CN106842991B - Remote control method and device for intelligent electric meter - Google Patents

Abstract

The invention discloses a remote control method of an intelligent ammeter, which comprises the following steps: when electric quantity information uploaded by an intelligent electric meter is received, acquiring an intelligent electric meter identifier carried in the electric quantity information, and storing the intelligent electric meter identifier and electric quantity data in the electric quantity information in a correlation manner; the method comprises the steps that when an electric quantity data query request sent by a terminal is received, an electric meter identification associated with user information carried in the electric quantity data query request is obtained; and sending the acquired electric quantity data associated with the electric meter identification to the terminal. The invention also discloses a remote control device of the intelligent ammeter, which enables a user to inquire the electric quantity data in real time and is very convenient and fast.

Description

Remote control method and device for intelligent electric meter

Technical Field

The invention relates to the technical field of internet, in particular to a remote control method and device for an intelligent electric meter.

Background

In order to conveniently use and count the power consumption, the ammeter is basically installed on the current household, the current ammeter is divided into a traditional ammeter and an intelligent ammeter, the technical principle of the traditional ammeter is simpler, the traditional ammeter generally has a power consumption metering function, a power company needs to send special meter reading personnel to count the power consumption, the electricity consumption is not convenient enough, the problem that the traditional ammeter is not convenient enough to count the power is solved, the intelligent ammeter often can send detected power data to a server of the power company, the power company directly performs charging operation according to the received power data, but the mode user still needs to go to the power company to inquire when the power is required to be inquired, and the power inquiry is not convenient enough.

Disclosure of Invention

The embodiment of the invention provides a remote control method and device for an intelligent electric meter, and aims to solve the technical problem that electric quantity query is not convenient enough.

In order to achieve the above object, an embodiment of the present invention provides a remote control method for a smart meter, where the remote control method for the smart meter includes:

when electric quantity information uploaded by an intelligent electric meter is received, acquiring an intelligent electric meter identifier carried in the electric quantity information, and storing the intelligent electric meter identifier and electric quantity data in the electric quantity information in a correlation manner;

the method comprises the steps that when an electric quantity data query request sent by a terminal is received, an electric meter identification associated with user information carried in the electric quantity data query request is obtained;

and sending the acquired electric quantity data associated with the electric meter identification to the terminal.

In order to achieve the above object, an embodiment of the present invention further provides a remote control device for a smart meter, where the remote control device for a smart meter includes:

the acquisition module is used for acquiring the intelligent electric meter identification carried in the electric quantity information when the electric quantity information uploaded by the intelligent electric meter is received;

the storage module is used for storing the intelligent ammeter identification and the electric quantity data in the electric quantity information in a correlation manner;

the acquisition module is further used for acquiring an ammeter identifier associated with the user information carried in the electric quantity data query request after receiving the electric quantity data query request sent by the terminal;

and the sending module is used for sending the acquired electric quantity data associated with the electric meter identification to the terminal.

According to the remote control method and device for the intelligent electric meter, when the electric quantity information uploaded by the intelligent electric meter is received, the intelligent electric meter identification of the intelligent electric meter is stored in a correlated mode with the electric quantity data in the electric quantity information, the electric meter identification related to the user information carried in the electric quantity data query request is obtained when the electric quantity data query request sent by the terminal is received, and the electric quantity data related to the obtained electric meter identification are sent to the terminal, so that the user can query the electric quantity data in real time, and the remote control method and device for the intelligent electric meter are very convenient and fast.

Drawings

FIG. 1 is a schematic diagram of a system architecture according to the present invention;

fig. 2 is a schematic diagram of a hardware architecture of the cloud server in fig. 1;

fig. 3 is a schematic flow chart of a remote control method of the smart meter according to a first embodiment of the invention;

fig. 4 is a schematic flow chart illustrating a remote control method of the smart meter according to a second embodiment of the present invention;

fig. 5 is a schematic flow chart of a remote control method of the smart meter according to a third embodiment of the invention;

FIG. 6 is a functional block diagram of a first embodiment of a remote control of a smart meter according to the present invention;

FIG. 7 is a functional block diagram of a third embodiment of the remote control of the smart meter according to the present invention;

fig. 8 is a functional module diagram of a fourth embodiment of the remote control of the smart meter according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: when electric quantity information uploaded by an intelligent electric meter is received, acquiring an intelligent electric meter identifier carried in the electric quantity information, and storing the intelligent electric meter identifier and electric quantity data in the electric quantity information in a correlation manner; the method comprises the steps that when an electric quantity data query request sent by a terminal is received, an electric meter identification associated with user information carried in the electric quantity data query request is obtained; and sending the acquired electric quantity data associated with the electric meter identification to the terminal.

