CN114299665A - Ammeter recharging platform, ammeter recharging system and method - Google Patents

Abstract

The invention discloses an electric meter recharging platform, an electric meter recharging system and an electric meter recharging method. The electric meter recharging platform comprises a first communication module, an authentication module and a recharging module. The first communication module is used for being in communication connection with the mobile terminal so as to acquire the identity information of the electric meter. The mobile terminal is connected with the electric meter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores the identification information is arranged on the electric meter. The authentication module is used for authenticating the identity identification information so as to determine the electric meter corresponding to the identity identification information. The recharging module is used for generating recharging code information corresponding to the ammeter. The charging code information is sent to the mobile terminal through the first communication module, then is transmitted to the electric meter through the mobile terminal, and is rewritten to the electric charge information of the electric meter.

Description

Ammeter recharging platform, ammeter recharging system and method

Technical Field

The invention relates to the technical field of data communication, in particular to an electric meter recharging platform, an electric meter recharging system and an electric meter recharging method.

Background

At present, the electric charge payment mode in many areas adopts a prepaid electric charge system, so that a user needs to charge an electric meter periodically to continuously obtain electric power service. The current off-line electric meter generally adopts an electric card or a key mode to recharge. When the user finishes the payment of the electric charge by adopting the electric card recharging mode, the user needs to go to an electric power company or an appointed service point for recharging, synchronize the recharging code into the electric card, return the electric card home, and insert the electric meter into the electric meter for recharging. In the whole link, factors such as the working time of a recharging service point, the breakage and loss of an electric card, the physical distance from an electric meter to the service point and the like are comprehensively considered, so that the recharging process is long, and the user experience is poor. When the user finishes the payment of the electric charge by adopting a key ammeter mode, the recharging code needs to be manually input, and the phenomenon of error transmission easily occurs.

Therefore, it is highly desirable to design an electric meter recharging system to optimize the operation convenience of recharging by using an offline electric meter and improve the efficiency of recharging the electric charge of the user.

Disclosure of Invention

The invention provides an electric meter recharging platform, an electric meter recharging system and an electric meter recharging method, and aims to optimize the electric meter recharging operation of a user, so that the convenience and the efficiency of the electric charge recharging operation are improved.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

according to an aspect of the embodiment of the present invention, an electric meter recharging platform is provided, which includes:

the first communication module is used for being in communication connection with the mobile terminal so as to acquire the identity identification information of the electric meter; the mobile terminal is connected with the ammeter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores the identification information is arranged on the ammeter;

the authentication module is used for authenticating the identity identification information so as to determine the electric meter corresponding to the identity identification information; and

the recharging module is used for generating recharging code information corresponding to the ammeter; the charging code information is sent to the mobile terminal through the first communication module, then is transmitted to the electric meter through the mobile terminal, and is rewritten to the electric charge information of the electric meter.

In a preferred scheme, the first communication module and the mobile terminal are connected in a wireless communication mode; the mobile terminal comprises a second communication module and a third communication module, wherein the second communication module is used for being connected with the first communication module in an NFC communication mode, the third communication module is used for being connected with the first communication module in the NFC communication mode, and the ammeter further comprises an NFC communication circuit used for being connected with the third communication module in the NFC communication mode; the third communication module is used for reading the NFC label of the electric meter and transmitting the recharging code information to the electric meter.

In a preferred scheme, the first communication module is further configured to obtain recharge data information; wherein the recharge data information is generated based on a user performing a payment operation on the mobile terminal;

and the recharging module automatically generates recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information.

In a preferred scheme, the first communication module is connected with the mobile terminal in an NFC communication mode; the mobile terminal comprises a second communication module which is used for being connected with the first communication module in an NFC communication mode, and the ammeter further comprises an NFC communication circuit which is used for being connected with the second communication module in the NFC communication mode; the second communication module is further used for reading an NFC label of the electric meter and transmitting the recharging code information to the electric meter.

