阅读说明：本技术 一种基于多场景自动充值及回收运营系统 (Automatic recharging and recycling operation system based on multiple scenes ) 是由 龚义 于 2021-06-01 设计创作，主要内容包括：本发明公开了一种基于多场景自动充值及回收运营系统,涉及充值卡自动运营,针对现有充值系统不能对不同种类的充值卡进行区分读取,造成充值卡的使用种类受限,局限使用,且对回收充值卡选项不能重复确认,用户造成损失等问题,现提出如下方案,包括处理机构和处理系统,处理系统包括路径选择模块,路径选择模块的输出端连接有充值模块和卡回收模块,充值模块和卡回收模块的输出端连接有读卡识别模块。本发明功能更齐全,适应不同种类充值卡使用,提高充值卡使用的便捷性,并为用户提供参照金额选项,用户使用更为合理,提高用户体验感,回收分类存放,便于后期统一处理,适合进行推广使用。(The invention discloses a multi-scene-based automatic recharging and recovering operation system, which relates to automatic operation of rechargeable cards and aims at solving the problems that the conventional recharging system cannot distinguish and read different rechargeable cards, the use types of the rechargeable cards are limited and are limited in use, the options of the recovered rechargeable cards cannot be repeatedly confirmed, the loss of users is caused and the like. The invention has more complete functions, is suitable for different rechargeable cards, improves the convenience of using the rechargeable cards, provides reference amount options for users, is more reasonable for the users to use, improves the experience feeling of the users, is convenient for later-stage uniform treatment by recycling and storing, and is suitable for popularization and use.)

1. The multi-scene-based automatic recharging and recycling operation system comprises a processing mechanism and a processing system, and is characterized in that the processing system comprises a path selection module, the output end of the path selection module is connected with a recharging module and a card recycling module, the output ends of the recharging module and the card recycling module are connected with a card reading identification module, the output end of the card reading identification module is connected with an amount selection module and a repeated confirmation module, the output end of the amount selection module is connected with an intelligent analysis module, the output end of the intelligent analysis module is connected with an autonomous recommendation module, the output end of the autonomous recommendation module is connected with an amount confirmation module, and the output end of the amount confirmation module is connected with a recharging path module.

2. The multi-scenario-based automatic recharging and recycling operation system according to claim 1, wherein the processing mechanism comprises a machine body (1), the machine body (1) is provided with a recycling port (2), the recycling port (2) is provided with a recharging area (3), and the recharging area (3) is provided with an operating panel (4).

3. The multi-scenario-based automatic recharging and recycling operation system of claim 2, wherein the recycling port (2), the recharging area (3) and the control panel (4) are all installed on the machine body (1), the recycling port (2) corresponds to a card recycling module in the processing system, and the recharging area (3) corresponds to a recharging module in the processing system.

4. The multi-scenario-based automatic recharging and recycling operation system of claim 1, wherein an output end of the duplicate confirmation module is connected with a recycling processing module and a card returning module, and the recycling processing module is used for storing recycled cards in a classified manner.

5. The multi-scenario-based automatic recharging and recycling operation system of claim 1, wherein the card reading identification module is used for reading a card to be operated, identifying the type of the card, and transmitting identification result data to the processing system.

6. The multi-scenario based automatic recharge and recovery operation system according to claim 3, wherein the amount selection module, the amount confirmation module, the recharge path module and the repeated confirmation module correspond to the control panel (4), and are selected through operation of the control panel (4).

7. The multi-scenario-based automatic recharging and recycling operation system according to claim 4, wherein the intelligent analysis module is used for analyzing the single consumption amount and the recharging consumption period of the card, generating a matching amount value and uploading the amount value to the self-recommendation module, and the self-recommendation module generates the recommendation module on the control panel (4) for the user to select for standby.

8. The multi-scenario-based automatic recharging and recycling operation system according to claim 1, wherein the recharging path module is configured to select different payment manners, the payment manners are divided into online payment and offline cash payment, and the card reading and recognizing module is further configured to perform in-system matching reading on different types of cards, convert the cards into consistent transmission data, and transmit the consistent transmission data in the processing system.

