KR20170017234A - Car washing monitoring system based on Internet of Things/ Machine to Machine - Google Patents

Abstract

The present invention provides an unmanned automatic integrated monitoring system of a do-it-yourself (DIY) car wash based on Internet of things (IoT)/machine to machine (M2M), capable of performing payment in real time and monitoring an operation state of each device in real time. According to the present invention, the system comprises: a plurality of one-touch payment units installed in each device of the DIY car wash, using near field communication (NFC) to advance a contactless payment manner, and transferring payment information to a Zigbee type mesh communication network; a plurality of state information transmission units to transfer state information of each device of the DIY car wash to the mesh communication network; a smart monitoring unit connected to the Zigbee type mesh communication network to receive the payment information and the state information of each device, advancing payment through data exchange with an external payment server, monitoring and displaying an operation state of each device in real time, and sorting and displaying a use frequency and use statistics of each device; and a data analysis server connected to the smart monitoring unit through a wide-fidelity (Wi-Fi) communication network, receiving information processed in the smart monitoring unit to store the processed information in a database, and providing an application installed in a manager terminal with management data of each device, statistical sale data, and member data, and providing an application installed in a user terminal with event information, point accumulation information, the member information, and the use state of each device of the DIY car wash.

Description

{Car washing monitoring system based on Internet of Things / Machine to Machine}

The present invention relates to a self-washing car unmanned automation integrated monitoring system, and more particularly, to a self-washing car unmanned automation integrated monitoring system based on IoT / M2M.

Domestic self-washers have already exceeded 100,000, and self-washing is becoming a hobby. The conventional self-car washing method using cash is mainly used. That is, after the user exchanges the banknotes in the coin changer with a coin, the coin is inserted into the apparatus of the car washer or the bill is directly inserted, and the apparatus is used for a predetermined time.

This method of using cash is inconvenient because it requires cash on the user side, and the management process is complicated because the cash should be collected from the manager side as well.

In order to replace the cash payment method, prepaid card is pre-charged. However, when a payment error occurs in the prepaid card, the administrator can not monitor the situation in real time, It can not be processed.

Also, if there is a user who desires to refund the prepaid card, the administrator has to check the balance directly and give a refund.

In addition, when a self-car washing facility is constructed using a cash method or a prepaid card, the usage statistics for each device are not automatically calculated. Therefore, the sales amount of each device is separately calculated and indirectly used. Therefore, it is difficult to efficiently manage the devices because the usage amount of each device by time can not be accurately grasped.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above technical problems, and it is an object of the present invention to provide a self-car wash device capable of real time payment by connecting to Internet such as IoT / M2M, Self-cleaning auto unmanned automation integrated monitoring system.

According to an embodiment of the present invention, there is provided a method of controlling a contactless payment method using NFC (Near Field Communication), which is disposed in each device of a self-car wash, and transmits a payment information to a ZigBee- Payment unit; A plurality of state information transmission units for transmitting state information of each device of the self-washing area to the mesh communication network; The ZigBee system is connected to the mesh communication network and receives the payment information and status information of each device. The payment is performed through data exchange with an external payment server, and the operation status of each device is monitored in real time A smart monitoring unit for sorting and displaying usage frequencies and usage statistics for each device; And a smart monitoring unit connected to the smart monitoring unit via a WIFI communication network. The smart monitoring unit receives and processes information processed by the smart monitoring unit, And a data analysis server that provides member data and provides event information, point accumulation information, member information, and usage status of each device of the self-car wash to the application installed in the user's terminal, An integrated monitoring system is provided.

The plurality of one-touch payment units are configured to exchange payment information with a mobile card or an IC credit card installed in a user's terminal in a contactless payment system using Near Field Communication (NFC).

In addition, the smart monitoring unit provides the operating status of each device to the application installed in the terminal of the administrator in real time, and provides usage frequency and usage statistics for each device.

In addition, the application installed in the user terminal is configured to be able to proceed with the reservation at a desired time slot by receiving the usage status of each device of the self-washing.

Since the self-car washer automated unmanned automation integrated monitoring system according to the embodiment of the present invention can perform the contactless payment method using NFC (Near Field Communication), payment can be performed in real time, and sales information Can be easily calculated.

In addition, since the self-cleaning auto unmanned automation integrated monitoring system transmits the status information of each device of the self-washing machine in real time via the ZigBee mesh network, the administrator can check the frequency of use and usage statistics for each device in real time have. Therefore, the administrator can efficiently manage each device based on usage statistics.

1 is a block diagram of a self-washing car unmanned automation integrated monitoring system according to an embodiment of the present invention;
FIG. 2 is a more specific configuration diagram of the self-washing car unmanned automated integrated monitoring system of FIG. 1;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention.

