, the constant current specified in each UV lamp unit 220 and the minimum DC 3.6V or more In order to apply the voltage, a voltage of at least DC 7.2V or higher is required, and a voltage of at least DC 9.2V is required in consideration of a reserve voltage of DC 2V (eg, a reserve voltage of DC 1.0V per UV lamp unit 220). . On the other hand, when applying a constant current and a voltage of DC 4.0V to each UV lamp unit 220, a voltage of at least DC 8.0V is required, and considering the preliminary voltage of DC 2V, a voltage of DC 10.0V is required. The operating power of the UV lamp unit 220 is difficult to achieve through the USB power, it can be achieved by rectifying the AC power through the vehicle power of DC 12V or a separate adapter. Meanwhile, in order to operate the air purification module 210, a specified operating power (eg, DC 1.5V to 3.0V) must be applied to the fan unit 250, and the operation of the operation module 300 or at least one wireless communication. For this purpose, a designated operating power source (eg, DC 3.5V to 5.0V) should be applied, and a specified operating power source should also be applied for the operation of the interface module 260 or sound wave input / output of the signal strength. In the state in which the air purification function is activated in the purifier 200, the operating power of the UV lamp unit 220 should be applied with the highest priority. For example, when the power supply is unstable or when operating in the sleep mode, the operation module 300 may cut off the operation power of some of the operating power of the fan unit 250 or the operating power of the interface module 260, For example, even when the operation power of the fan unit 250 is cut off, air flow may be caused by natural convection caused by heat generated by the operation of the UV lamp unit 220 (eg, heat generated by the heat radiating fin unit).

The fan unit 250 is provided on at least one side of the suction unit 240 and the discharge unit 245 to suck air from the outside through the suction unit 240 to allow the photocatalyst panel ( After the flow path formed between the 215 and the UV lamp unit 220 and between the photocatalyst panel 215 and the photocatalyst panel 215 flows, a pressure for discharging the discharge unit 245 is generated. Preferably, the fan unit 250 includes a propeller and a motor for generating the pressure and a body for fixing the propeller and the motor, wherein the motor is based on a specified operating power applied to the fan unit 250. The propellers can be rotated at a specified speed. On the other hand, if you want to control the motor rotational speed of the fan unit 250, the operation module 300 may be provided with a control circuit or a control-related configuration for controlling the rotational speed of the motor, whereby the present invention It is not limited.

According to the exemplary embodiment of the present invention, the photocatalyst panel 215 has a designated double-sided geometry and has a flow distance f (40 mm ≦ f in which air flowing in contact with one surface of the photocatalyst panel 215 flows along the one surface). ≤ 120 mm) can be set. For example, a rectangular photocatalyst panel 215 having a short side length of 60 mm and a long side length of 80 mm is vertically arranged as shown in FIG. 2, and the suction part 240 of the lower frame part 235 is disposed. When the air sucked from the side flows while contacting one surface of the photocatalyst panel 215, the flow distance f of the photocatalyst panel 215 may be 80 mm.

On the other hand, when the M photocatalyst panels 215 having the flow distance f are zigzag arranged as in the embodiment of FIG. The designated flow path distance F (F ≦ (M + 1) * f) may flow while sequentially contacting each designated surface of the 215, in which case the fan unit 250 is sucked through the suction unit 240. Preferably, the air flows through the designated flow path distance F to generate a pressure that takes at least the specified flow time s (s ≧ 0.5) seconds until the air is discharged to the outside through the discharge portion 245.

According to the exemplary embodiment of the present invention, the fan unit 250 takes a flow time of 1 second or more for air sucked from the outside to flow the designated flow path distance F in a designated operation mode (eg, a normal mode or a low noise mode). It is preferable to generate a pressure, and even in a high speed mode in which the motor of the fan unit 250 rotates at a high speed, air sucked from the outside flows through the beads of the photocatalytic panel 215 and reacts with the photocatalytic material to be harmful. It is desirable to ensure a flow time (eg, reaction time) of at least 0.5 seconds so as to ensure a minimum reaction time (or contact holding time) for decomposition. That is, in order to maintain the probability that the photocatalytic material of the photocatalytic panel 215 decomposes harmful components in the air at a predetermined level or more in the air purification module 210 of the present invention, the minimum reaction time required for the air and the photocatalytic material to contact and react. (Or contact holding time) is preferable, and by rotating the propeller of the fan unit 250 at a high speed to flow the air quickly, more air does not decompose faster or purify faster. According to the applicant's experiment, a flow time of at least 0.5 seconds or more must be secured until the air sucked through the suction part 240 flows through the designated flow path distance F and is discharged to the outside through the discharge part 245. Preferably, a flow time of at least 1 second should be ensured.

On the other hand, according to the embodiment of the present invention, the propeller of the fan unit 250 when the air sucked through the suction unit 240 flows through the designated flow path distance F is discharged to the outside through the discharge unit 245 It is desirable to rotate at the specified rotational speed v to produce a pressure that takes at least the specified flow time. The rotational speed of the propeller provided in the fan unit 250 is controlled by a voltage value or a current value of the operating power applied to the motor of the fan unit 250 or a control circuit or control for controlling the rotational speed of the motor. It can be controlled by a signal delivered from the configuration.

According to the embodiment of the present invention, the designated rotational speed v of the propeller provided in the fan unit 250 to secure the flow time is the discharge portion 245 of the discharge unit 245 in addition to the flow path distance F which is the sum of the distances flowing along the designated flow path. The discharge area or the suction area of the suction unit 240 may be calculated using a variable as a factor. In particular, when the discharge area of the discharge unit 245 is less than or equal to the suction area of the suction unit 240, The designated rotational speed v of the propeller provided in the fan unit 250 may be calculated using variables such as the flow path distance F and the discharge area of the discharge unit 245 as factors. Therefore, based on the flow path distance F and the discharge area of the discharge part 245, air sucked through the suction part 240 flows through the designated flow path distance F to be discharged to the outside through the discharge part 245. When the rotational speed v for securing a specified flow time s is calculated, the operating module 300 applies power to the fan unit 250 to maintain the calculated rotational speed v or the calculated rotational speed. You can pass a signal to hold v.

The suction part 240 sucks outside air from one side direction specified based on the pressure generated by the rotational speed v of the propeller of the fan part 250, and the discharge part 245 is the fan part 250. On the basis of the pressure by the air sucked from the outside to discharge in one direction.

3 is a view showing a functional configuration of the operation module 300 provided in the air purifying apparatus 200 according to the embodiment of the present invention.

In more detail, FIG. 3 shows a predetermined number of photocatalyst panels in which a plurality of silicon-component beads coated with a photocatalytic material are formed in a panel form, and a predetermined number of UV lamps that emit UV light in a UV (UltraViolet) -A wavelength band. It has an air purification module arranged in a geometric relationship to operate the air purification function to purify the air, and has a voice recognition function for recognizing the voice uttered by the user and a voice output function for outputting the voice to the user. OBD interworking function to interlock with the vehicle OBD (On-Board Diagnostics) to obtain the driving information or status information of the vehicle from the vehicle OBD periodically / real-time, and has a network communication function for connecting to the communication network designated operation server 100 Sound wave transmission function and sound wave input sound to communicate with An operating module provided in the air purifier 200 which operates in unison with the user wireless terminal 190 within the reach of the sound wave signal having a sound wave reception function for recognizing the encoded bit string by reading a signal ( The functional configuration of 300 is illustrated, and a person of ordinary skill in the art to which the present invention pertains can refer to and / or modify this drawing 3 to implement various methods (e.g., a part) of the operation module 300. It may be inferred that the implementation is omitted, subdivided, or combined), but the present invention includes all the implementation methods inferred, the technical features are limited only by the implementation method shown in FIG. Not.

Referring to the embodiment of FIG. 3, the operation module 300 includes a control unit 205 and a memory unit 240, a sound wave input unit 210 for receiving a sound wave signal, and a sound wave output for outputting a sound wave signal. The unit 215 includes a short range wireless unit 220 for processing short range wireless communication, a wireless network communication unit 225 for connecting to a communication network via a wide area wireless network, and a power supply unit 245 for receiving power. . Meanwhile, the operation module 300 may further include a location positioning unit 235 for positioning location information using a global positioning system (GPS), and / or a local area communication unit for connecting to a communication network via a local area wireless network ( 230, and may further include an input unit (not shown) for receiving a user's operation according to an embodiment, and / or an output unit (not shown) for outputting various operation states or information. .

The control unit 205 is a generic term for a configuration for controlling the operation of the operation module 300, and includes at least one processor and an execution memory, and / or includes various chips or control circuits. Each component provided in the module 300 is connected through a bus. According to the present invention, the controller 205 loads and computes at least one program code included in the operation module 300 through the processor into the execution memory, and calculates at least one result through the bus. By transmitting to the unit to control the operation of the operation module 300. The functional configuration of the present invention may be implemented in the form of program code and / or in the form of a chip or a control circuit, and for the sake of convenience, the present invention may be implemented in the form of program code and / or a chip or control circuit. A description will be made within 205.

The memory unit 240 is a generic term for a nonvolatile memory corresponding to a storage resource of the operation module 300, and includes at least one program code executed through the control unit 205 and at least one program code used by the program code. Save and maintain the data set. The memory unit 240 is basically a system program code and a system data set corresponding to the operating system of the operating module 300, a communication program code and a communication data set for processing a wireless communication connection of the operating module 300 and at least One application program code and an application data set are stored, and the program code and data set corresponding to the functional configuration implementing the present invention may also be stored in the memory unit 240.

The power supply unit 345 is a generic term for a component that receives external power required for the operation of the air purifier 200, and preferably includes a configuration for receiving vehicle power required for the operation of the air purifier 200. It is preferable. According to the embodiment of the present invention, the power supply unit 345 may include a configuration in which the vehicle power is supplied from the cigar jack of the vehicle. According to another exemplary embodiment of the present invention, the power supply unit 345 may receive the vehicle power from the electric field of the vehicle in addition to the cigar jack, whereby the present invention is not limited thereto. If the air purifier 200 is mounted in a mounting space other than a vehicle, AC power may be rectified and supplied to a DC power corresponding to the vehicle power using a designated adapter.

According to the exemplary embodiment of the present invention, the power supply unit 345 receives the vehicle power and supplies the vehicle power when the air purification function of the air purification module 210 is activated through the operation module 300. On the basis of this, the operating power supply of the UV lamp unit for the air purifying function (for example, each UV lamp unit satisfies a constant current condition of 350 mA (± 10 mA) and a voltage condition of at least DC 3.6V or more (or DC 3.6V to 4.0V)). Power supply) and a configuration for applying the operation power required for the air purification control operation of the operation module 300.

According to the exemplary embodiment of the present invention, the operation module 300 controls the operation power of the UV lamp unit 220 and the air purification control of the operation module 300 by using the vehicle power supplied through the power supply unit 345. In the state that the operating power required for the operation is applied (however, the operation of the UV lamp unit 220 can be omitted if the air purification function is deactivated) using the remaining power of the vehicle power supplied to the operation module 300 Wireless communication or additional service-related operation power or the operation power for the sound wave input and output of the interface module 260 is applied, and based on the user operation or voice recognition through the interface module 260 of the air purification module 210 The operating power of the fan unit 250 may be selectively applied or the amount of power may be controlled.

According to the exemplary embodiment of the present invention, the power supply unit 345 may further include a power charging unit (not shown) for charging the vehicle power. In this case, the operation module 300 is turned off to start the vehicle cigarette lighter. Even when the vehicle power is not supplied from the power supply to the UV lamp unit 220 by applying the charging power charged in the charging unit may provide an air purification function for a predetermined time. Alternatively, even when the vehicle power is not supplied, the operation module 300 and the interface module 260 perform an operation for one or more wireless communication or various additional services for a predetermined time by using the charging power charged in the power charging unit. can do.