Technical Field

The invention relates to the technical field of automatic operation of rechargeable cards, in particular to an automatic recharging and recycling operation system based on multiple scenes.

Background

The rechargeable card is a stored value card, a consumption card provided by a specific merchant; a PVC or paper card with certain face value and certain price, disposable or used repeatedly, used for recharging and renewing for specific value card or certain service, the back has card scraping area, inside attached cipher card number, validity period, use instruction and so on; including phone cards, game cards, transportation cards, etc. The function of currency exchange and circulation is played in the transaction process; the rechargeable card is widely used in the industries of telecommunication, IT, catering, business overload, education and the like. Particularly, the telephone card in the telecommunication industry makes the rechargeable card become a valuable paper due to the particularity of the industry, and the rechargeable card in the telecommunication industry is generally called as a debit phone password card. In other industries, the cards are often called game point cards, network cards, lottery cards, learning cards, and the like. The rechargeable card is used for online and offline consumption by equating the amount of money with the value in the rechargeable card in a numerical mode, different rechargeable cards are different in recharging equipment, so that the use of the rechargeable card is limited, different rechargeable cards cannot be identified and recharged in the existing system, the processing system is limited and inconvenient to use, the situation that the card is wrongly judged and recycled in the existing rechargeable card processing mechanism occurs, and a user cannot change the recycling selection to cause loss; therefore, an automatic recharging and recycling operation system based on multiple scenes is provided.

Disclosure of Invention

The invention provides a multi-scene-based automatic recharging and recycling operation system, which solves the problems that the use types of rechargeable cards are limited and the use is limited due to the fact that the existing recharging system cannot distinguish and read different types of rechargeable cards, the options of the recycled rechargeable cards cannot be repeatedly confirmed, and the loss of users is caused.

In order to achieve the purpose, the invention adopts the following technical scheme:

the processing system comprises a path selection module, the output end of the path selection module is connected with a recharging module and a card recycling module, the output ends of the recharging module and the card recycling module are connected with a card reading identification module, the output end of the card reading identification module is connected with an amount selection module and a repeated confirmation module, the output end of the amount selection module is connected with an intelligent analysis module, the output end of the intelligent analysis module is connected with an autonomous recommendation module, the output end of the autonomous recommendation module is connected with an amount confirmation module, and the output end of the amount confirmation module is connected with a recharging path module.

Preferably, the processing mechanism comprises a machine body, wherein a recycling opening is formed in the machine body, a recharging area is formed in the recycling opening, and a control panel is placed on the recharging area.

Preferably, the recycling port, the recharging area and the control panel are all mounted on the machine body, the recycling port corresponds to a card recycling module in the processing system, and the recharging area corresponds to a recharging module in the processing system.

Preferably, the output end of the repeated confirmation module is connected with a recovery processing module and a card returning module, and the recovery processing module is used for classifying and storing the recovered cards.

Preferably, the card reading identification module is used for reading a card to be operated, identifying the type of the card and transmitting identification result data to the processing system.

Preferably, the amount selection module, the amount confirmation module, the recharge path module and the repeated confirmation module correspond to the control panel, and operation selection is performed through the control panel.

Preferably, the intelligent analysis module is used for analyzing the single consumption amount and the recharge consumption period of the card, generating a matched amount value and uploading the amount value to the self-recommendation module, and the self-recommendation module generates the recommendation module on the control panel for standby selection of the user.

Preferably, the recharging path module is used for selecting different payment modes, the payment modes are divided into online payment and offline cash payment, and the card reading identification module is also used for performing in-system matching reading on different types of cards, converting the different types of cards into consistent transmission data and transmitting the consistent transmission data in the processing system.