FIG. 1 is a configuration diagram of a self-washing car unmanned automatic unmanned automation monitoring system according to an embodiment of the present invention, and FIG. 2 is a more specific configuration diagram of a self-washing car unmanned automated unmanned monitoring system of FIG.

The self-washing car unmanned automation integrated monitoring system according to the present embodiment includes only a brief configuration for clearly explaining the technical ideas to be proposed.

1 and 2, a self-washing car unmanned automation integrated monitoring system includes a one-touch settlement unit 100, a status information transmission unit 200, a smart monitoring unit 300, a data analysis server 400, , And a terminal (500).

The self-cleaning auto unmanned automation integrated monitoring system enables each device to be connected to the Internet such as IoT / M2M (Internet of Things / Machine to Machine) to perform real time payment and to monitor the operation status of each device in real time .

The detailed configuration and main operation of the self-car washing and unmanned automated integrated monitoring system configured as described above will be described below.

The one-touch payment unit 100 is disposed in each device of the self-washing machine, performs contactless payment using NFC (Near Field Communication), and transmits payment information to the ZigBee-based mesh communication network.

That is, the self-washing equipment is installed in the car wash bay, the vacuum cleaning bay, and the mat cleaner bear, respectively. The car wash bay is divided into a plurality of areas, and car wash equipment is installed in each area. In addition, the vacuum cleaning bay is divided into a plurality of zones, and a vacuum cleaning apparatus is installed in each zone. The mat cleaner bays are divided into a plurality of areas, and a mat cleaner device is installed in each area.

At this time, the one-touch payment unit 100 is disposed in each device (car wash, vacuum cleaning, and a mat cleaner) and connected to the corresponding device. The one-touch payment unit 100 uses a near field communication So that the settlement can be performed.

That is, the one-touch payment unit 100 is configured to exchange settlement information with an IC credit card capable of contactless settlement and a mobile card installed in the user's terminal in a contactless payment system.

The one-touch payment unit 100 displays the payment amount according to the usage time and the usage option of each device, and the user selects the desired payment amount, and proceeds to settle the payment by bringing the mobile card close to the one-

The plurality of status information transmission units 200 transmit the status information of each device of the self-car wash to the ZigBee type mesh communication network.

That is, the plurality of status information transmission units 200 are disposed in the respective car washing machines, the respective vacuum cleaners, the respective mat cleaner machines, and the driving machines of the machine room, and are connected to the corresponding devices. ZigBee) mesh network. The status information of each device includes the current state of the device, the operation state, the normal operation state, the operation time, and the malfunction state.

The smart monitoring unit 300 is connected to a ZigBee-based mesh communication network and receives payment information and status information of each device.

That is, since the self-car wash devices are connected to the ZigBee type mesh communication network and exchange data, the smart monitoring unit 300 is connected to the mesh communication network so that the payment information of the one-touch payment unit 100, The status information of the information transmission unit 200 can be received.

Accordingly, when the payment information is transmitted from the one-touch payment unit 100, the smart monitoring unit 300 proceeds with settlement in real time by exchanging data with an external payment server.

In addition, the smart monitoring unit 300 monitors the operation status of each device in real time and displays it on the screen. The smart monitoring unit 300 can sort and display usage frequency and usage statistics for each device.

The smart monitoring unit 300 provides the operating status of each device to the application installed in the terminal of the administrator in real time, and can provide usage frequency and usage statistics for each device. That is, the information transmitted from the smart monitoring unit 300 can be provided through an application installed in a terminal of an authenticated administrator. At this time, the smart monitoring unit 300 and the administrator terminal 500 may be connected through any one of WIFI and ZigBee methods.

The data analysis server 400 is connected to the smart monitoring unit 300 through a wireless communication network or a wired communication network such as a WIFI communication network and receives information processed by the smart monitoring unit 300 and converts the data into a database.

The data analysis server 400 may include a message push server, which may transmit information to an application installed on an administrator's terminal and an application installed on a user's terminal through a message push server.

That is, the data analysis server 400 can provide the management data for each device, the sales data, and the membership data to the application installed in the terminal of the administrator.

In addition, the data analysis server 400 can provide event information, point accumulation information, member information, and usage states of self-car washes to an application installed in the user's terminal.

On the other hand, the application installed in the user's terminal can be configured to be able to proceed with reservation at a desired time slot by receiving the usage status of each device of the self-washing. The user can be provided with the use state of each device of the self-wash car in real time, so that the user can confirm the current use state and the expected state of the current device, and then make the reservation at the desired time.

As a reference, when making a reservation, the user can pay the usage fee in advance using the installed application. In the case where the payment has been made in advance, the one-touch payment unit 100 receives and stores the payment information in advance, so that the user can use the device after confirming the user by bringing the user's terminal close to the one- .