The sound wave input unit 210 is a generic term for a component that receives a sound wave signal, and includes a microphone for receiving a sound wave signal and a sound wave input module for digitizing the input sound wave signal. Preferably, the sound wave input unit 210 receives a sound wave signal (eg, a sound wave signal including a voice signal uttered by a user) of an audible frequency band through the microphone, and inputs the audible frequency according to a specified encoding standard. The sound wave data generated by encoding a sound wave signal of a band may be provided to the controller 205. According to the embodiment, the sound wave input unit 210 may not only receive an acoustic wave signal of an audible frequency band through the microphone, but also a sound wave signal of an inaudible frequency band (eg, ultrasonic wave), and input the microphone. The sound wave signal of the inaudible frequency band may also be provided to the controller 205 by encoding the sound wave signal generated according to a specified encoding standard.

The sound wave output unit 215 is a generic term for a component for outputting a sound wave signal, and includes one or more speakers for outputting sound wave signals and a sound wave output module for controlling signal intensity and output quality of the sound wave signals output from the speaker. It is composed. Preferably, the sound wave output unit 215 outputs sound wave signals generated by decoding sound wave data requested to output sound waves through the control unit 205 through the speaker, and outputs the sound wave signals. By controlling the signal strength of the signal to a specified signal strength, the sound wave output (for example, the sound wave output at a signal intensity controlled so as not to reach the outside of the vehicle, or the window is open while driving, When some of the components are abnormal and the ambient noise exceeds the reference value, the signal intensity of the sound wave signal is amplified by a certain ratio to output the sound wave) and / or the output quality of the sound wave signal output (eg Fs. Qts). Sound wave output (eg, due to resonance of the speaker) by controlling or blocking the sound wave distortion as much as possible By controlling the output quality of the sound wave to block / suppress the sound wave distortion, the sound wave components corresponding to the segmented sound on the sound signal can be clearly distinguished so that the audible (or audible) sound level can be maintained above a certain level. When the output quality of the sound wave is controlled and the bit string is encoded and output to the output or the sound wave signal, the output quality of the sound wave may be controlled so as to block / suppress the distortion of the frequency or signal intensity at which the bit string is encoded.

The short range wireless unit 220 is a generic name of a component that processes short range wireless communication of a specified standard in the vehicle, and may include a Bluetooth component that processes Bluetooth based short range wireless communication according to a Bluetooth standard. . However, the short-range wireless communication-related configuration of the short-range wireless unit 220 is not limited to Bluetooth-based short-range wireless communication according to the Bluetooth standard, it is possible to use short-range wireless communication of various standards other than Bluetooth according to the intention of those skilled in the art (eg Wi-Fi based near field communication according to Wi-Fi standard, Zigbee based near field communication according to ZigBee standard, UWB based near field communication according to UWB standard, etc. Available). Hereinafter, for convenience, the features of the present invention will be described based on the embodiment in which the short range wireless unit 220 processes the Bluetooth based short range wireless communication. However, the present invention is not limited thereto.

According to the method of the present invention, the vehicle is provided with an OBD port for connecting to the vehicle OBD according to the specification after On-Board Diagnostics (IID) -II near the driver's seat. The operation module 300 may be configured with an OBD module 180 having a function of processing a near field communication unit 220 and a near field wireless communication, and the OBD module 180 may be connected to an OBD port of the vehicle. It is connected, operates by receiving the operating power from the OBD port, and obtains OBD information according to the specified OBD standard from the vehicle OBD in the state connected to the OBD port. The OBD module 180 is provided with a near field wireless module that is paired with a near field wireless unit 220 of the operating module 300 to process near field wireless communication, and agrees with the operating module 300 through the near field wireless module. According to the communication protocol, the OBD information obtained from the vehicle OBD is transmitted to the operation module 300 in a short range wirelessly.

According to the first OBD interworking embodiment of the present invention, the OBD module 180 may transmit the OBD information obtained from the vehicle OBD via the OBD port to the operation module 300 through short-range wireless communication as it is, in this case The operation module 300 may receive the OBD information from the OBD module 180 through the short range wireless communication to selectively obtain driving information related to driving of the vehicle or state information related to the state of the vehicle.

According to the second OBD interworking embodiment of the present invention, the OBD module 180 selects the operation information related to the operation of the vehicle and the state information related to the state of the vehicle among the OBD information obtained from the vehicle OBD through the OBD port The short distance wireless communication may be transmitted to the operation module 300. In this case, the operation module 300 may receive driving information or state information of the vehicle from the OBD module 180 through the short range wireless communication. Can be obtained.

Meanwhile, in the OBD interworking embodiment of the present invention, the driving information or the status information of the vehicle obtained from the vehicle OBD is a name for convenience in order to easily explain the purpose or function of the OBD information obtained from the vehicle OBD. In the present invention, the driving information obtained from the vehicle OBD includes a set of information that can be changed by the user's driving behavior among the information obtainable from the vehicle OBD or during the operation of the vehicle, and the status information includes the vehicle among the information obtainable from the vehicle OBD. It is a set of information needed to understand the state of. Therefore, any one of the information obtained from the vehicle OBD may be included in the driving information or in the status information, whereby the present invention is not limited.

According to an embodiment of the present invention, the char device and the OBD module 180 store a key value for cryptographic communication based on short-range wireless communication, or exchange a key value for cryptographic communication at a time point for connecting short-range wireless communication. The OBD module 180 encrypts and transmits information transmitted through short-range wireless communication through the key value, and the operation module 300 receives encrypted information through the OBD module 180. It is preferable to decrypt the data, thereby preventing the information exchanged through short-range wireless communication between the OBD module 180 and the operation module 300 from being exposed to the outside.

According to the exemplary embodiment of the present invention, the short range wireless unit 220 of the operation module 300 and the short range wireless module of the OBD module 180 operate using a vehicle power, but the short range wireless signal for the short range wireless communication is performed. It is preferable to provide short-range wireless communication by transmitting and receiving a short-range wireless signal with a signal intensity set so as not to reach the outside of the vehicle (or a predetermined distance outside the vehicle), whereby the OBD module 180 and the operation module 300 In this case, information exchanged through short-range wireless communication may be blocked from being detected outside the vehicle.

According to an exemplary embodiment of the present disclosure, the short range wireless unit 220 may include at least one of a specified code (eg, a code uniquely assigned to the operation module 300 and a code generated by the operation module 300). And a short distance wireless signal (for example, BLE-based wireless signal of Bluetooth 4.0 or later) that can recognize the code by being received even by a receiver which is not previously paired. In this case, the short range wireless unit 220 uses the vehicle power supplied through the power supply unit 245 to signal strength of the short range wireless signal so that the short range wireless signal transmitted in one direction can reach a predetermined distance outside the vehicle. It can be a one-way transmission by amplifying a specified signal strength, in this case, the short-range wireless signal transmitted in one direction including the code can reach a certain distance outside the vehicle and can be received by a receiving device provided within a certain distance outside the vehicle. The reception apparatus may perform a procedure of recognizing a code included in the short range wireless signal to provide a specific service.

The wireless network communication unit 225 is a generic term for a communication component that connects the operation module 300 to a wide area wireless network (for example, a mobile communication network) via a base station, an antenna for transmitting and receiving radio frequency signals of a designated frequency band, At least one of an RF module, a baseband module, and a signal processing module, connected to the control unit 205 to transmit a calculation result corresponding to wireless communication among various calculation results of the control unit 205 through a wireless network; Alternatively, data is received through a wireless network and transmitted to the controller 205, and at the same time, a procedure of accessing, registering, communicating, and handing off the wireless communication is performed.

According to the embodiment of the present invention, when the wireless network connected through the wireless network communication unit 225 is a mobile communication network, the wireless network communication unit 225 is connected to the mobile communication network according to at least one mobile communication standard, location registration And a mobile communication configuration for performing at least one of call processing, call connection, data communication, and handoff. Meanwhile, according to the intention of the person skilled in the art, the wireless network communication unit 225 performs at least one connection, location registration, data communication, or handoff to a wide area wireless network (for example, a mobile Internet according to the IEEE 802.16 standard) other than the mobile communication network. It may include a portable Internet communication configuration, it will be apparent that the present invention is not limited by the wireless communication configuration provided by the wireless network communication unit 225. That is, the wireless network communication unit 225 provides packet communication-based wireless data communication via the cell-based base station on the wireless network, regardless of the frequency band of the wireless section or the type or protocol of the communication network. Generic term for components that connect to a data network.

The local area network communication unit 230 uses a radio frequency signal as a communication medium within a predetermined distance (for example, within 10 m, or within 30 m, etc.) and a local area wireless communication with a network access device (for example, wireless AP, etc.) provided at a short distance. As a generic term for communication resources connecting the operation module 300 to a communication network to which the network access device is connected through a local area network for connecting a session, preferably Wi-Fi based local area network communication, Bluetooth local area network communication, Zigbee-based local area network Connect the near field wireless communication session between the network connection device provided in the near field and the operation module 300 through at least one of communication, UWB-based local area network communication, public wireless communication, and based on this the operating module 300 Network connection device can be connected to the connected network. According to an exemplary embodiment of the present invention, the local area network communication unit 230 moves to reach a range of radio frequency signals of a specific network access device by moving a vehicle provided with the operation module 300, and the local area network and the local area wireless. When a short range wireless network for connecting a communication session is implemented, the operating module 300 is a general term for a component that connects the operation module 300 to a data network that provides packet data based wireless data communication via a network connection device of the short range wireless network. Hereinafter, for convenience, the network communication function of the operation module 300 will be described with reference to an embodiment using the wireless network communication unit 225, but the present invention is not limited thereto, and the network communication function using the local area network communication unit 230 is described. It is also clearly to be provided.

The position positioning unit 235 is a generic term for a component for positioning the position information of the operation module 300 (or a vehicle having the operation module 300), and preferably uses a GPS (Global Positioning System) based positioning technology. Through the positioning information of the operation module 300 can be measured. For example, the location positioning unit 235 receives the correction signal from an A-GPS (Assisted-GPS) method, a reference receiver on the ground that the operating module 300 reads the location signal sent from the GPS satellite to the base station and receives the satellite The positioning information of the operation module 300 may be positioned by at least one of differential GPS (DGPS) methods for correcting the error of the position signal received from the positioning signal. It is not limited by the method.

Referring to FIG. 3, the operation module 300 includes an air purification operation unit 390 that operates an air purification function of the air purification module using the vehicle power supplied through the power supply unit 345.

The air purification operation unit 390 checks whether the air purification function of the air purification module 210 is activated (or activated based on a user manipulation input or voice recognition through the interface module 260). If the air purifying function of the air purifying module 210 is activated, the air purifying operation unit 390 supplies the specified operating power of the UV lamp unit based on the vehicle power supplied through the power supply unit 345. Operate to apply to each UV lamp portion 220 of (210).

According to the exemplary embodiment of the present invention, the air purification operation unit 390 is a UV lamp unit 220 to which power is applied to each UV lamp unit 220 while the air purification function of the air purification module 210 is activated. It may include a configuration for checking whether the operating power condition of the) and, if the power applied to the UV lamp unit 220 does not satisfy the specified operating power condition conditions the fan unit 150 or the interface module 260 The power applied to the UV lamp unit 220 may be applied to the UV lamp unit 220 so that an operation power supply condition of the UV lamp unit 200 may be firstly satisfied.