Compared with the prior art, the invention has the beneficial effects that: the multi-scene-based automatic recharging and recycling operation system provided by the scheme is used by combining the processing mechanism and the processing system, different types of rechargeable cards are read and identified in the processing system, card transmission data are uniformly converted in the processing system, the transmission efficiency is improved, the system is suitable for different types of rechargeable cards, the use convenience is improved, the payment types are various, meanwhile, the processing system is intelligently calculated by combining the cycle of using the rechargeable card by a user and the use amount, the appropriate recharging amount is recommended for the user, a reference recharging amount value is provided for the user, the user recharging is more reasonable, the processing mechanism is novel and integral in structure, recharging and recycling are integrated, the user experience is improved, the recycled rechargeable cards are classified and recycled, and the post-processing is facilitated; this system function is more complete, adapts to the different types of rechargeable card and uses, improves the convenience that the rechargeable card used to for the user provides the reference amount of money option, the user uses more rationally, improve user experience and feel, retrieve categorised the depositing, the later stage unified processing of being convenient for is fit for using widely.

Drawings

FIG. 1 is a schematic flow chart of a processing system based on a multi-scenario automatic recharge and recovery operation system according to the present invention;

fig. 2 is a schematic structural diagram of a processing mechanism based on a multi-scenario automatic recharge and recovery operation system according to the present invention.

In the figure: 1 machine body, 2 recovery ports, 3 recharging areas and 4 control panels.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, an automatic recharging and recycling operation system based on multiple scenes comprises a processing mechanism and a processing system, wherein the processing system comprises a path selection module, the output end of the path selection module is connected with a recharging module and a card recycling module, the output ends of the recharging module and the card recycling module are connected with a card reading identification module, the output end of the card reading identification module is connected with an amount selection module and a repeated confirmation module, the output end of the amount selection module is connected with an intelligent analysis module, the output end of the intelligent analysis module is connected with an autonomous recommendation module, the output end of the autonomous recommendation module is connected with an amount confirmation module, and the output end of the amount confirmation module is connected with a recharging path module.

In this embodiment, the processing mechanism includes a machine body 1, a recycling opening 2 is provided on the machine body 1, a recharging area 3 is provided on the recycling opening 2, and a control panel 4 is provided on the recharging area 3.

In this embodiment, the recycling port 2, the recharging area 3 and the control panel 4 are all installed on the machine body 1, the recycling port 2 corresponds to a card recycling module in the processing system, and the recharging area 3 corresponds to a recharging module in the processing system.

In this embodiment, the output end of the repeated confirmation module is connected with a recovery processing module and a card returning module, and the recovery processing module is used for classifying and storing the recovered cards.

In this embodiment, the card reading identification module is configured to read a card to be operated, identify a type of the card, and transmit identification result data to the processing system.

In this embodiment, the amount selection module, the amount confirmation module, the recharge path module, and the repeated confirmation module all correspond to the control panel 4, and are selected by operation through the control panel 4.

In this embodiment, the intelligent analysis module is configured to analyze the single card consumption amount and the recharge consumption period, generate a matching amount value, upload the amount value to the autonomous recommendation module, and the autonomous recommendation module generates the recommendation module on the control panel 4 for the user to select for later use.

In this embodiment, the recharge path module is configured to select different payment methods, the payment methods are divided into online payment and offline cash payment, and the card reading identification module is further configured to perform in-system matching reading on different types of cards, convert the cards into consistent transmission data, and transmit the consistent transmission data in the processing system.

In the embodiment, firstly, the rechargeable card is identified, read and recharged in the processing mechanism through the recharging area 3, the rechargeable card to be recycled is input and recycled through the recycling port 2, and the selection scheme is operated through the control panel; all operations in the processing system are carried out on the control panel 4, a recharging module and a card recycling module which are connected with the output end of the path selection module are used for user autonomous selection, after the recharging card is selected, the recharging card is placed in a recharging area or a recycling port, the card reading identification module is used for reading and identifying the type and the transmission mechanism of the card, and the read data is converted into a uniform transmission mode in the processing system, so that the transmission is smoother, different amount options are given by the amount selection module when recharging is needed, the intelligent analysis module recommends proper amount according to the frequency of the recharging card used by the user, the word consumption amount and other data, the recommended amount is displayed by the autonomous recommendation module, the synchronous recommendation is carried out in the amount selection module, the recharging mode can be selected after the user determines through the amount confirmation module, and the payment can be carried out; when the user retrieves the rechargeable card, the control panel 4 will pop up again to determine whether to retrieve the rechargeable card, if so, the card is retrieved into the machine body 1 for classified storage, otherwise, the machine body 1 withdraws the card.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.