In addition, when proceeding with the reservation, the user can cancel the usage fee using the installed application. In the case where advance payment has been advanced in this way, payment information is previously received and stored in the one-touch payment section 100, so that the user's terminal can be brought close to the one-touch payment section 100 to proceed with the actual payment. At this time, if the user does not proceed to the actual payment until the designated time after the payment has been made, the one-touch payment unit 100 may be configured to automatically settle a certain amount of money after the specified time is exceeded.

The terminal 500 is divided into a terminal of a user and a terminal of an administrator, and the terminal includes both a portable device such as a mobile phone, a smart phone, a smart pad, etc., and a personal computer.

For example, at least one of the one-touch payment unit 100 and the status information transmission unit 200 may be selectively installed in each device of a car wash installed with a cash payment unit such as a coin and a currency.

That is, when the one-touch payment unit 100 is additionally provided in the apparatus having the cash settlement unit, the cash settlement unit is connected to the one-touch settlement unit 100, and the cash settlement amount information of the cash settlement unit is transmitted to the one- And can be transmitted to the ZigBee-style mesh communication network.

In addition, when the device having the cash settlement unit is additionally provided with the status information transmission unit 200, the cash settlement unit and the status information transmission unit 200 are connected, and the cash settlement amount information of the cash settlement unit is transmitted to the status information transmission unit (200) and transmitted to a ZigBee-style mesh communication network.

The state information transmission unit 200 may include a microphone capable of receiving the engine sound of the vehicle. The state information transmission unit 200 determines the number of revolutions of the engine of the vehicle based on the engine sound input from the microphones If it is determined that the number of revolutions of the engine exceeds the set range, the smart monitoring unit 300 urgently transmits the status to the smart monitoring unit 300, and the smart monitoring unit 300 transmits the status to the manager's terminal.

In addition, the state information transmission unit 200 alerts in a visual and audible manner when the number of revolutions of the engine exceeds the first number of revolutions, and when the number of revolutions exceeds the second number of revolutions that is faster than the first number of revolutions, And may be configured to shut down the power supplied to the device.

That is, when the number of revolutions of the engine is excessive, a protection operation may be performed in which the vehicle is warned because a fault occurs in the vehicle, or an emergency situation such as a sudden emergence occurs.

When a ZigBee mesh communication network is constructed, only the first sub-mesh network to which only the devices of the car wash bay are connected, the second sub-mesh network to which only the devices of the vacuum cleaning bay are connected, and the devices of the mat cleaner bear are connected The third sub-mesh network, and the fourth sub-mesh network to which only the equipment of the machine room is connected.

In addition, a wireless repeater can be provided between the sub-mesh network and the sub-mesh network to transmit signals. The smart monitoring unit 300 independently connects to each sub-mesh network, and internally configures a main mesh network, Even if an error occurs in the mesh network, it can be controlled so as not to affect other sub-mesh networks.

Since the self-car washer automated unmanned automation integrated monitoring system according to the embodiment of the present invention can perform the contactless payment method using NFC (Near Field Communication), payment can be performed in real time, and sales information Can be easily calculated.

In addition, since the self-cleaning auto unmanned automation integrated monitoring system transmits the status information of each device of the self-washing machine in real time via the ZigBee mesh network, the administrator can check the frequency of use and usage statistics for each device in real time have. Therefore, the administrator can efficiently manage each device based on usage statistics.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: One-touch payment section
200: status information transmission unit
300: Smart monitoring unit
400: Data Analysis Server
500: terminal

Claims (4)

A plurality of one-touch payment units disposed in respective apparatuses of a self-car wash, conducting contactless payment using NFC (Near Field Communication), and transmitting payment information to a ZigBee-based mesh communication network;
A plurality of state information transmission units for transmitting state information of each device of the self-washing area to the mesh communication network;
The ZigBee system is connected to the mesh communication network and receives the payment information and status information of each device. The payment is performed through data exchange with an external payment server, and the operation status of each device is monitored in real time A smart monitoring unit for sorting and displaying usage frequencies and usage statistics for each device; And
The smart monitoring unit is connected to the smart monitoring unit via a WIFI communication network. The smart monitoring unit receives and processes information processed by the smart monitoring unit. The application installed in the manager's terminal is provided with management data for each device, A data analysis server that provides member data and provides event information, point accumulation information, member information, and usage status of each device of the self-car wash to an application installed in the user terminal;
Automated unmanned automation integrated monitoring system.
The method according to claim 1,
Wherein the plurality of one-
Wherein the system is configured to exchange billing information with a mobile card or an IC card installed in a user's terminal in a contactless payment system using Near Field Communication (NFC).
The method according to claim 1,
The smart monitoring unit,
Wherein the operating status of each device is provided in real time to an application installed in an administrator's terminal, and frequency and usage statistics of each device are provided.
The method according to claim 1,
Wherein the application installed in the user's terminal is configured to be able to proceed with reservation at a desired time slot by receiving the usage status of each device of the self-washing.

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