Meanwhile, the air purification operation unit 390 determines (or determines) the operation of the fan unit 250 provided in the air purification module 210 based on a user operation input or voice recognition through the interface module 260. When the fan unit 250 operates, the fan unit 250 may be configured to apply the designated operating power of the fan unit 250 to the fan unit 250 among the vehicle power supplied through the power supply unit 345.

Meanwhile, according to the exemplary embodiment of the present invention, the air purification operation unit 390 determines (or confirms) the motor rotation speed of the fan unit 250 based on a user operation input or voice recognition through the interface module 260. And / or the motor rotational speed of the fan unit 250 may be determined based on a sensing result of an air pollution measurement sensor (not shown), and in this case, the air purification operation unit 390 may be configured such that the motor of the fan unit 250 is operated. It can be operated to operate in response to the determined (or confirmed) rotational speed.

Referring to FIG. 3, the operation module 300 connects to a communication network through at least one communication unit of the wireless network communication unit 225 or the local area network communication unit 230 to communicate with a designated operation server 100 on a communication network. The communication processing unit 250 is provided.

The communication processor 250 is a generic term for a functional component that implements a network communication function for connecting the operation module 300 to a communication network. The communication processor 250 may be implemented in the form of a program code, a chip, or a control circuit. , A procedure of connecting to a communication network through at least one communication unit of the wireless network communication unit 225 or the local area network communication unit 230, a process of connecting a communication channel with a server on a communication network including the operation server 100, and the communication channel. Perform one or more of the procedures for transmitting and receiving the specified information with the server on the communication network through.

When the wireless network communication unit 225 wirelessly communicates with a base station on a wide area wireless network (for example, a mobile communication network), the communication processing unit 250 may communicate on the communication network via the wide area wireless network through the wireless network communication unit 225. The communication channel may be connected to the operation server 100, and the designated information may be transmitted and received with the operation server 100 through the communication channel. Meanwhile, when the local area network communication unit 230 is provided in the operation module 300 and the local area network communication unit 230 wirelessly communicates with the local area network connection device, the communication processing unit 250 is the local area network communication unit 230. Through the short-range wireless network to connect the communication channel with the operating server 100 on the communication network, and through the communication channel can transmit and receive the specified information with the operating server 100.

According to the extended embodiment of the present invention, the communication processing unit 250 is connected to the server other than the operation server 100 through at least one communication unit of the wireless network communication unit 225 or the local area network communication unit 230 (eg, , A service server for providing a specific service, a payment server for providing a payment service, a financial server for providing a financial transaction, etc.) and a communication channel, and may transmit and receive the specified information with the server through the communication channel.

Referring to FIG. 3, the operation module 300 obtains driving information or status information of the vehicle from the vehicle OBD by performing wireless communication with the OBD module 180 connected to the vehicle OBD via the short range wireless unit 220. And an OBD interworking unit for selecting the driving information or the status information to be transmitted to the operation server 100 among the driving information or the status information obtained from the vehicle OBD and transmitting the driving information or status information to the operation server 100 through the communication processing unit 250 ( 255).

The OBD interworking unit 255 is a generic term for a functional component that implements an OBD interworking function interworking with the vehicle OBD. The OBD interworking unit 255 is implemented in a form of a program code, a chip or a control circuit, or a combination of the two. And a function of acquiring driving information or status information of the vehicle from the vehicle OBD by short-range wireless communication with the OBD module 180 connected to the vehicle OBD through a 220, and among the driving information or status information obtained from the vehicle OBD. The apparatus may further include a function of selecting operation information or status information to be transmitted to the operation server 100 and transmitting the operation information or status information to the operation server 100 through the communication processor 250.

According to the exemplary embodiment of the present invention, the OBD interworking unit 255 stores the driving information of the vehicle obtained from the vehicle OBD through the short range wireless communication of the short range wireless unit 220 in a designated storage area for a predetermined period of time. Among the operation information stored in the designated storage area may include the function to check the operation information to be transmitted to the operation server 100, and transmit the confirmed operation information to the operation server 100 through the communication processing unit 250. have.

According to the first driving information transmission embodiment of the present invention, the OBD linkage unit 255 transmits the driving information to the operation server 100 at predetermined time intervals among the driving information obtained from the vehicle OBD and stored in a designated storage area. Checking and transmitting to the operation server 100 through the communication processing unit 250.

According to the second driving information transmission embodiment of the present invention, the OBD linkage unit 255 transmits the driving information to the operation server 100 at predetermined time intervals among the driving information obtained from the vehicle OBD and stored in a designated storage area. While performing the function of confirming and transmitting to the operation server 100 through the communication processor 250, the operation information newly stored in the storage area and one or more operation information previously stored in the storage area. In comparison, it is checked whether the driving information newly stored in the storage area includes one or more information that is changed non-linearly. If one or more pieces of information that are nonlinearly changed are included in the storage information newly stored in the storage area, the OBD interworking unit 255 is changed non-linearly regardless of a predetermined time interval set to transmit the driving information. Determining the operation information including the information as the operation information to be immediately transmitted to the operation server 100 to immediately transmit the operation information including the non-linearly changed information to the operation server 100 through the communication processing unit 250 It may further include a function to.

According to the third driving information transmission embodiment of the present invention, the OBD linkage unit 255 transmits the driving information to the operation server 100 at predetermined time intervals among the driving information obtained from the vehicle OBD and stored in a designated storage area. While performing the function of confirming and transmitting to the operation server 100 through the communication processor 250, the operation information newly stored in the storage area and one or more operation information previously stored in the storage area. In comparison, it is checked whether the driving information newly stored in the storage area includes one or more pieces of information that are changed beyond a specified threshold. If the storage information includes one or more pieces of information that are changed in excess of a predetermined threshold value, the OBD interworking unit 255 is configured to transmit the driving information regardless of a predetermined time interval. The driving information including the changed information exceeding the threshold value is determined as the driving information to be immediately transmitted to the operation server 100 and changed to exceed the predetermined threshold value to the operation server 100 through the communication processing unit 250. The method may further include a function of immediately transmitting driving information including the information.

According to the method of the present invention, when the operation module 300 is provided with a location positioning unit 235, the OBD linkage unit 255 checks the location information positioned through the location positioning unit 235 and In order to transmit the confirmed location information while transmitting the driving information to the operation server 100 through the communication processing unit 250, or the location information to the driving information transmitted to the operation server 100. Can be included and processed for transmission.

According to the exemplary embodiment of the present invention, the OBD interworking unit 255 stores the state information of the vehicle obtained from the vehicle OBD through a short range wireless communication of the short range wireless unit 220 in a designated storage area for a predetermined period of time. Among the state information stored in the designated storage area may include the function to check the state information to be transmitted to the operation server 100, and transmit the checked state information to the operation server 100 through the communication processing unit 250. have.

According to the first state information transmission embodiment of the present invention, the OBD interworking unit 255 stores the state information obtained from the vehicle OBD in a designated storage area, the state information newly stored in the storage area and the storage area. Compares one or more pieces of state information previously stored in the terminal to check whether the state information newly stored in the storage area includes one or more pieces of information corresponding to the state change. If the state information newly stored in the storage area includes one or more information corresponding to a state change, the OBD interworking unit 255 may provide the state information including the information corresponding to the state change to the operation server 100. The method may further include a function of transmitting the state information including the information corresponding to the state change to the operation server 100 through the communication processing unit 250 by determining the state information to be transmitted.

According to the first state information transmission embodiment of the present invention, the OBD interworking unit 255 stores the state information obtained from the vehicle OBD in a designated storage area, but the state information newly stored in the storage area and the normal state of the state information. The state information is compared and read to confirm whether the stored state information includes one or more pieces of information corresponding to an abnormal occurrence. If the stored state information includes one or more information corresponding to an abnormal occurrence, the OBD interworking unit 255 transmits the state information including information corresponding to the abnormal occurrence to the operation server 100. Determining the information may further include a function of transmitting the state information including the information corresponding to the occurrence of the abnormality to the operation server 100 through the communication processing unit 250.

According to the method of the present invention, when the operation module 300 is provided with a location positioning unit 235, the OBD linkage unit 255 checks the location information positioned through the location positioning unit 235 and In order to transmit the confirmed location information while transmitting the status information to the operation server 100 through the communication processing unit 250, or the location information to the status information transmitted to the operation server 100. Can be processed to send.

Referring to FIG. 3, the operation module 300 may include a voice recognition unit configured to read a sound wave signal of an audible frequency band input through the sound wave input unit 210 and perform a procedure for recognizing a voice spoken by a user ( 260 and a voice output unit 265 for performing a process of voice outputting a sound wave signal including voice in an audible frequency band through the sound wave output unit 215.

The voice recognition unit 260 is a generic term for a functional component that implements a voice recognition function for recognizing a voice spoken by a user. The voice recognition unit 260 may be implemented in the form of a program code, a chip, a control circuit, or a combination of the two. The sound wave data generated by digitizing the sound wave signal of the audible frequency band input through the sound wave input unit 210 is read to perform a designated voice recognition procedure for recognizing the voice uttered by the user.

According to the first voice recognition embodiment of the present invention, the voice recognition unit 260 checks sound wave data obtained by digitizing sound wave signals of an audible frequency band among sound wave signals input through the sound wave input unit 210, and specifies a designated voice. The sound wave data may be analyzed through a recognition algorithm to recognize a voice spoken by a user to generate textual speech recognition information.

According to the second voice recognition embodiment of the present invention, the voice recognition process may be performed through the operation server 100 (or a separate voice recognition server (not shown)) in communication with the operation module 300, In this case, the voice recognition unit 260 checks sound wave data obtained by digitizing the sound wave signal of an audible frequency band among sound wave signals input through the sound wave input unit 210, and the user recognizes the sound spoken by the user from the sound wave data. In order to extract the corresponding voice information, and to transmit the extracted voice information to a designated recognition server (not shown) or the operation server 100 to process the voice recognition can be processed to recognize the speech spoken by the user. Meanwhile, when the voice information is transmitted to the recognition server or the operation server 100 and processed to recognize the voice, the recognition server or the operation server 100 transmits text recognition voice recognition information by recognizing the user's voice. The voice recognition unit 260 may recognize the user's voice from the recognition server or the operation server 100 to receive text recognition voice recognition information and use the voice recognition information recognized in the operation module 300. . Meanwhile, according to another exemplary embodiment of the present invention, when the recognition server recognizes the voice, the recognition server provides the recognized voice recognition information to the operation server 100 or a specific service server to be used in a service procedure. Alternatively, when the operation server 100 recognizes the voice, the operation server 100 uses the recognized voice recognition information in a service procedure or provides a separate service server to process the service. In this regard, the present invention is not limited thereto.

According to a third voice recognition embodiment of the present invention, the voice recognition unit 260 performs a procedure for recognizing a voice spoken by a user in a form of at least partially combining the first and second voice recognition embodiments. The present invention is not limited thereto.

Meanwhile, in the present invention, the description of performing the procedure of recognizing a user's voice through the voice recognition unit 260 is to perform a function provided for at least one of the first to third voice recognition embodiments. For convenience, even if the operation module 300 is described as directly recognizing the voice recognition information based on the first voice recognition embodiment, this actually performs at least one of the first to third voice recognition embodiments. It is clear that it is.

The voice output unit 265 is a generic term for a functional component that implements a voice output function for outputting a voice to a user. The voice output unit 265 may be implemented in the form of a program code, a chip, or a control circuit, or a combination of the two. Through the unit 215, a procedure of outputting a sound wave signal corresponding to a sound signal corresponding to a sound in the audible frequency band (for example, a sound wave component corresponding to a segment sound of the audible frequency band) is performed.