Because current smart electric meter often can send the server of power company with the electric quantity data that detect, power company directly carries out the operation of charging according to the electric quantity data that receive, but this mode user still need go the power company inquiry when needing to inquire the electric quantity, leads to the electric quantity inquiry convenient inadequately.

Specifically, as shown in fig. 1, the system architecture according to the embodiment includes a smart meter, a gateway, a cloud server, a user terminal, and a management terminal corresponding to an electric power company, and a remote control program of the smart meter runs in the cloud server.

The intelligent electric meter is used for counting electric quantity, sending electric quantity data to the cloud server through the gateway, receiving a control instruction sent by the cloud server, and responding to the control instruction, wherein the control instruction can comprise power failure, data acquisition, transmission and the like.

The gateway, be used for uploading the data that smart electric meter sent to the high in the clouds server, this gateway can pass the gateway for the agreement thoroughly, can support all communication protocol's ammeter, encapsulate into the data packet according to the agreement that the ammeter corresponds with the data that the high in the clouds was sent and send the ammeter to handle, for example when this gateway supports near field protocol such as infrared or bluetooth, can convert the internet protocol data packet that the high in the clouds was sent into near field protocol data packet and send to smart electric meter, this gateway can have encryption function, carry out encryption processing to the data of transmission between high in the clouds server and the smart electric meter.

The user terminal is used for sending data such as a data query request and a control request to the cloud server, wherein the control request comprises data sharing and control over the electric meter, such as data acquisition frequency and data uploading frequency of the electric meter.

And the management terminal is used for inquiring the electric quantity data from the cloud server and sending data such as a control request and the like.

As an implementation scheme, a hardware structure of the cloud server may be as shown in fig. 2.

Fig. 2 shows a hardware architecture related to the cloud server of the present invention. As shown in fig. 2, the hardware involved in the cloud server includes: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. The communication bus 1002 is used for implementing connection communication between the components in the terminal. The user interface 1003 may include a Display (Display), a Keyboard (Keyboard), a mouse, and other components, and is configured to receive information input by a user and send the received information to the processor 1005 for processing. The display screen can be an LCD display screen, an LED display screen, and can also be a touch screen for data required to be displayed by information. The optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001. As shown in fig. 2, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a remote control program of the smart meter.

In the hardware related to the cloud server shown in fig. 2, the network interface 1004 is mainly used for communicating with the service server to receive remote control data of the smart meter uploaded by the service server; the user interface 1003 is mainly used for connecting a client, performing data communication with the client, and receiving information and instructions input by the client; and the processor 1001 may be configured to call a remote control program of the smart meter stored in the memory 1005 and perform the following operations:

when electric quantity information uploaded by an intelligent electric meter is received, acquiring an intelligent electric meter identifier carried in the electric quantity information, and storing the intelligent electric meter identifier and electric quantity data in the electric quantity information in a correlation manner;

the method comprises the steps that when an electric quantity data query request sent by a terminal is received, an electric meter identification associated with user information carried in the electric quantity data query request is obtained;

and sending the acquired electric quantity data associated with the electric meter identification to the terminal.

Further, in one embodiment, the processor 1001 calling the remote control program of the smart meter stored in the memory 1005 may perform the following operations:

when the electric quantity data is abnormal, acquiring user information associated with the intelligent electric meter identification;

and sending alarm information to a user terminal corresponding to the user information, or sending alarm information to a user terminal corresponding to the user information and sending alarm information to a preset remote control terminal of the intelligent electric meter.

Further, in one embodiment, the processor 1001 calling the remote control program of the smart meter stored in the memory 1005 may perform the following operations:

when a control request of power failure of the intelligent electric meter is received, verifying user information carried in the control request;

and when the user information passes verification, sending a power-off instruction to the intelligent electric meter corresponding to the intelligent electric meter identification carried in the control request, wherein the intelligent electric meter executes power-off operation when receiving the power-off instruction.