In a preferred scheme, the electric meter recharging platform further comprises a human-computer interaction module for receiving recharging data information; and the recharging module automatically generates recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information.

According to another aspect of the embodiments of the present invention, there is provided an electricity meter, including:

the NFC tag is used for storing the identity information of the ammeter;

the NFC communication circuit is used for carrying out NFC communication connection with the mobile terminal and receiving recharging code information generated by the electric meter recharging platform; the charging code information is transmitted to the NFC communication circuit through the mobile terminal; and

and the recharging circuit is used for rewriting the electric charge data information based on the recharging code information.

In a preferred embodiment, the electric meter further comprises an authentication circuit; the authentication circuit is used for judging whether the identity information of the electric meter to be recharged is consistent with the identity identification information of the electric meter so as to determine the validity of the recharging code information.

According to another aspect of the embodiment of the invention, an electric meter recharging system is provided, which is characterized by comprising at least one electric meter recharging platform and an electric meter;

the at least one electric meter recharging platform comprises a first communication module which is used for being in communication connection with the mobile terminal so as to obtain the identity identification information of the electric meter; the authentication module is used for authenticating the identity identification information so as to determine the electric meter corresponding to the identity identification information; the recharging module is used for generating recharging code information corresponding to the ammeter;

the electric meter comprises an NFC tag and is used for storing the identification information of the electric meter; the NFC communication circuit is used for carrying out NFC communication connection with the mobile terminal and receiving recharging code information generated by the at least one ammeter recharging platform; the charging code information is transmitted to the NFC communication circuit through the mobile terminal; and the recharging circuit is used for rewriting the electric charge data information based on the recharging code information.

In a preferred scheme, the first communication module is connected with the mobile terminal in a wireless communication mode; the mobile terminal comprises a second communication module and a third communication module, wherein the second communication module is used for being connected with the first communication module in an NFC communication mode, and the third communication module is used for being connected with the NFC communication circuit in the NFC communication mode; the third communication module is also used for reading the NFC label of the electric meter and transmitting the recharging code information to the electric meter.

In a preferred scheme, the first communication module and the mobile terminal are connected in an NFC communication mode; the mobile terminal comprises a second communication module which is used for being connected with the first communication module in an NFC communication mode; the second communication module is further used for being connected with the NFC communication circuit in an NFC communication mode so as to read the NFC label of the ammeter and transmit the recharging code information to the ammeter.

In a preferred scheme, the number of the at least one electric meter recharging platform is 2, and the electric meter recharging platform comprises a first electric meter recharging platform and a second electric meter recharging platform; the mobile terminal comprises a second communication module and a third communication module;

the first communication module of the first electric meter recharging platform is connected with the second communication module in a wireless communication mode; the first communication module of the second electric meter recharging platform is connected with the third communication module in an NFC communication mode;

the third communication module is further connected with the NFC communication circuit in an NFC communication mode so as to read the NFC label of the ammeter and transmit the recharging code information to the ammeter.

According to another aspect of the embodiments of the present invention, there is provided an electric meter recharging method applied to the electric meter recharging platform, including:

acquiring identity identification information of an ammeter and acquiring recharging data information; the electric meter recharging platform is in communication connection with a mobile terminal, the mobile terminal is connected with the electric meter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores the identity information is arranged on the electric meter;

authenticating the identity identification information, and determining the ammeter corresponding to the identity identification information;

generating recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information; and

and sending the recharging code information to the mobile terminal, and then transmitting the recharging code information to the electric meter, so that the electric charge information of the electric meter is rewritten.

In a better scheme, the electric meter recharging platform is connected with the mobile terminal in a wireless communication mode; the recharging data information is generated based on payment operation executed by a user on the mobile terminal and is transmitted to the electric meter recharging platform from the mobile terminal in a wireless communication connection mode.