According to the first voice output embodiment of the present invention, the voice output unit 265 checks the voice information based on the text information, and the voice signal having the sound wave component corresponding to the segmented sound based on the text information based voice output information. It may include a function to convert the form into a utterance output through the sound wave output unit 215.

According to a second voice output embodiment of the present invention, the voice output unit 265 checks voice signal type voice output information (eg, sound wave data including voice signals) having a sound wave component corresponding to a segmented sound, and The sound wave output unit 215 may include a function of reproducing the sound by reproducing the sound signal type sound output information.

According to the third voice output embodiment of the present invention, the voice output unit 265 may perform a procedure of outputting a voice in a form of at least partially combining the first and second voice output embodiments. The present invention is not limited thereby.

According to an exemplary embodiment of the present invention, the voice output unit 265 is obtained through the OBD interworking unit 255 during voice output through at least one embodiment of the first to third voice output embodiments. Read the information to see if the vehicle is driving. In addition, the voice output unit 265 reads the state information acquired through the OBD interlocking unit 255 to check whether at least one window is open while driving the vehicle, or inputs it through the sound wave input unit 210. The noise increase rate of the sound wave signal is read to determine whether the at least one window is opened while the surrounding operation is increased while driving the vehicle. If the at least one window is opened and the ambient noise is increased while the vehicle is driving through the checking process, the voice output unit 265 generates a voice in an audible frequency band in a vehicle stopped state or a window not open. Outputs sound wave signals including audio in the audible frequency band with amplified signal strength over a certain ratio higher than the default signal strength set to output the signal (e.g., proportional to the increase rate of the noise in the vehicle stop state or the window unopened state). It may include a function to. As a result, the voice output unit 265 may maintain an audible level (or hearing sensitivity) of a predetermined level or more with respect to the sound wave signal that is output from the voice even when at least one window is opened while the vehicle is running.

Referring to FIG. 3, the operation module 300 reads a sound wave signal input through the sound wave input unit 210 and recognizes sound wave reception information corresponding to a bit string encoded in the sound wave signal. And a sound wave transmitter 275 for encoding a string of bits corresponding to the sound wave transmission information to be transmitted to the sound wave signal, outputting the sound wave at a designated signal intensity through the sound wave output unit 215, and transmitting the sound wave to a specified short distance. do.

The sound wave receiver 270 is a generic term for a functional component that implements a sound wave reception function for reading a sound wave signal input through the sound wave input unit 210 to recognize a coded bit string, and includes a program code form and a chip or control circuit. A sound wave signal input through the sound wave input unit 210 may be read to recognize sound wave reception information corresponding to a bit string encoded in the sound wave signal.

According to the exemplary embodiment of the present invention, the sound wave receiver 270 reads a sound wave signal of an inaudible frequency band input through the sound wave input unit 210 to recognize sound wave reception information corresponding to a bit string encoded in the sound wave signal. Preferably, the frequency band of the sound wave signal encoding the bit string is not limited to the inaudible frequency band, and the bit string may be encoded in the sound wave signal of the audible frequency band according to the intention of a person skilled in the art. In addition, it is apparent that the present invention includes an embodiment of encoding a bit string in an audible frequency band as a right scope. Hereinafter, for convenience, a feature of the present invention will be described with reference to an embodiment in which a bit string is encoded in a sound wave signal in an inaudible frequency band, but it will be apparent that the present invention is not limited thereto.

According to an exemplary embodiment of the present invention, the sound wave signal encoding the bit string is used for short-range communication between an operating module 300 and an app of a designated user wireless terminal 190 in a short distance, and the user wireless terminal 190 in a short distance. The bit string corresponding to the information specified in the app of the user (for example, sound wave reception information to be received from the app of the user wireless terminal 190 to the operating module 300 in a short distance) is encoded into the sound wave signal of the inaudible frequency band to the specified signal strength. When the sound wave is output, the sound wave receiver 270 checks sound wave data obtained by digitizing the sound wave signal of the inaudible frequency band inputted to the sound wave input unit 210 by outputting sound waves through an app of the user wireless terminal 190 (for example, And sound wave reception information corresponding to the bit string encoded in the sound wave signal by reading and buffering the same.

According to an embodiment of the present invention, the sound wave reception information is an identification value for identifying that sound waves are transmitted through an app of a designated user wireless terminal 190, and authentication for authenticating that sound waves are transmitted through an app of a designated user wireless terminal 190. The sound wave receiving unit 270 determines whether the recognized sound wave reception information includes the identification value and / or the authentication value, in which case the sound wave reception information is assigned to the user. It is possible to check whether the information transmitted by the sound wave through the app of the wireless terminal 190. Preferably, the identification value or authentication value may be distributed to the app of the user wireless terminal 190 and the operation module 300 through the designated operating server 100, the sound wave in the app of the user wireless terminal 190 The sound wave may be inserted into the sound wave reception information transmitted to the operation module 300.

According to an embodiment of the present invention, the sound wave reception information may include information that is decryptable through the operation module 300, in which case the sound wave receiver 270 is included in the recognized sound wave reception information. Encrypted information can be decrypted. Preferably, the key value for the encryption and / or decryption can be distributed to the app and the operation module 300 of the user wireless terminal 190 through the designated operating server 100, the user of the wireless terminal 190 The app transmits sound waves and may be used to encrypt or decrypt information included in the sound wave reception information received in the sound wave reception information to the operation module 300 in the app of the user wireless terminal 190 or in the operation module 300.

Meanwhile, according to the embodiment of the present invention, the sound wave reception information may include token exchange information including a token to be transmitted to the operation module 300 by transmitting sound waves in an app of the user wireless terminal 190.

The sound wave transmitter 275 is a generic term for a functional component that implements a sound wave transmission function of encoding a designated bit string in a designated sound wave signal and outputting sound waves at a specified signal intensity through the sound wave output unit 215. Or a combination of two or more of a control circuit form, and encodes a string of bits corresponding to sound wave transmission information to be transmitted to the sound wave signal, and outputs the sound wave at a specified signal intensity through the sound wave output unit 215. Performs a procedure to transmit sound waves in a short distance.

According to an exemplary embodiment of the present invention, the sound wave transmitter 275 encodes a bit string corresponding to sound wave transmission information to be transmitted as a sound wave signal in an inaudible frequency band and at a signal intensity specified by the sound wave output unit 215. It is preferable to include a function for outputting sound waves and processing to transmit sound waves to a designated short distance, but the frequency band of the sound wave signals encoding the bit strings is not limited to the inaudible frequency bands. A bit string can be encoded in an acoustic signal, and it is apparent that the present invention includes an embodiment of encoding a bit string in an audible frequency band. Hereinafter, for convenience, a feature of the present invention will be described with reference to an embodiment in which a bit string is encoded in a sound wave signal in an inaudible frequency band, but it will be apparent that the present invention is not limited thereto.

According to an exemplary embodiment of the present invention, the sound wave signal encoding the bit string is used for short-range communication between an operating module 300 and an app of a designated user wireless terminal 190 in a short distance, and the sound wave transmitter 275 is short-range. The bit string corresponding to the sound wave transmission information (for example, the sound wave transmission information to be transmitted to the app of the user wireless terminal 190) is assigned to the sound wave signal of the inaudible frequency band recognizable through the app of the user wireless terminal 190 of the user. The sound wave signal of the blue frequency band is encoded by the sound wave output unit 215 includes a function for outputting the sound wave, the app of the user wireless terminal 190, the sound wave output of the operating module 300 The sound wave output through the unit 215 confirms (for example, buffers) and reads sound wave data obtained by digitizing the sound wave signal of the inaudible frequency band inputted to the user wireless terminal 190. Sound wave transmission information corresponding to the bit string encoded in the call can be recognized.

According to an embodiment of the present invention, the sound wave transmission information may include one or more values of an identification value for identifying sound waves transmitted through the operation module 300 and an authentication value for authenticating sound waves transmitted through the operation module 300. In this case, the app of the user wireless terminal 190 recognizes the sound wave transmission information received by the sound wave to determine whether the identification value and / or authentication value is included in the sound wave transmission information is the sound wave transmission information It may be determined whether the sound wave is information transmitted from the operation module 300. Preferably, the identification value or authentication value may be distributed to the app and the operation module 300 of the user wireless terminal 190 through the designated operation server 100, the user by transmitting sound waves from the operation module 300 An app of the wireless terminal 190 may be inserted into the sound wave transmission information received by the sound wave.

According to the exemplary embodiment of the present invention, the sound wave transmission information may include information that is encrypted so that it can be decrypted through an app of a designated user wireless terminal 190. In this case, the sound wave transmission unit 275 may be included in the sound wave transmission information. Encrypt the information to be included, the app of the user wireless terminal 190 may decrypt the encrypted information contained in the encrypted sound wave transmission information. Preferably, the key value for the encryption and / or decryption may be distributed to the app and the operation module 300 of the user wireless terminal 190 through the designated operation server 100, the sound wave transmission from the operation module 300 The information contained in the sound wave transmission information received by the sound wave of the app by the user wireless terminal 190 can be used to encrypt in the operating module 300 or decrypted by the app of the user wireless terminal 190.

According to an exemplary embodiment of the present invention, the sound wave transmitter 275 acquires the sound wave signal obtained by encoding the bit string corresponding to the sound wave transmission information when the sound wave is output at a specified signal intensity. Read the information to see if the vehicle is driving. In addition, the sound wave transmitter 275 reads state information acquired through the OBD interlocking unit 255 to check whether at least one window is open while driving the vehicle, or is input through the sound wave input unit 210. The noise increase rate of the sound wave signal is read to determine whether the at least one window is opened while driving to increase the surrounding catch. If at least one window is opened and the ambient noise is increased while the vehicle is driving through the checking process, the sound wave transmitter 275 may determine whether the bit string is encoded in the vehicle stopped state or the window is not opened. Acoustic signal in the audible frequency band with the signal intensity amplified by a certain ratio or more (e.g., proportional to the increase rate of the noise in a vehicle stop state or a window unopened state) than the basic signal intensity set to output a sound wave signal in the blue frequency band It may include a function for outputting. Accordingly, the sound wave transmitter 275 recognizes a predetermined level or more for the sound wave transmission information for transmitting sound waves by encoding a bit string to the sound wave signal in the operating module 300 even when at least one window is opened while the vehicle is running. The error rate can be kept below a certain level.

Meanwhile, according to an embodiment of the present invention, the sound wave transmission information may include token exchange information including a token to be transmitted to the app of the user wireless terminal 190 by transmitting sound waves through the sound wave transmission function of the operation module 300. .

Referring to FIG. 3, the operation module 300 checks information to be transmitted to the operation server 100 based on the voice recognition information recognized by the voice recognition unit 260 and through the communication processor 250. A function of transmitting the network transmission information including the checked information to the operation server 100, the information to be transmitted to the sound wave at a short distance based on the speech recognition information recognized by the speech recognition unit 260 and the sound wave A function of transmitting sound waves based on sound wave transmission information including the identified information through a transmitter 275 in a short range, and confirming information to be transmitted to the operation server 100 based on the sound wave reception information recognized by the sound wave receiver 270. And a function of transmitting network transmission information including the checked information to the operation server 100 through the communication processing unit 250, and network reception received from the operation server 100 through the communication processing unit 250. Information Function to output voice through the voice output unit 265 by checking the voice output information to be outputted, and to transmit sound waves at a short distance through network reception information received from the operation server 100 through the communication processing unit 250. A function of confirming information to be transmitted and transmitting sound waves based on sound wave transmission information including the identified information through the sound wave transmitter 275 in a short range, and voice to be output through sound wave reception information recognized by the sound wave receiver 270. The service module 280 provides a specific service by interlocking or combining two or more functions among the functions of confirming output information and outputting voice through the voice output unit 265.