Further, in one embodiment, the processor 1001 calling the remote control program of the smart meter stored in the memory 1005 may perform the following operations:

and updating the electric quantity consumption curve corresponding to the electric meter identification according to the electric quantity data, and updating the electric quantity consumption curve of the electric meter identification according to the electric quantity consumption curve.

Further, in one embodiment, the processor 1001 calling the remote control program of the smart meter stored in the memory 1005 may perform the following operations:

when an electric quantity consumption curve sharing request is received, acquiring sharing user information and shared user information according to the electric quantity consumption curve sharing request;

acquiring an electric quantity consumption curve of the electric meter identification associated with the shared user information;

and sending the acquired electric quantity consumption curve to a user terminal corresponding to the shared information.

According to the scheme, when the electric quantity information uploaded by the intelligent electric meter is received, the intelligent electric meter identification of the intelligent electric meter is stored in association with the electric quantity data in the electric quantity information, the electric quantity data query request sent by the terminal is received, the electric meter identification associated with the user information carried in the electric quantity data query request is acquired, the acquired electric quantity data associated with the electric meter identification is sent to the terminal, so that the user can query the electric quantity data in real time, and the method is very convenient.

Based on the hardware architecture, the embodiment of the remote control method of the intelligent electric meter is provided.

As shown in fig. 3, a first embodiment of a remote control method for a smart meter according to the present invention is provided, where the remote control method for a smart meter includes:

step S10, when receiving electric quantity information uploaded by an intelligent electric meter, acquiring an intelligent electric meter identification carried in the electric quantity information, and storing the intelligent electric meter identification and the electric quantity data in the electric quantity information in a correlation manner;

in this embodiment, upload parameters of the electric quantity information of the smart electric meter, such as frequency and upload time, may be set by a user or an electric power company, the user information of the setting party is verified during the setting, and the upload parameters are modified when the verification is passed.

The intelligent electric meter uploads electric quantity information according to set uploading parameters, the electric quantity information can comprise electric quantity data, uploading time, identification information of the intelligent electric meter and the like, the electric quantity data comprise the current electric quantity of the intelligent electric meter and/or the accumulated electric quantity from the last uploading time point to the current uploading time point, for example, the uploading period is 15 days, the last uploading time point is 1 month and 15 days, and the uploading time point is 1 month and 30 days, so that the uploaded electric quantity data is the accumulated electric quantity between 1 month and 15 days and 1 month and 30 days; and the power consumption of each household appliance connected with the smart meter can be included, and the identification information of the smart meter can include a code of the smart meter or a physical address of the smart meter or a chip code of the smart meter, etc. The user can be at the high in the clouds server and self user information and smart electric meter sign go on associating to be convenient for look up electric quantity data, and the security of electric quantity data.

When the electric quantity data is stored, the electric quantity accumulated data in the preset time interval, the electric quantity change curve in the preset time interval and the electric quantity change curve set by each household appliance can be calculated according to the electric quantity data. The electric quantity data can be stored in a manner of being associated with a data table by an intelligent electric meter identification, and the like.

Step S20, when an electric quantity data query request sent by a terminal is received, acquiring an electric meter identifier associated with user information carried in the electric quantity data query request;

and step S30, sending the acquired electric quantity data associated with the electric meter identification to the terminal.

The user can visit the cloud server based on an APP installed in the terminal or through a webpage, and trigger an electric quantity data query request based on a visit interface of the cloud server, and when the query request of the electric quantity data is triggered, an option to be queried can be selected on the query interface, for example, the selected option is the electric quantity data and an electric quantity change curve, and then the cloud server feeds the electric quantity data and the electric quantity change curve back to the terminal when receiving the electric quantity data query request.

In order to further ensure the timeliness of the terminal for acquiring the electric quantity data, the cloud server can set the frequency of pushing the electric quantity data to each user, for example, once every month, when a pushing time point corresponding to user information arrives, the electric quantity data of the electric meter identifier associated with the user information is pushed to the terminal where the user information is located, so that the user can acquire the electric quantity data in time every month. When receiving the electric quantity data, the user can further control according to the electric quantity data, such as turning off the electric meter, or feeding back to the electric power company when the electric quantity data is abnormal.