In a better scheme, the electric meter recharging platform is connected with the mobile terminal in an NFC communication mode; and the recharging data information is generated by inputting the recharging data information on a human-computer interaction interface of the electric meter recharging platform by an operator.

The technical scheme provided by the embodiment of the invention can have the following beneficial effects:

in the ammeter recharging platform, the ammeter recharging system and the ammeter recharging method provided by the invention, the ammeter is provided with the NFC tag and the NFC communication module, so that the ammeter can be identified by the mobile terminal with an NFC function, the ammeter recharging platform can generate a recharging code for the ammeter corresponding to the NFC tag, and the recharging code can be received and stored by the mobile terminal and transmitted to the ammeter through NFC communication connection between the mobile terminal and the ammeter, so that the electricity fee recharging is completed. Therefore, the electric meter recharging platform, the electric meter recharging system and the electric meter recharging method optimize the user electric meter recharging operation, and improve the convenience and efficiency of electric charge recharging operation.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electric meter recharging platform according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an electricity meter according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an electric meter recharging system according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a first electric meter recharging system according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a second electric meter recharging system according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a third electric meter recharging system according to an embodiment of the present invention.

Fig. 7 is a schematic flow chart of an electric meter recharging method according to an embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

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

As shown in fig. 1, fig. 1 is a schematic structural diagram of an electric meter recharging platform 100 according to an embodiment of the present invention, where the electric meter recharging platform 100 includes a first communication module 101, an authentication module 102, and a recharging module 103.

Referring to fig. 1 and 3, the first communication module 101 is configured to perform a communication connection with the mobile terminal 300 to obtain the identification information of the electricity meter 200. The mobile terminal 300 is connected with the electric meter 200 in an NFC communication manner, and the electric meter 200 is provided with an NFC tag 201 which can be read by the mobile terminal 300 and stores identification information.

The authentication module 102 is configured to authenticate the id information to determine the electric meter 200 corresponding to the id information.

The recharge module 103 is used for generating recharge code information corresponding to the electric meter 200; the recharging code information is sent to the mobile terminal 300 through the first communication module 101, then is transmitted to the electricity meter 200 through the mobile terminal 300, and the electricity fee information of the electricity meter 200 is rewritten.

The electric meter recharging platform 100 provided by the embodiment of the invention is matched with the electric meter 200 with the NFC function and the mobile terminal 300, the electric meter 200 needing electric charge recharging is determined by identifying the NFC label 201 of the electric meter 200, and then recharging code information corresponding to the electric meter 200 is generated, and the electric meter 200 can be recharged by the recharging code information. Therefore, the electric meter recharging platform 100 provided by the embodiment of the invention can optimize the operation of recharging the user electric meter, thereby improving the operation convenience and efficiency of recharging the electric charge.

In a preferred embodiment, referring to fig. 1 and 4, the electric meter recharging platform 100 is an online recharging platform running on a server. The first communication module 101 and the mobile terminal 300 are connected in a wireless communication manner. Specifically, the wireless communication method may be 4G, 5G, or Wifi, which is not limited herein. The mobile terminal 300 includes a second communication module 301 for connecting with the first communication module 101 in a wireless communication manner and a third communication module 302 in an NFC communication manner, and the electricity meter 200 further includes an NFC communication circuit 202 for connecting with the third communication module 302 in an NFC communication manner. Specifically, the mobile terminal 300 in this embodiment may be a smartphone, a laptop computer, or a tablet computer with an NFC function, which is not limited herein. Therefore, the mobile terminal 300 and the electric meter 200 are connected in an NFC communication manner through the third communication module 302 on the mobile terminal 300 and the NFC communication circuit 202 on the electric meter 200, and the third communication module 302 is configured to read the NFC tag 201 of the electric meter 200 and transmit the recharge code information to the electric meter 200.