The service module 280 includes two or more of the communication processor 250, the OBD interworking unit 255, the voice recognition unit 260, the voice output unit 265, the sound wave receiver 270, and the sound wave transmitter 275. A generic term for a functional component that controls a flow of information between sub-units and provides a specific service, and may be implemented in the form of a program code, a chip, or a control circuit. The service module 280 is not limited to a module providing any one service.

Referring to FIG. 3, the service module 280 of the operation module 300 checks the device registration state of the operation module 300 and the voice recognition function and the voice when the operation module 300 is not registered. A device registration unit 282 is provided to perform a procedure of registering the operation module 300 to the operation server 100 by interlocking or combining two or more functions of an output function and a network communication function.

When power is input to the operation module 300 and the operation is started, the device registration unit 282 reads the registration status confirmation information stored in the designated storage area or communicates with the operation server 100 through the network communication function. Check the registration status. According to an exemplary embodiment of the present invention, when the operation module 300 is registered in the operation server 100, a registered state in which a device registration state of the operation module 300 can be checked in a designated storage area of the operation module 300. The confirmation information may be stored. In this case, the device registration unit 282 reads whether the registration status confirmation information indicating that the operation module 300 is registered in the designated storage area is stored or stored in the designated storage area. By checking whether the registration status check information corresponds to the registered state of the operation module 300, it may be checked whether the operation module 300 is registered in the operation server 100. Meanwhile, according to another exemplary embodiment of the present invention, the device registration unit 282 attempts to establish a communication connection with the operation server 100 through the network communication function when the power is input and starts operation to the operation server 100. The device specific information of the operation module 300 may be transmitted to request whether the operation module 300 corresponding to the device specific information is registered, and the operation server 100 may transmit the device specific information to a designated storage medium. It is possible to generate registration status confirmation information on whether it is registered and transmit it to the operation module 300. In this case, the device registration unit 282 receives and reads the registration status confirmation information from the operation server 100. It may be checked whether the operation module 300 is registered in the operation server 100. Preferably, when the operation module 300 is not registered in the operation server 100, the device registration unit 282 performs a procedure of registering the operation module 300 with the operation server 100. You can decide to.

On the other hand, the device register 282 reads short-range wireless status check information stored in a designated storage area when power is input to the operation module 300 to start short-range wireless communication with the OBD module 180 connected to the vehicle OBD. Check if it is paired. If the short range wireless communication is not paired with the OBD module 180, the device registration unit 282 performs a pairing process with the OBD module 180 through the short range wireless communication according to a designated pairing protocol of the short range wireless communication. Can be performed. Meanwhile, when the operation module 300 and the OBD module 180 are not paired and then newly (or again) paired, the device registration unit 282 sends the operation module 300 to the operation server 100. You may decide to perform the procedure of registering (or re-registering or updating).

When it is determined to register the operation module 300 with the operation server 100, the device registration unit 282 outputs the voice output information designated to start the registration procedure of the operation module 300 through a voice output function. At the same time, the voice recognition function checks whether voice recognition information including a keyword (for example, a command keyword, an instruction keyword, etc.) designated to start the registration procedure of the operation module 300 is recognized. If the designated keyword is confirmed through the voice recognition function, the device registration unit 282 checks the device specific information uniquely identifying the operation module 300 from the designated storage area, and the device through the network communication function. The unique information may be transmitted to the operation server 100 or registration request information including the device-specific information may be transmitted to the operation server 100. In this case, the operation server 100 may receive the device specific information from the operation module 300 or may receive registration request information including the device specific information.

According to a first vehicle registration embodiment of the present invention, the device registration unit 282 recognizes the vehicle information of the vehicle equipped with the operation module 300 through the voice recognition function, and through the network communication function The vehicle information may further include a function of transmitting the vehicle information to the operation server 100 or the registration request information including the vehicle information to the operation server 100. Preferably, the device registration unit 282 checks the vehicle information obtained by recognizing the voice uttered by the user through the voice recognition function while outputting a voice for inducing utterance of the vehicle information to the user through the voice output function, The vehicle information may be transmitted to the operation server 100 through the network communication function, or registration request information including the vehicle information may be transmitted to the operation server 100. In this case, the operation server 100 may receive the vehicle information from the operation module 300 or receive registration request information including the vehicle information.

According to the first terminal registration embodiment of the present invention, the device registration unit 282 voices wireless terminal information (eg, mobile phone number, telephone number, etc.) that uniquely identifies the user wireless terminal 190 through the voice recognition function. Recognize and transmit the wireless terminal information to the operation server 100 through the network communication function or the registration request information including the wireless terminal information to the operation server 100 may further include a function. . Preferably, the device registration unit 282 outputs a voice to induce the utterance of the wireless terminal information corresponding to the user wireless terminal 190 to be linked to the user by the sound wave communication with the operation module 300 through the voice output function. While confirming the wireless terminal information obtained by recognizing the voice spoken by the user through the voice recognition function, and transmitting the wireless terminal information to the operation server 100 through the network communication function or includes the wireless terminal information Registration request information may be transmitted to the operation server (100). In this case, the operation server 100 may receive the radio terminal information from the operation module 300 or transmit registration request information including the radio terminal information to the operation server 100. On the other hand, when receiving the wireless terminal information from the operation module 300, the operation server 100 can determine whether the app specified in the user wireless terminal 190 corresponding to the wireless terminal information is installed, the user If the app specified in the wireless terminal 190 is not installed, it may process to output a voice for inducing to install the specified app in the user wireless terminal 190, in which case the device registration unit 282 is the user wireless terminal Receiving or configuring the voice output information to induce the app installation specified in 190 can be output through the voice output function. If the designated app is installed in the user wireless terminal 190, the operation server 100 uniquely identifies the app of the user wireless terminal 190 on the designated communication network and simultaneously communicates with the user wireless terminal via the designated communication network. The unique identification information for communicating with the app of 190 may be checked.

Referring to FIG. 3, the service module 280 of the operation module 300 performs token authentication to register the operation module 300, and the operation module (operation module) in the operation server 100 for the token authentication. When the token is transmitted to 300, the token information including the token is received from the operation server 100 through the network communication function, and the token exchange information including the token is configured to transmit the sound wave transmission function. Token exchange processing section 286 is provided. On the other hand, when the token is transmitted from the operation server 100 to the user wireless terminal 190 for the token authentication, the token exchange information received by the user wireless terminal 190 through the sound wave reception function, and recognizes the recognition Token exchange processing unit 286 for configuring the token authentication request information including the token and the device-specific information of the operation module 300 and transmits to the operation server 100 through the network communication function. Meanwhile, according to the implementation method, the token exchange processing unit 286 may further include a function of generating a token of a designated code system and transmitting it to the operation server 100 through a network communication function.

If the token is generated in the operation module 300 according to the second token generation embodiment of the present invention, the token generator 284 generates the token of the designated code system and generates the token through the network communication function. A token may be transmitted to the operation server 100. Meanwhile, the token generator 284 may be provided in the operation server 100 or in an app of the user wireless terminal 190, whereby the present invention is not limited thereto.

Meanwhile, when the operation server 100 transmits voice output information for guiding the sound wave communication environment of the vehicle to a designated reference sound wave communication environment or instructs the voice output to guide the reference sound wave communication environment for the token authentication. The token exchange processing unit 286 receives or configures voice output information for guiding the sound wave communication environment of the vehicle to a designated reference sound wave communication environment, and outputs the voice through a voice output function, thereby specifying the sound wave communication environment of the vehicle. It can lead to the reference sound wave communication environment.

When the token information including the token is transmitted from the operation server 100 to the operation module 300 corresponding to the device specific information according to the first token authentication embodiment of the present invention, the token exchange processing unit 286 Receives token information including a token from the operation server 100 through the network communication function, and configures token exchange information including the token to transmit the sound wave transmission function. On the other hand, the app of the user wireless terminal 190 recognizes the token exchange information transmitted by the sound wave from the operation module 300, the unique identification information for the token included in the token exchange information and the app of the user wireless terminal 190 Token authentication request information comprising a configuration can be transmitted to the operation server 100, the operation server 100 is the token authentication request information from the app of the user wireless terminal 190 corresponding to the unique identification information And receiving the token and verifying whether the token included in the token authentication request information matches the token provided to the operation module 300 corresponding to the device-specific information mapped to the unique identification information included in the talk authentication request information. Can be performed. If the basic signal strength for outputting the sound wave signal for sound wave communication in the operation module 300 is not set, the token exchange processor 286 sets the basic signal strength for outputting the sound wave signal. A sound wave may be output more than a specified number of times while changing the output intensity of the sound wave signal encoded by the token.

If the operation server 100 transmits the token information including the token to the operation module 300 corresponding to the device-specific information according to the first token authentication embodiment, the token exchange processing unit 286 is designated. Encoding the token exchange information by outputting a sound wave signal encoded with the token exchange information using at least one sound wave output intensity information more than a specified number of times, and / or by increasing a specified output intensity increase value at a specified time interval from the specified minimum sound wave output intensity. The sound wave signal may be output a sound wave more than a specified number of times, according to the implementation method, the token exchange processing unit 286 checks the specific sound wave output intensity information of the sound wave signal output sound wave at a specific time, and the identified specific sound wave output intensity information And the sound wave output time point information corresponding to the specific time (if the sound wave output intensity information is received from the operation server 100) Can be omitted when checking the sound wave output time point) can be transmitted to the operation server 100, the operation server 100 and one or more sound wave output intensity information and the sound wave transmitted the token through the operation module 300 and The sound wave output time can be checked.

Alternatively, when the operation server 100 receives the token authentication request information including the token from the app of the user wireless terminal 190 corresponding to the unique identification information, the user wireless terminal 190 according to the first token authentication embodiment. ) Can receive one or more sound wave reception strength information identified in the process of recognizing the token. According to the exemplary embodiment of the present invention, the app of the user wireless terminal 190 reads the sound wave signal inputted by the sound wave, and at the time of recognizing the token, the sound wave reception intensity information and the sound wave reception time information (if the operation server 100 is Can be omitted if the time point of receiving the sound wave reception intensity information is confirmed as the sound wave reception time point), and the recognized token and sound wave reception intensity information and sound wave reception time point information can be transmitted to the operation server 100. In this case, the operation server 100 may receive one or more tokens and sound wave reception strength information from an app of the user wireless terminal 190 and check a sound wave reception time. Alternatively, the app of the user's wireless terminal 190 transmits the first recognized token to the operation server 100, and then checks one or more sound wave reception intensity information and sound wave reception time point information each time the same token is recognized, and the confirmation Received sound wave reception intensity information and sound wave reception time information to the operation server 100, in which case the operation server 100 receives one or more sound wave reception intensity information and sound wave reception from the app of the user wireless terminal 190 View point information can be received.

According to the first token authentication embodiment, one or more sound wave output intensity information outputting a sound wave signal encoded by the token through the operation module 300 is confirmed, and the token is recognized through an app of the user wireless terminal 190. When the sound wave reception strength information of one or more time points is confirmed, the operation server 100 outputs one or more sound wave reception intensity information confirmed through an app of the user wireless terminal 190 and the sound wave signal from the operation module 300. Matching and analyzing the time points of one or more sound wave output intensity information to determine the basic signal strength for outputting a sound wave signal for effective sound wave communication between the operating module 300 and the app of the user wireless terminal 190 in the vehicle; , May transmit basic strength setting information including the determined basic signal strength to the operation module 300, and the token exchange processing unit 286 may receive the basic strength setting information. In addition, by using the received basic strength setting information, the operating module 300 may set the basic signal strength for outputting the sound wave signal for sound wave communication for sound wave communication.