It can be understood that, for the user's daily fee of paying, the user can carry out the payment of electric quantity based on the high in the clouds server, and the high in the clouds server can regularly push electric quantity data to the user every month, and the user can initiate the operation of paying based on received electric quantity data, and the process of the operation of should paying can refer to the long-range payment of prior art, and no longer repeated here.

According to the remote control method for the intelligent electric meter, when the electric quantity information uploaded by the intelligent electric meter is received, the intelligent electric meter identification of the intelligent electric meter is stored in association with the electric quantity data in the electric quantity information, the electric quantity data query request sent by the terminal is received, the electric meter identification associated with the user information carried in the electric quantity data query request is obtained, and the obtained electric quantity data associated with the electric meter identification is sent to the terminal, so that the user can query the electric quantity data in real time, and the remote control method is very convenient.

Further, a second embodiment of the remote control method for the smart meter according to the present invention is proposed based on the first embodiment, and referring to fig. 4, in this embodiment, after step S10, the remote control method for the smart meter further includes the steps of:

step S40, when the electric quantity data is abnormal, user information associated with the intelligent electric meter identification is obtained;

and S50, sending alarm information to a user terminal corresponding to the user information, or sending the alarm information to the user terminal corresponding to the user information and sending the alarm information to a preset remote control terminal of the intelligent electric meter.

In this embodiment, the abnormal electricity quantity data may include that electricity consumption in a preset time interval in the electricity quantity data is greater than a preset threshold, or that an alarm operation may be generated when a difference between the accumulated electricity quantity in the current collection period and the accumulated electricity quantity in other periods is too large. It can be understood that the electricity quantity data may include electricity consumption of each household appliance within a preset time interval, and when the electricity consumption of a household appliance is too large, only the user terminal corresponding to the user information may send alarm information.

The sent alarm information can comprise the reason of the alarm and the mark information of the intelligent ammeter so as to facilitate maintenance and exception elimination. It is understood that the management terminal side personnel of the electric power company can perform abnormal troubleshooting when receiving abnormal electric quantity data.

This embodiment can remote alarm make the remote monitoring of electric quantity data safer when electric quantity data is unusual.

Further, a third embodiment of the remote control method for the smart meter according to the present invention is proposed based on the first or second embodiment, and referring to fig. 5, in this embodiment, the remote control method for the smart meter further includes the steps of:

step S60, when a control request of the intelligent ammeter power failure is received, verifying user information carried in the control request;

step S70, when the user information passes verification, sending a power-off instruction to the smart electric meter corresponding to the smart electric meter identifier carried in the control request, wherein the smart electric meter executes power-off operation when receiving the power-off instruction.

In this embodiment, the user may send a power-off control request to the cloud through the user terminal or the power company through the management terminal. When the user information is not matched with the administrator information, whether the user information is associated with the intelligent electric meter identification in the intelligent electric meter power-off control request can be determined, and when the user information is associated with the administrator information, the verification is passed. The power-off command comprises immediate power-off and power-off after a preset time interval.

In this embodiment, the power-off instruction is remotely sent, so that the smart meter can be controlled more flexibly, for example, the power-off operation is executed when the user does not pay electricity.

Further, a fourth embodiment of the remote control method for the smart meter according to the present invention is provided based on any one of the above embodiments, and in this embodiment, after step S10, the remote control method for the smart meter further includes the steps of:

and updating the electric quantity consumption curve corresponding to the electric meter identification according to the electric quantity data, and updating the electric quantity consumption curve of the electric meter identification according to the electric quantity consumption curve.

The cloud server can generate an electric quantity consumption curve according to the electric quantity data after receiving the electric quantity data, and the electric quantity consumption curve can include electric quantity data of all household appliances monitored by the electric meter and electric quantity data of all household appliance devices.

It can be understood that the user can share the electric quantity data thereof to other terminals, and the remote control method of the smart meter further comprises the steps of:

when an electric quantity consumption curve sharing request is received, acquiring sharing user information and shared user information according to the electric quantity consumption curve sharing request;

acquiring an electric quantity consumption curve of the electric meter identification associated with the shared user information;

and sending the acquired electric quantity consumption curve to a user terminal corresponding to the shared information.