In the above preferred solution, specifically, the first communication module 101 is further configured to obtain the recharge data information. The recharging data information is generated based on the payment operation executed by the user on the mobile terminal 300, and the recharging module 103 automatically generates recharging code information corresponding to the electric meter 200 based on the identity information and the recharging data information. For example, the mobile terminal 300 has an online payment function (such as WeChat payment, Payment or Bank card payment, etc.), and the user can complete online payment on the mobile terminal 300, thereby forming the recharge data information.

In a preferred embodiment, referring to fig. 1 and 5, the electric meter recharging platform 100 is a stand-alone recharging platform operating on a terminal device of a grid service site. Specifically, the terminal device may be a desktop computer, a tablet computer, or a workstation, which is not limited herein. The first communication module 101 is connected to the mobile terminal 300 in an NFC communication manner. Specifically, the mobile terminal includes a second communication module 301 connected to the first communication module 101 in an NFC communication manner, and the electricity meter 200 further includes an NFC communication circuit 202 connected to the second communication module 301 in an NFC communication manner. The second communication module 301 is further configured to read the NFC tag 201 of the electric meter 200 and transmit the top-up code information to the electric meter 200.

In the above preferred embodiment, specifically, the electric meter recharging platform 100 further includes a human-computer interaction module, configured to receive recharging data information. The recharge module 103 automatically generates recharge code information corresponding to the electric meter 200 based on the identification information and the recharge data information. In this embodiment, the user may pay in an online payment manner or an offline payment manner at the grid service site, and the staff manually operates the human-computer interface on the terminal device according to the payment condition of the user to input the user recharge amount, so as to form recharge data information on the electric meter recharge platform 100.

As shown in fig. 2, fig. 2 is a schematic structural diagram of an electric meter 200 according to an embodiment of the present invention, where the electric meter 200 includes an NFC tag 201, an NFC communication circuit 202, and a recharging circuit 203. Referring to fig. 2 and 3, the NFC tag 201 is used to store identification information of the electric meter 200. The NFC communication circuit 202 is configured to perform NFC communication connection with the mobile terminal 300, and receive recharging code information generated by the electric meter recharging platform 100. Wherein the charging code information is transmitted to the NFC communication circuit 202 through the mobile terminal 300. The recharging circuit 203 is used for rewriting the electric charge data information based on the recharging code information.

The electric meter 200 provided by the embodiment of the invention is provided with the NFC tag 201 and the NFC communication circuit 202, and is matched with the mobile terminal 300 with the NFC function, so that the mobile terminal 300 can acquire the identity identification information of the electric meter 200 and recharge the electric meter 200 to acquire the recharging code, and the recharging code information can recharge the electric meter 200. Therefore, the electric meter 200 provided by the embodiment of the invention can optimize the operation of recharging the user electric meter, thereby improving the operation convenience and efficiency of recharging the electric charge.

In a preferred embodiment, the electric meter 200 further comprises an authentication circuit (not shown). The recharging code information carries the identity information of the electric meter to be recharged, and the authentication circuit is used for judging whether the identity information of the electric meter to be recharged is consistent with the identity identification information of the electric meter 200 or not so as to determine the validity of the recharging code information. The authentication circuit is arranged on the electric meter 200 and used for judging the consistency of the identity information of the electric meter to be recharged and the identity information of the electric meter 200, so that the problem of non-corresponding electric meter recharging is avoided, and the electric charge recharging is more intelligent.

As shown in fig. 3, fig. 3 is a schematic structural diagram of an electric meter recharging system according to an embodiment of the present invention, where the electric meter recharging system includes at least one electric meter recharging platform and an electric meter 200.

The at least one electric meter recharging platform 100 comprises a first communication module 101, an authentication module 102 and a recharging module 103. The first communication module 101 is in communication connection with the mobile terminal 300 to obtain the identification information of the electricity meter 200. The authentication module 102 is configured to authenticate the id information to determine the electric meter 200 corresponding to the id information. The recharge module 103 is used for generating recharge code information corresponding to the electric meter 200.