According to the second token authentication embodiment of the present invention, when the token information including the token is transmitted from the operation server 100 to the app of the user wireless terminal 190 through the unique identification information, the user wireless terminal ( The app of 190 receives token information including a token from the operation server 100, configures token exchange information including the token, and transmits sound waves by encoding the token exchange information into a designated sound wave signal. Meanwhile, the token exchange processing unit 286 recognizes token exchange information transmitted by sound waves in an app of the user wireless terminal 190 through a voice reception function, and the token and the operation module 300 included in the token exchange information. Token authentication request information including the device specific information of the configuration can be transmitted to the operation server 100, the operation server 100 from the operation module 300 corresponding to the device specific information, the token authentication request information Receiving and authenticating whether the token included in the token authentication request information matches the token provided by the app of the user wireless terminal 190 corresponding to the unique identification information mapped to the device-specific information included in the talk authentication request information. The authentication procedure can be performed. If the basic signal strength for outputting the sound wave signal for sound wave communication is not set in the app of the user wireless terminal 190, the app of the user wireless terminal 190 is the default signal strength for outputting the sound wave signal The sound wave may be output more than a specified number of times while changing the output intensity of the sound wave signal encoding the token in order to set.

If the operation server 100 transmits the token information including the token to the app of the user wireless terminal 190 corresponding to the unique identification information according to the second token authentication embodiment, the user wireless terminal 190 ) The app outputs a sound wave signal encoded with token exchange information with one or more specified sound wave output intensity information for a specified number of times, and / or increases a specified output intensity increase value at a specified time interval from a specified minimum sound wave output intensity. The sound wave signal encoded with the exchange information may be output as a sound wave more than a specified number of times, and according to the implementation method, the app of the user wireless terminal 190 checks specific sound wave output intensity information of the sound wave signal outputted at a specific time, and Confirmed specific sound wave output intensity information and sound wave output time information corresponding to the specific time (if the sound server output from the operation server 100) Can be omitted if the time point of receiving the strength information as the sound wave output time point) can be transmitted to the operation server 100, the operation server 100 is the token of the user through the app of the user wireless terminal 190 One or more sound wave output intensity information and the sound wave output time point can be checked.

Alternatively, when the operation server 100 receives the token authentication request information including the token from the operation module 300 corresponding to the device-specific information according to the second token authentication embodiment, sound wave reception of the operation module 300 is performed. Through the function, it is possible to receive one or more sound wave reception intensity information identified in the process of recognizing the token. According to the exemplary embodiment of the present invention, the token exchange processing unit 286 receives the sound wave reception intensity information and the sound wave reception time point information (if the signal strength setting unit 125 is the sound wave reception intensity at the point of time when the token is recognized through the sound wave reception function). Can be omitted if the time point at which the information is received is confirmed by the time of receiving the sound wave), and the recognized token and the sound wave receiving intensity information and the sound wave receiving time point information can be transmitted to the operation server 100, in which case the operation The server 100 may receive one or more tokens and sound wave reception strength information from the operation module 300 and check a sound wave reception time. Alternatively, the token exchange processing unit 286 transmits the first recognized token to the operation server 100, and then checks one or more sound wave reception intensity information and sound wave reception time point information each time the same token is recognized, and the identified sound wave Receiving strength information and sound wave reception time information may be transmitted to the operation server 100, in which case the operation server 100 may receive one or more sound wave reception strength information and sound wave reception time information from the operation module 300. Can be.

According to the second token authentication embodiment, one or more sound wave output intensity information outputting the sound wave signal encoded by the token through the app of the user wireless terminal 190 is confirmed, and the token is recognized through the operation module 300 When the sound wave reception strength information of one or more times is confirmed, the operation server 100 outputs one or more sound wave reception intensity information confirmed through the operation module 300 and a sound wave signal from an app of the user wireless terminal 190. Matching and analyzing the time points of one or more sound wave output intensity information to determine the basic signal strength for outputting a sound wave signal for effective sound wave communication between the operating module 300 and the app of the user wireless terminal 190 in the vehicle; , May transmit basic strength setting information including the determined basic signal strength to the operation module 300, and the token exchange processing unit 286 may receive the basic strength setting information. In addition, by using the received basic strength setting information, the operating module 300 may set the basic signal strength for outputting the sound wave signal for sound wave communication for sound wave communication.

On the other hand, by performing any one of the first to second token authentication embodiments of the present invention or by performing two embodiments, the token is provided between the app of the operation module 300 and the user wireless terminal 190. If it is authenticated as being effectively exchanged, the operation server 100 uniquely identifies the device-specific information of the air purifier 200 and the wireless terminal information of the user wireless terminal 190 and the app of the user wireless terminal 190. At the same time, unique identification information for communicating with an app of the user wireless terminal 190 and vehicle information of the vehicle provided with the air purifier 200 may be mapped and stored in a designated storage medium.

4 is a diagram illustrating an information transmission and reception process for registering the air purifying apparatus 200 according to the embodiment of the present invention.

In more detail, FIG. 4 shows that the device registration state of the air purifier 200 is not confirmed when the power supply of the air purifier 200 is input or the operation module 300 and the OBD module 180 of the air purifier 200 are If not paired, the operation module 300 of the air purifier 200 is required to register the air purifier 200 by interlocking or combining two or more functions of a voice output function, a voice recognition function, and a network communication function. As a process of transmitting information to the operation server 100, a person having ordinary skill in the art to which the present invention pertains may refer to and / or modify this drawing to register the air purifier 200. Various implementation methods (for example, some steps may be omitted or the order may be changed) may be inferred for the information transmission / reception process. However, the present invention includes all the implementation methods inferred. Said, only by the embodiment method shown in the figure 4 is not limited that technical feature. For convenience, the figure 4 shows that the vehicle information and the wireless terminal information are also registered by voice recognition through the operation module 300 of the air purification apparatus 200. However, the present invention is not limited thereto.

Referring to FIG. 4, when power is supplied to the air purifier 200, the operation module 300 of the air purifier 200 reads information stored in a designated storage area or operates the network through the network communication function. Communicate with and check the device registration state (400). If the registered state of the air purifier 200 is not confirmed, the operation module 300 of the air purifier 200 may start a procedure of registering the air purifier 200. Meanwhile, when the power is input, the operation module 300 of the air purifier 200 checks whether a state of pairing with the OBD module 180 connected to the vehicle OBD through short range wireless communication (405). If the OBD module 180 is not in a pairing state, the operation module 300 of the air purifier 200 performs a procedure of pairing with the OBD module 180 (410) and the air purifier 200 When the pairing between the operation module 300 and the OBD module 180 is processed, the operation module 300 of the air purifier 200 may initiate a procedure for registering the air purifier 200. .

The operation module 300 of the air purifier 200 outputs the voice output information designated to start the registration procedure of the air purifier 200 through a voice output function (415), and performs the voice recognition function. In operation 420, it is checked whether voice recognition information including a keyword (eg, a command keyword, an instruction keyword, etc.) designated to start the registration procedure of the air purifier 200 is recognized. If the designated keyword is confirmed through the voice recognition function, the operation module 300 of the air purifier 200 checks the device specific information uniquely identifying the air purifier 200 from the designated storage area; In operation 425, the device specific information may be transmitted to the operation server 100 or the registration request information including the device specific information may be transmitted to the operation server 100 through the network communication function (440). In this case, the operation server 100 may receive the device specific information from the operation module 300 of the air purifier 200 or may receive registration request information including the device specific information (445).

According to the exemplary embodiment of the present invention, the operation module 300 of the air purifying apparatus 200 outputs a voice for inducing the utterance of vehicle information to the user through the voice output function (430), and performs the voice recognition function. The vehicle information obtained by recognizing the voice uttered by the user is confirmed (435), and the vehicle information is transmitted to the operation server 100 through the network communication function or the registration request information including the vehicle information is recalled. The operation server 100 can be transmitted (440). In this case, the operation server 100 may receive the vehicle information or the registration request information including the vehicle information from the operation module 300 of the air purification apparatus 200 (445).

According to the embodiment of the present invention, the operation module 300 of the air purification apparatus 200 is a user to interwork with the sound wave communication with the operation module 300 of the air purification apparatus 200 to the user through the voice output function While outputting a voice for inducing the utterance of the wireless terminal information corresponding to the wireless terminal 190 (430), and confirms the wireless terminal information obtained by recognizing the voice spoken by the user through the voice recognition function (435), The wireless terminal information may be transmitted to the operating server 100 through the network communication function, or registration request information including the wireless terminal information may be transmitted to the operating server 100 (440). In this case, the operation server 100 receives the wireless terminal information from the operation module 300 of the air purifying apparatus 200 or transmits registration request information including the wireless terminal information to the operating server 100. It may be 445.

On the other hand, when receiving the wireless terminal information from the operation module 300 of the air purifier 200, the operation server 100 is installed on the user wireless terminal 190 corresponding to the wireless terminal information is installed It may be confirmed (450). If the app specified in the user wireless terminal 190 is not installed, the operation server 100 may process to output a voice for inducing to install the app specified in the user wireless terminal 190 (455). In addition, the operation module 300 of the air purifier 200 may receive or configure voice output information for inducing the installation of an app specified in the user wireless terminal 190 and output the voice through a voice output function (460). . On the other hand, when the designated app is installed in the user wireless terminal 190, the operation server 100 uniquely identifies the app of the user wireless terminal 190 on the designated communication network and at the same time through the designated communication network the user wireless terminal The unique identification information for communicating with the app of 190 may be checked (465).

5 is a diagram illustrating a token authentication process for registering the air purifier 200 according to an embodiment of the present invention.

In more detail, FIG. 5 illustrates the operation module 300 of the air purifier 200 when the token information including the token is transmitted from the operation server 100 to the operation module 300 of the air purifier 200. Receiving the token information from the operation server 100, and configured the token exchange information including the token to transmit sound waves through the sound wave transmission function, the app of the user wireless terminal 190 recognizes the token exchange information In addition to performing the procedure of authenticating by transmitting the token included in the token exchange information and the unique identification information for the app of the user wireless terminal 190 to the operation server 100, the air purifier 200 in the vehicle The process of setting the basic signal strength for the sound wave communication between the operating module 300 and the app of the user wireless terminal 190 of the present invention, if one of ordinary skill in the art, this figure 5 See and / or change In order to infer various implementation methods (e.g., some steps may be omitted, or the order may be changed) for the token authentication process for registering the air purifier 200, the present invention is all inferred implementation It is made, including the method, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 5, the device specific information of the air purifier 200 and the wireless terminal information of the user wireless terminal 190 and the air purifier 200 are provided to the operation server 100 through the process of FIG. 4. When one or more designated information of vehicle information of the vehicle is received / confirmed, and an app designated in the user wireless terminal 190 is installed and unique identification information for communicating with an app of the user wireless terminal 190 is confirmed, the Operation server 100 checks the token generated for token authentication (500). The token is generated through the operation server 100, the operation module 300 of the air purification apparatus 200, or at least one or two or more of the generated through the app of the user wireless terminal 190 It can be produced at least in part in combination.

If the token is confirmed, the operation server 100 configures token information including the token and transmits it to the operation module 300 of the air purifier 200 (505), the air purifier 200 The operation module 300 of the operation server 100 receives token information including the token from the operation server 510, the basic module for sound wave communication in the vehicle to the operation module 300 of the air purification apparatus 200 Check whether the signal strength is set (515). If the basic signal strength is set in the operation module 300 of the air purifier 200, the operation module 300 of the air purifier 200 configures token exchange information including the token and the token A sound wave signal encoded with the exchange information is output as sound waves at a specified basic signal strength (520).