The electricity meter 200 includes an NFC tag 201, an NFC communication circuit 202, and a recharge circuit 203. The NFC tag 201 is used for storing identification information of the electric meter 200. The NFC communication circuit 202 is configured to perform NFC communication connection with the mobile terminal 300, and receive recharging code information generated by at least one electric meter recharging platform 100. Wherein, the recharging code information is transmitted to the NFC communication circuit 202 through the mobile terminal 300. The recharge circuit 203 is used for rewriting the electric charge data information based on the recharge code information.

In the electric meter recharging system provided by the embodiment of the invention, the electric meter recharging platform 100 is in communication connection with the mobile terminal 300, and the electric meter 200 is connected with the mobile terminal 300 in an NFC communication mode. The electric meter 200 is provided with the NFC tag 201 and the NFC communication module, so that the electric meter can be identified by the mobile terminal 300 having the NFC function, and the electric meter recharging platform 100 can generate a recharging code for the electric meter 200 corresponding to the NFC tag 201, the recharging code can be received and stored by the mobile terminal 300, and is transmitted to the electric meter 200 through the NFC communication connection between the mobile terminal 300 and the electric meter 200, so that the recharging of the electric charge is completed. Therefore, the electric meter recharging system provided by the embodiment of the invention optimizes the operation of recharging the user electric meter, thereby improving the operation convenience and efficiency of recharging the electric charge.

As shown in fig. 4, in the first electric meter recharging system according to the embodiment of the present invention, the first communication module 101 is connected to the mobile terminal 300 in a wireless communication manner. The mobile terminal 300 includes a second communication module 301 for connecting with the first communication module in a wireless communication manner and a third communication module 302 for connecting with the NFC communication circuit 202 in an NFC communication manner. The third communication module 302 is configured to read the identification information on the NFC tag 201 of the electric meter 200, and transmit the recharge code information to the electric meter 200.

In this embodiment, the electric meter recharging platform 100 is an online electric meter recharging platform running on a server, the mobile terminal 300 includes a second communication module 301 adopting a wireless communication mode and a third communication module 302 adopting an NFC communication mode, and the electric meter recharging platform 100 is connected with the mobile terminal 300 adopting a wireless communication mode. In a specific implementation process, a user may bring the mobile terminal 300 close to the electric meter 200, so as to read the NFC tag 201 of the electric meter 200 through the third communication module 302 by using an NFC communication method, and perform electric charge charging by using an online payment function of the mobile terminal 300. The recharging data information and the identity information of the electric meter 200 are transmitted to the electric meter recharging platform 100 in a wireless communication mode, and recharging code information is automatically formed. The charge code information is transmitted in a wireless communication manner and stored in the mobile terminal 300. When the user brings the mobile terminal 300 close to the electric meter 200 again, the charge code information is transmitted to the electric meter 200 through the NFC communication method, thereby completing the electric charge.

Therefore, the user can pay the electric charge on the mobile terminal 300 to obtain the recharging code information at any time and any place without going to a power grid company to purchase the electricity, and then the mobile terminal 300 is close to the electric meter 200 to be recharged to perform NFC connection, so that the electric charge recharging of the electric meter 200 can be completed, and the operation convenience and efficiency of the electric charge recharging are greatly improved.

As shown in fig. 5, in the second electric meter recharging system according to the embodiment of the present invention, the first communication module 101 and the mobile terminal 300 are connected by using an NFC communication method. The mobile terminal 300 includes a second communication module for being connected with the first communication module 101 in an NFC communication manner, and the second communication module 301 is further configured for being connected with the NFC communication circuit 202 in an NFC communication manner to read the NFC tag 201 of the electric meter 200 and transmit the recharge code information to the electric meter 200.

In this embodiment, the electric meter recharging platform 100 is a stand-alone recharging platform running on a terminal device of a power grid service site, and the electric meter recharging system is connected with the mobile terminal 300 in an NFC communication manner. In a specific implementation process, a user may bring the mobile terminal 300 close to the electric meter 200, so as to read the NFC tag 201 of the electric meter 200 through the third communication module 302 by using an NFC communication method. When the user arrives at the power grid service site, the mobile device is close to the electric meter recharging platform 100, so that the electric meter recharging platform 100 acquires the identity information on the NFC tag 201 of the electric meter 200 in an NFC communication mode. The user can adopt an online recharging mode or an offline recharging mode to pay the electric charge, and the power grid staff operates the man-machine interaction interface on the single-machine recharging platform according to the payment condition of the user and inputs the recharging amount of the user, so that recharging code information is formed. When the user brings the mobile terminal 300 close to the electric meter recharging platform 100, the recharging code information is transmitted in the NFC communication mode and stored in the mobile terminal 300. When the user brings the mobile terminal 300 close to the electric meter 200 again, the charge code information is transmitted to the electric meter 200 through the NFC communication method, thereby completing the electric charge.

Therefore, the user can use the mobile terminal 300 as a transmission medium to store the identification information on the NFC tag 201 of the electric meter 200 and the recharging code information of the stand-alone recharging platform, so that the electric card in the related art is no longer required for recharging, and the operation convenience and efficiency of electric charge recharging are improved.

As shown in fig. 6, in the third electric meter recharging system provided in the embodiment of the present invention, the number of the at least one electric meter recharging platform 100 is 2, the at least one electric meter recharging platform includes a first electric meter recharging platform 100a and a second electric meter recharging platform 100b, and the mobile terminal 300 includes a second communication module 301 and a third communication module 302. The first communication module 101a of the first electric meter recharging platform 100a is connected with the second communication module 301 in a wireless communication mode, and the first communication module 101b of the second electric meter recharging platform is connected with the third communication module 302 in an NFC communication mode. The third communication module 302 is further configured to read the NFC tag 201 of the electric meter 200 and transmit the top-up code information to the electric meter 200.

In this embodiment, the third electric meter recharging system can be regarded as a combination of the first electric meter recharging system shown in fig. 4 and the second electric meter recharging system shown in fig. 5, and includes an online electric meter recharging platform, i.e., the first electric meter recharging platform 100a, operating on the server, and a stand-alone recharging platform, i.e., the second electric meter recharging platform 100b, operating on the terminal device of the grid service site. Therefore, the user can pay the electric charge in an online payment mode, recharge the first electric meter recharging platform in a wireless communication mode to form recharging code information, and also can reach the power grid service site to pay the electric charge in an online mode or an offline mode to enable a worker to operate the second electric meter recharging platform to recharge to form the recharging code information.

Since the electric meter recharging system of the present embodiment is a combination of the first electric meter recharging system of fig. 4 and the second electric meter recharging system of fig. 5, the present embodiment has the advantages of both embodiments. In addition, the system is provided with two electric meter recharging platforms, and a user can recharge the electric meter 200 in different modes according to the user's needs, so that the flexibility of recharging the electric charge of the user is improved.

As shown in fig. 7, fig. 7 is a schematic flow chart of an electric meter recharging method according to an embodiment of the present invention, where the electric meter recharging method is applied to the electric meter recharging platform 100 according to the embodiment, and includes the following steps:

s101) obtaining the identity identification information of the electric meter and obtaining recharging data information; the electric meter recharging platform is in communication connection with the mobile terminal, the mobile terminal is connected with the electric meter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores identity identification information is arranged on the electric meter;

s102) authenticating the identity identification information, and determining an electric meter corresponding to the identity identification information;

s103) generating recharging code information of the corresponding ammeter based on the identity identification information and the recharging data information; and

s104) sending the recharging code information to the mobile terminal, and then transmitting the recharging code information to the electric meter, so that the electric charge information of the electric meter is rewritten.