Meanwhile, when the basic signal strength set in the operation module 300 of the air purifier 200 is not confirmed, the operation module 300 of the air purifier 200 encodes token exchange information including the token. Check the sound wave output intensity for outputting the sound wave signal (for example, the sound wave output intensity received from the operation server 100, or the minimum sound wave output strength and output set in the operation module 300 of the air purifier 200) The sound wave output intensity determined based on the strength increase value is checked (525), and the sound wave signal encoding the token exchange information including the token is output as the sound wave output intensity (530). Meanwhile, according to an exemplary embodiment, the operation module 300 of the air purification apparatus 200 uses the voice output function to guide the sound wave communication environment of the vehicle to the designated reference sound wave communication environment before outputting the sound wave signal. It is possible to output, thereby the present invention is not limited.

Meanwhile, the operation server 100 reads sound wave output intensity related information for outputting a sound wave signal encoded by the token exchange information in the operation module 300 of the air purification device 200, and then the air purification device 200. In operation module 300, the sound wave output intensity information and the sound wave output time point information outputting the sound wave signal encoded by the token exchange information may be checked (545). On the other hand, when the operating module 300 of the air purification apparatus 200 transmits the sound wave output intensity information of the sound wave output sound wave signal (540), the operating server 100 can receive the sound wave output intensity information 545. On the other hand, the operation module 300 of the air purifying device 200 confirms the sound wave output time information of the sound wave output of the sound wave signal encoding the token exchange information (535), and transmits (540), the operation server 100 ) May receive the sound wave output time point information (545).

Meanwhile, the app of the user's wireless terminal receives a sound wave signal output from the sound wave output from the operation module 300 of the air purifier 200 and recognizes a token (550). Check (555) and transmit the unique token information and the identified sound wave reception intensity information of the recognized token and the app of the user wireless terminal 190 to the operation server 100 (560); The sound wave 100 receives the token recognized through the app of the user wireless terminal and the sound wave reception intensity information from the app of the user wireless terminal corresponding to the unique identification information, and recognizes the token in the app of the user wireless terminal. The reception point information is checked (565). If the app checks the sound wave reception time information that recognizes the token in the app of the user's wireless terminal (555), and transmits (560), the operation server 100 from the app of the user wireless terminal corresponding to the unique identification information The sound wave reception time point information may be received (565).

When the sound wave output intensity information and sound wave output time information of the operation module 300 of the air purification apparatus 200 is confirmed, and the sound wave reception intensity information and sound wave reception time information that recognizes the token through the app of the user's wireless terminal are confirmed. In addition, the operation server 100 compares and analyzes the time points of the sound wave output intensity information and the sound wave reception intensity information to compare the operation module 300 of the air purifier 200 and the user wireless terminal 190 in the vehicle. The basic signal strength for outputting the sound wave signal for effective sound wave communication between the app is determined (570).

The operation server 100 configures the basic strength setting information including the determined basic signal strength and transmits it to the operation module 300 of the air purification apparatus 200 (575), of the air purification apparatus 200 The operation module 300 receives the basic intensity setting information and generates a sound wave signal for effective sound wave communication between the operation module 300 of the air purifier 200 and the app of the user wireless terminal 190 in the vehicle. Set the default signal strength to output sound waves (580).

On the other hand, the operation server 100 configures the basic strength setting information including the determined basic signal strength and transmits it to the app of the user wireless terminal (585), the app of the user wireless terminal to the basic strength setting information Receives and sets the default signal strength for outputting the sound wave signal for sound wave communication between the operating module 300 of the air purification apparatus 200 and the app of the user wireless terminal 190 in the vehicle (590). . Thereafter, the app of the operation module 300 and the user wireless terminal 190 of the air purification apparatus 200 may output sound wave signals with the set basic signal strength to process sound wave communication.

6 is a diagram illustrating a token authentication process for registering the air purifier 200 according to another embodiment of the present invention.

In more detail, FIG. 6 illustrates that when the token information including the token is transmitted from the operation server 100 to the app of the user wireless terminal 190, the app of the user wireless terminal 190 is sent from the operation server 100. When receiving information, and configured to transmit the token exchange information including the token sound waves, the operation module 300 of the air purification apparatus 200 recognizes the token exchange information through the sound wave receiving function, the token exchange information In addition to the token and the unique device information for the air purifier 200 is transmitted to the operation server 100 to perform a procedure for authentication, the operation module 300 of the air purifier 200 in the vehicle and As a process of setting a basic signal strength for sound wave communication between apps of the user wireless terminal 190, a person having ordinary knowledge in the art to which the present invention pertains may refer to and / or modify the present invention. The air well Various implementation methods (e.g., some steps may be omitted or reordered) may be inferred for the token authentication process for registering the device 200, but the present invention includes all the implementation methods inferred above. It is made, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 6, through the process of FIG. 4, the operation server 100 includes the device specific information of the air purifier 200, the wireless terminal information of the user wireless terminal 190, and the air purifier 200. When one or more designated information of vehicle information of the vehicle is received / confirmed, and an app designated in the user wireless terminal 190 is installed and unique identification information for communicating with an app of the user wireless terminal 190 is confirmed, the Operation server 100 checks the token generated for token authentication (600). The token is generated through the operation server 100, the operation module 300 of the air purification apparatus 200, or at least one or two or more of the generated through the app of the user wireless terminal 190 It can be produced at least in part in combination.

If the token is confirmed, the operation server 100 configures the token information including the token and transmits it to the app of the user wireless terminal 190 (605), the app of the user wireless terminal 190 is the Receiving token information including the token from the operation server 100 (610), and checks whether the default signal strength for sound wave communication in the vehicle is set in the app of the user wireless terminal 190 (615). If the basic signal strength is set in the app of the user wireless terminal 190, the app of the user wireless terminal 190 configures the token exchange information including the token and encodes the sound wave signal encoding the token exchange information. A sound wave is output at a specified basic signal strength (620).

On the other hand, when the default signal strength set in the app of the user wireless terminal 190 is not confirmed, the app of the user wireless terminal 190 is a sound wave for sound wave output of the sound wave signal encoding the token exchange information including the token Check the output intensity (for example, check the sound wave output intensity received from the operating server 100, or the sound wave output intensity determined based on the minimum sound wave output intensity and output intensity increase value set in the app of the user wireless terminal 190) In operation 625, the sound wave signal encoding the token exchange information including the token is output as the sound wave output intensity (630). Meanwhile, according to an embodiment, the operation module 300 of the air purifying apparatus 200 uses the sound output function before outputting the sound wave signal through the app of the user wireless terminal 190. The voice for guiding the environment to the designated reference sound wave communication environment can be output, whereby the present invention is not limited.

Meanwhile, the operation server 100 reads sound wave output intensity related information for outputting a sound wave signal encoding the token exchange information in the app of the user wireless terminal 190, and reads the information from the app of the user wireless terminal 190. The sound wave output intensity information and the sound wave output time point information of the sound wave signal encoded by the token exchange information may be checked (645). On the other hand, when the app of the user wireless terminal 190 transmits the sound wave output intensity information of the sound wave output sound wave signal (640), the operating server 100 may receive the sound wave output intensity information (645) . On the other hand, when the app checks the sound wave output time information of the sound wave signal encoded by the token exchange information in the app of the user wireless terminal 190 (635), and transmits (640), the operation server 100 is the sound wave The output time point information may be received (645).

Meanwhile, the operation module 300 of the air purifier 200 receives a sound wave signal output from the sound wave of the app of the user wireless terminal 190 to recognize a token (650), and receives a sound wave at the time when the token is recognized. Check the intensity information (655), and transmits the unique token and the device-specific information for the air purification apparatus 200 and the confirmed sound wave reception intensity information to the operation server 100 (660), the operation The server 100 receives the token and the sound wave reception intensity information recognized through the operation module 300 of the air purification apparatus 200 from the operation module 300 of the air purification apparatus 200 corresponding to the device specific information. Receives and confirms the sound wave reception timing information that recognizes the token in the operation module 300 of the air purification apparatus 200 (665). If the operation module 300 of the air purification apparatus 200 checks the sound wave reception timing information that recognizes the token (655), and transmits (660), the operation server 100 corresponds to the device specific information. The sound wave reception time point information may be received from the operation module 300 of the Hannan air purifier 200 (665).

The sound wave output intensity information and sound wave output time information output the sound wave signal through the app of the user wireless terminal is confirmed, and the sound wave reception intensity information and sound wave reception time information of the operation module 300 of the air purifier 200 is confirmed. When the operation server 100 matches and analyzes the time points of the sound wave output intensity information and the sound wave reception intensity information, the operation module 300 and the user wireless terminal 190 of the air purifier 200 in the vehicle. The basic signal strength for outputting the sound wave signal for effective sound wave communication between the app of determine the 670.

The operation server 100 configures the basic intensity setting information including the determined basic signal strength and transmits it to the operation module 300 of the air purifier 200 (675), of the air purifier 200 The operation module 300 receives the basic intensity setting information and generates a sound wave signal for effective sound wave communication between the operation module 300 of the air purifier 200 and the app of the user wireless terminal 190 in the vehicle. The sound signal output is set to the basic signal strength (680).

On the other hand, the operation server 100 configures the basic strength setting information including the determined basic signal strength and transmits it to the app of the user wireless terminal (685), the app of the user wireless terminal the basic strength setting information Receives and sets the default signal strength for outputting the sound wave signal for sound wave communication between the operating module 300 of the air purification apparatus 200 and the app of the user wireless terminal 190 in the vehicle (690). . Thereafter, the app of the operation module 300 and the user wireless terminal 190 of the air purification apparatus 200 may output sound wave signals with the set basic signal strength to process sound wave communication.

7 is a diagram illustrating a registration process of the air purifier 200 according to the embodiment of the present invention.

In more detail, FIG. 7 stores mapping information received / confirmed through the process of FIG. 4 to a storage medium, and the token is authenticated through at least one of the processes of FIGS. 5 and 6 according to an embodiment. A process of mapping and storing the received / confirmed information on a storage medium, and a person of ordinary skill in the art to which the present invention pertains may refer to and / or modify the air purifier 200 with reference to FIG. A variety of implementation methods (e.g., some steps are omitted or the order is changed) may be inferred, but the present invention includes all the implementation methods inferred above, The technical features are not limited only to the illustrated embodiment. 7 will be described with reference to an embodiment for inputting the payment means information through the app of the user wireless terminal 190 after the token is authenticated for convenience, the present invention is not limited by this, payment means Information can be registered at any time after the app specified in the user wireless terminal 190 is installed, it will be apparent that the present invention is not limited by the time of registering the payment means information.

Referring to FIG. 7, the process of FIG. 4 includes the device-specific information of the operation module 300 of the air purifier 200, the wireless terminal information of the user wireless terminal 190, and the vehicle having the air purifier 200. When receiving or confirming one or more designated information of the vehicle information, and confirms the unique identification information for the app of the user wireless terminal 190, the operation server 100 is device specific information of the air purifier 200 In operation 750, the wireless terminal information of the user wireless terminal 190, the unique identification information for communicating with the app of the user wireless terminal 190, and the vehicle information of the vehicle may be mapped and stored in a designated storage medium (750).

Meanwhile, the operation server 100 compares or authenticates the token received through the app of the user wireless terminal 190 and the token transmitted to the operation module 300 of the air purification apparatus 200 through the process of FIG. And / or compares the token transmitted to the app of the user wireless terminal 190 and the token received through the operation module 300 of the air purifier 200 through the process of Figure 6 (700). If the token is not authenticated, the operation server 100 transmits registration error information to the operation module 300 of the air purifier 200 (710), the operation module of the air purifier 200 300 receives the registration error information and outputs a voice through a voice output function (715).

Meanwhile, when the token exchanged through the process of FIG. 5 or the process of FIG. 6 is authenticated, the operation server 100 induces the registration of payment means information through the operation module 300 of the air purifier 200. Processing to output a voice (720), the operation module 300 of the air purifier 200 outputs a voice that induces the registration of the payment means information of the user (725). The induction of registration of the payment means information may include both registration through an app of a wireless terminal and registration based on voice recognition through the operation module 300 of the air purifier 200.

On the other hand, when inputting and registering payment means information through an app of the user's wireless terminal 190, the operation server 100 may perform a procedure for remotely driving the app of the wireless terminal using the unique identification information ( 730) (optional). The user wireless terminal 190 drives an app to register the payment means information (735), receives the payment means information of the user through the app and transmits to the operation server 100 (740). Meanwhile, according to the implementation method, the payment means information may be transmitted to the operation server 100 after receiving the sound wave through the operation module 300 of the air purification apparatus 200 after the sound wave is transmitted. Meanwhile, according to another exemplary embodiment, the payment means information is transmitted to the operation server 100 after voice recognition through the operation module 300 of the air purification apparatus 200 or the operation module of the air purification apparatus 200. After the voice is recognized through the 300, the sound wave is transmitted, and the sound wave is received through the app of the user wireless terminal 190 and transmitted to the operation server 100. The operation server 100 receives the user's payment means information input through the app of the user wireless terminal 190 (745).

The operation server 100 is the device specific information of the air purifier 200, the wireless terminal information of the user wireless terminal 190 and the unique identification information for communicating with the app of the user wireless terminal 190 and the vehicle Two or more pieces of vehicle information are mapped and stored in a designated storage medium (750). The operation server 100 may map and store the payment means information with at least one information stored in the storage medium (755). If payment means information cannot be stored in the storage medium of the operation server 100, the operation server 100 transmits the payment means information to the issuer server (or payment server) to the issuer server ( Or to register and store in the payment means storage medium of the payment server, and to identify / generate identification code information identifying payment means information stored in the issuer server (or payment server) or to the issuer server (or Payment server) and maps identification code information identifying the payment means information with at least one information stored in the storage medium (755).

100: operation server 105: information receiving unit
110: terminal confirmation unit 115: token confirmation unit
120: token authentication unit 125: signal strength setting unit
130: information storage unit 135: payment method register
140: OBD collecting unit 145: notification processing unit
180: OBD module 190: wireless terminal
200: air purifier 205: housing part
210: air purification module 215: photocatalyst panel
220: UV lamp 225: lamp arrangement
230: heat sink 235: frame portion
240: suction part 245: discharge part
250: fan portion 255: support portion
260: interface module 265: discharge part
270: information output unit 275: touch input unit
300: operation module

Claims (20)

Air purification in which a predetermined number of photocatalyst panels in which a plurality of silicon-coated beads coated with a photocatalytic material are formed into a panel form and a predetermined number of UV lamps emitting UV in the ultraviolet (UltraViolet) -A wavelength band are arranged in a specified geometric relationship. Equipped with a module to operate the air purification function to purify the air, the network communication function to connect to the communication network and OBD interworking function linked with the vehicle OBD (On-Board Diagnostics) through short-range wireless communication and voice recognition to recognize the user's speech Function and sound output function to output sound to the user, sound wave transmission function to output sound wave signal encoded bit string to transmit sound wave, and sound wave reception function to recognize bit string encoded in sound wave input sound wave signal In the method executed by the operation server to communicate with the air purifier equipped with a module,
The operation server receives device specific information for uniquely identifying the air purifier according to a procedure specified through a network communication function of the operation module of the air purifier, and receives vehicle information and a user radio of the vehicle equipped with the air purifier. A first step of receiving wireless terminal information of a terminal;
When the specified app is installed in the user's wireless terminal, the operation server is generated to check the unique identification information for communicating with the app of the user's wireless terminal and to exchange between the operation module of the air purifier and the app of the user's wireless terminal. A second step of verifying the token;
A third step of performing, by the operation server, an authentication procedure for confirming whether the token is effectively exchanged through a designated sound wave signal between an operation module of the air purifier and an app of the user wireless terminal;
A fourth step of confirming payment means information corresponding to a payment method requested by a user based on a result of the operation server exchanging the token or validly exchanging the token; And
A storage medium designated by the operation server by mapping at least two pieces of device-specific information of the air purifier, wireless terminal information of the user wireless terminal, unique identification information for communicating with an app of the user wireless terminal, and vehicle information of the vehicle; Identification code information for storing the payment means information stored in the issuing server that issued the payment means corresponding to the payment means information stored in the storage medium by mapping the at least one information stored in the storage medium or the storage means; And a fifth step of mapping and storing the at least one information stored in the storage medium.
The method of claim 1,
When power is input to the air purifier,
And operating the air purifying device by reading information stored in a designated storage area or communicating with an operating server through the network communication function to confirm a device registration state. How to register a payment method for payment.
The method of claim 1,
When power is input to the air purifier,
Reading, by the operating module of the air purifying device, information stored in a designated storage area and confirming a pairing state for short-range wireless communication with an OBD module connected to the vehicle OBD; And
If it is not paired, the operation module of the air purifying device performs a procedure of pairing with the OBD module through a short-range wireless communication; payment means for interactive payment using the air purifier, characterized in that further comprises How to register.
The method of claim 1, wherein the first step,
The network communication function acquires vehicle information obtained by recognizing the voice uttered by the user through the voice recognition function while the operation module of the air purifier outputs a voice for inducing utterance of vehicle information to the user through the voice output function. When transmitting according to the specified procedure through, the operation server receives the voice recognition vehicle information from the operation module of the air purifier comprises the payment for the interactive payment using the air purifier, characterized in that the made How to register means.
The method of claim 1, wherein the first step,
Interactive payment using the air purifier, characterized in that the step of receiving the vehicle information from the app of the user wireless terminal when the user inputs and transmits the vehicle information in the app of the user wireless terminal. How to register a payment method for.
The method of claim 1, wherein the first step,
The operation module of the air purifying device outputs a voice for inducing the utterance of wireless terminal information to the user through the voice output function, and recognizes the voice spoken by the user through the voice recognition function to transmit the wireless terminal information to the network communication function. When transmitting according to the specified procedure through, the operation server for the interactive payment using the air purifier, characterized in that comprises the step of receiving the voice recognition wireless terminal information from the operation module of the air purifier How to register a payment method.
The method of claim 1,
When the wireless terminal information is received from the operation module of the air purifier, the air purifying step of confirming whether the specified app is installed in the user wireless terminal corresponding to the wireless terminal information further comprises the step of Method of registering a payment method for interactive payment using a device.
The method of claim 7, wherein the app verification step,
Checking whether the wireless terminal information and valid unique identification information are mapped and stored in a designated storage medium, and confirming whether a designated app is installed in the user's wireless terminal. How to register a payment method for interactive payment.
The method of claim 7, wherein the app verification step,
If the app specified in the user wireless terminal is not installed,
The operation server further comprises the step of outputting the voice to induce the installation of the app specified in the user wireless terminal through the voice output function of the operation module of the air purifier using the air purifier, characterized in that How to register a payment method for interactive payment.
The method of claim 7, wherein the app verification step,
If the app specified in the user wireless terminal is not installed,
For the interactive payment using the air purifier, characterized in that the operation server further comprises the step of processing to send a message to induce the installation of the designated app to the user wireless terminal via the wireless terminal information. How to register a payment method.
The method of claim 1, wherein the first step,
When the user's wireless terminal app transmits the user's wireless terminal information, the operation server comprises the step of receiving the wireless terminal information from the app of the user's wireless terminal interactive payment using the air purifier, characterized in that the made How to register a payment method for.
The method of claim 1,
Before performing the authentication procedure to exchange the token,
And processing, by the operation server, voice output information for guiding the sound wave transmission / reception environment in the vehicle to a designated reference sound wave communication environment through the operation module of the air purification device. Payment method registration method for interactive payment using.
The method of claim 12, wherein the reference sound wave communication environment,
A method of registering a payment means for an interactive payment using an air purifier, characterized in that it comprises an environment in which the vehicle is turned on or running while both the doors and windows of the vehicle are closed.
The method of claim 1, wherein the third step,
Transmitting, by the operation server, the token to the operation module of the air purification device corresponding to the device specific information so as to transmit sound waves through the sound wave transmission function of the operation module of the air purification device; And
And confirming, by the operation server, whether the token is received from an app of a user's wireless terminal corresponding to the unique identification information.
The method of claim 1,
When the token is transmitted from the operation server to the operation module of the air purifier provided in the vehicle,
Confirming, by the operation server, at least one sound wave output intensity information through which the sound wave signal encoding the token exchange information including the token is transmitted through the operation module of the air purifier;
Receiving one or more sound wave reception intensity information identified in the process of recognizing the token through the app of the user wireless terminal when the operation server receives the token from the app of the user wireless terminal; And
The operation server compares and compares one or more sound wave reception intensity information identified through an app of the user wireless terminal with one or more sound wave output intensity information outputted by the operation module of the air purifier, and compares and analyzes the air in the vehicle. Determining a basic signal strength for outputting a sound wave signal for effective sound wave communication between a purifier and an app of a user wireless terminal;
And transmitting, by the operation server, basic intensity setting information including the determined basic signal strength to an operation module of an air purifier.
The basic signal strength is set to the signal strength for outputting a sound wave signal for sound wave communication in the operating module of the air purifier, payment means registration method for the interactive payment using the air purifier.
The method of claim 1, wherein the third step,
Processing the operation server to transmit sound waves by transmitting the token to an app of a user wireless terminal through the unique identification information; And
And confirming, by the operation server, whether the token is recognized and received through a network communication function through a sound wave reception function of an operation module of an air purification device corresponding to the device specific information. Payment method registration method for interactive payment using.
The method of claim 1,
When the token is sent from the operation server to the app of the user wireless terminal boarding the vehicle,
Confirming, by the operating server, at least one sound wave output intensity information for transmitting a sound wave signal encoding the token exchange information including the token through an app of the user wireless terminal;
Receiving, by the operation server, at least one sound wave reception intensity information identified in the process of recognizing the token through the operation module of the air purifier when receiving the token from the operation module of the air purifier; And
The operation server compares and compares one or more sound wave reception intensity information identified through the operation module of the air purifying device with one or more sound wave output intensity information output sound signals from the app of the user's wireless terminal. Determining a basic signal strength for outputting a sound wave signal for effective sound wave communication between an operating module of an air purifier and an app of a user wireless terminal;
And transmitting, by the operation server, basic intensity setting information including the determined basic signal strength to an operation module of an air purifier.
The basic signal strength is set to the signal strength for outputting a sound wave signal for sound wave communication in the operating module of the air purifier, payment means registration method for the interactive payment using the air purifier.
The method according to claim 15 or 17,
And transmitting, by the operation server, basic intensity setting information including the determined basic signal strength to an app of a user wireless terminal,
The basic signal strength, payment method for the interactive payment using the air purifier, characterized in that the signal strength of the sound wave signal output for the sound wave communication in the app of the user wireless terminal is set.
The method of claim 1, wherein the fourth step,
The payment means registration method for the interactive payment using the air purifier, characterized in that it comprises the step of receiving the payment means information from the app of the user wireless terminal.
The method of claim 1, wherein the fourth step,
And receiving the payment means information received through the operating module of the air purifier and transmitted via the app of the user's wireless terminal and transmitted through the network communication function. How to register a payment method for interactive payment using the purification device.

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