In the electric meter recharging method provided by the embodiment of the invention, the identification information of the electric meter is obtained through the electric meter recharging system, and the electric meter is provided with the NFC label and the NFC communication module, so that the electric meter can be identified by the mobile terminal with the NFC function. The electric meter recharging platform can authenticate the identity identification information of the NFC label, then recharges the corresponding electric meter to generate a recharging code, the recharging code can be received and stored by the mobile terminal, and the recharging code is transmitted to the electric meter through NFC communication connection between the mobile terminal and the electric meter, so that the electric charge recharging is completed. Therefore, the electric meter recharging method provided by the embodiment of the invention optimizes the operation of recharging the user electric meter, thereby improving the operation convenience and efficiency of electric charge recharging.

In a preferred scheme, the electric meter recharging platform is connected with the mobile terminal in a wireless communication mode. The recharging data information is generated based on payment operation executed by a user on the mobile terminal and is transmitted to the electric meter recharging platform from the mobile terminal in a wireless communication connection mode. It should be understood that the electric meter recharging method in the present scheme is applied to the electric meter recharging system in fig. 4 or fig. 6.

In a better scheme, the electric meter recharging platform is connected with the mobile terminal in an NFC communication mode; and the recharging data information is generated by inputting the recharging data information on a human-computer interaction interface of the electric meter recharging platform by an operator. It should be understood that the electric meter recharging method in the present scheme is applied to the electric meter recharging system in fig. 5 or fig. 6.

It should be understood that various features of the above-described embodiments may be combined in any combination, and for the sake of brevity, all possible combinations of features in the above-described embodiments may not be described in detail, but rather, the combination of features which are not inconsistent with each other should be construed as being within the scope of the present disclosure.

The above description is only for the purpose of illustrating the preferred embodiments of the present disclosure and is not to be construed as limiting the scope of the present disclosure, but rather is intended to cover all equivalent structural changes made by applying the teachings of the present disclosure to the accompanying drawings.

Claims (14)

1. An electricity meter top-up platform, comprising:

the first communication module is used for being in communication connection with the mobile terminal so as to acquire the identity identification information of the electric meter; the mobile terminal is connected with the ammeter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores the identification information is arranged on the ammeter;

the authentication module is used for authenticating the identity identification information so as to determine the electric meter corresponding to the identity identification information; and

the recharging module is used for generating recharging code information corresponding to the ammeter; the charging code information is sent to the mobile terminal through the first communication module, then is transmitted to the electric meter through the mobile terminal, and is rewritten to the electric charge information of the electric meter.

2. The electric meter recharging platform of claim 1, wherein the first communication module is connected with the mobile terminal in a wireless communication manner; the mobile terminal comprises a second communication module and a third communication module, wherein the second communication module is used for being connected with the first communication module in an NFC communication mode, the third communication module is used for being connected with the first communication module in the NFC communication mode, and the ammeter further comprises an NFC communication circuit used for being connected with the third communication module in the NFC communication mode; the third communication module is used for reading the NFC label of the electric meter and transmitting the recharging code information to the electric meter.

3. The electricity meter recharging platform of claim 2, wherein the first communication module is further configured to obtain recharging data information; wherein the recharge data information is generated based on a user performing a payment operation on the mobile terminal;

and the recharging module automatically generates recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information.

4. The electric meter recharging platform of claim 1, wherein the first communication module is connected with the mobile terminal in an NFC communication manner; the mobile terminal comprises a second communication module which is used for being connected with the first communication module in an NFC communication mode, and the ammeter further comprises an NFC communication circuit which is used for being connected with the second communication module in the NFC communication mode; the second communication module is further used for reading an NFC label of the electric meter and transmitting the recharging code information to the electric meter.

5. The electricity meter recharging platform of claim 4, further comprising a human-computer interaction module for receiving recharging data information; and the recharging module automatically generates recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information.

6. An electricity meter, comprising:

the NFC tag is used for storing the identity information of the ammeter;

the NFC communication circuit is used for carrying out NFC communication connection with the mobile terminal and receiving recharging code information generated by the electric meter recharging platform; the charging code information is transmitted to the NFC communication circuit through the mobile terminal; and

and the recharging circuit is used for rewriting the electric charge data information based on the recharging code information.

7. An electricity meter as in claim 6, further comprising an authentication circuit; the authentication circuit is used for judging whether the identity information of the electric meter to be recharged is consistent with the identity identification information of the electric meter so as to determine the validity of the recharging code information.

8. An electric meter recharging system is characterized by comprising at least one electric meter recharging platform and an electric meter;

the at least one electric meter recharging platform comprises a first communication module which is used for being in communication connection with the mobile terminal so as to obtain the identity identification information of the electric meter; the authentication module is used for authenticating the identity identification information so as to determine the electric meter corresponding to the identity identification information; the recharging module is used for generating recharging code information corresponding to the ammeter;

the electric meter comprises an NFC tag and is used for storing the identification information of the electric meter; the NFC communication circuit is used for carrying out NFC communication connection with the mobile terminal and receiving recharging code information generated by the at least one ammeter recharging platform; the charging code information is transmitted to the NFC communication circuit through the mobile terminal; and the recharging circuit is used for rewriting the electric charge data information based on the recharging code information.

9. The electric meter recharging system of claim 8, wherein the first communication module is connected with the mobile terminal in a wireless communication manner; the mobile terminal comprises a second communication module and a third communication module, wherein the second communication module is used for being connected with the first communication module in an NFC communication mode, and the third communication module is used for being connected with the NFC communication circuit in the NFC communication mode; the third communication module is also used for reading the NFC label of the electric meter and transmitting the recharging code information to the electric meter.

10. The electric meter recharging system of claim 8, wherein the first communication module is connected with the mobile terminal in an NFC communication manner; the mobile terminal comprises a second communication module which is used for being connected with the first communication module in an NFC communication mode; the second communication module is further used for being connected with the NFC communication circuit in an NFC communication mode so as to read the NFC label of the ammeter and transmit the recharging code information to the ammeter.

11. The meter recharging system of claim 8, wherein the at least one meter recharging platform is 2 in number and comprises a first meter recharging platform and a second meter recharging platform; the mobile terminal comprises a second communication module and a third communication module;

the first communication module of the first electric meter recharging platform is connected with the second communication module in a wireless communication mode; the first communication module of the second electric meter recharging platform is connected with the third communication module in an NFC communication mode;

the third communication module is further connected with the NFC communication circuit in an NFC communication mode so as to read the NFC label of the ammeter and transmit the recharging code information to the ammeter.

12. An electric meter recharging method applied to the electric meter recharging platform according to any one of claims 1-5, characterized by comprising the following steps:

acquiring identity identification information of an ammeter and acquiring recharging data information; the electric meter recharging platform is in communication connection with a mobile terminal, the mobile terminal is connected with the electric meter in an NFC communication mode, and an NFC label which can be read by the mobile terminal and stores the identity information is arranged on the electric meter;

authenticating the identity identification information, and determining the ammeter corresponding to the identity identification information;

generating recharging code information corresponding to the ammeter based on the identity identification information and the recharging data information; and

and sending the recharging code information to the mobile terminal, and then transmitting the recharging code information to the electric meter, so that the electric charge information of the electric meter is rewritten.

13. The electric meter recharging method of claim 12, wherein the electric meter recharging platform is connected with the mobile terminal in a wireless communication manner; the recharging data information is generated based on payment operation executed by a user on the mobile terminal and is transmitted to the electric meter recharging platform from the mobile terminal in a wireless communication connection mode.

14. The electric meter recharging method of claim 12, wherein the electric meter recharging platform is connected with the mobile terminal in an NFC communication manner; and the recharging data information is generated by inputting the recharging data information on a human-computer interaction interface of the electric meter recharging platform by an operator.

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