The energy-saving mode can be more intuitively shared through sharing of the electric quantity consumption data among the user terminals, and the sharing of the electric quantity consumption data can be very convenient and fast, for example, through the existing applications such as WeChat and qq. For example, the user may upload their energy saving mode, which may also be shared with other users as well as the power consumption curve.

Correspondingly, the invention provides a first embodiment of the remote control device of the intelligent electric meter. Referring to fig. 6, the remote control device of the smart meter includes an obtaining module 10, a storage module 20 and a sending module 30, wherein:

the acquiring module 10 is used for acquiring the smart meter identifier carried in the electric quantity information when the electric quantity information uploaded by the smart meter is received;

the storage module 20 is configured to store the smart meter identifier in association with the electric quantity data in the electric quantity information;

in this embodiment, upload parameters of the electric quantity information of the smart electric meter, such as frequency and upload time, may be set by a user or an electric power company, the user information of the setting party is verified during the setting, and the upload parameters are modified when the verification is passed.

The intelligent electric meter uploads electric quantity information according to set uploading parameters, the electric quantity information can comprise data such as electric quantity data, uploading time and identification information of the intelligent electric meter, the accumulated electric quantity from a last uploading time point to a current uploading time point is 15 days, for example, the uploading period is 15 days, the last uploading time point is 1 month and 15 days, the uploading time point is 1 month and 30 days, and the uploaded electric quantity data is the accumulated electric quantity between 1 month and 15 days and 1 month and 30 days; and the power consumption of each household appliance connected with the smart meter can be included, and the identification information of the smart meter can include a code of the smart meter or a physical address of the smart meter or a chip code of the smart meter, etc. The user can be at the high in the clouds server and self user information and smart electric meter sign go on associating to be convenient for look up electric quantity data, and the security of electric quantity data.

When the electric quantity data is stored, the electric quantity accumulated data in the preset time interval, the electric quantity change curve in the preset time interval and the electric quantity change curve set by each household appliance can be calculated according to the electric quantity data. The electric quantity data can be stored in a manner of being associated with a data table by an intelligent electric meter identification, and the like.

The obtaining module 10 is further configured to obtain, when receiving an electric quantity data query request sent by a terminal, an electric meter identifier associated with user information carried in the electric quantity data query request;

and the sending module 30 is configured to send the acquired electric quantity data associated with the electric meter identifier to the terminal.

The user can visit the cloud server based on an APP installed in the terminal or through a webpage, and trigger an electric quantity data query request based on a visit interface of the cloud server, and when the query request of the electric quantity data is triggered, an option to be queried can be selected on the query interface, for example, the selected option is the electric quantity data and an electric quantity change curve, and then the cloud server feeds the electric quantity data and the electric quantity change curve back to the terminal when receiving the electric quantity data query request.

In order to further ensure the timeliness of the terminal for acquiring the electric quantity data, the cloud server can set the frequency of pushing the electric quantity data to each user, for example, once every month, when a pushing time point corresponding to user information arrives, the electric quantity data of the electric meter identifier associated with the user information is pushed to the terminal where the user information is located, so that the user can acquire the electric quantity data in time every month. When receiving the electric quantity data, the user can further control according to the electric quantity data, such as turning off the electric meter, or feeding back to the electric power company when the electric quantity data is abnormal.

It can be understood that, for the user's daily fee of paying, the user can carry out the payment of electric quantity based on the high in the clouds server, and the high in the clouds server can regularly push electric quantity data to the user every month, and the user can initiate the operation of paying based on received electric quantity data, and the process of the operation of should paying can refer to the long-range payment of prior art, and no longer repeated here.

The remote control device of the intelligent electric meter provided by the embodiment stores the intelligent electric meter identification of the intelligent electric meter in association with the electric quantity data in the electric quantity information when the electric quantity information uploaded by the intelligent electric meter is received, and acquires the electric quantity data query request sent by the terminal, the electric meter identification associated with the user information carried in the electric quantity data query request is acquired, the electric quantity data associated with the electric meter identification is sent to the terminal, so that the user can query the electric quantity data in real time, and the remote control device is very convenient.

Further, a second embodiment of the remote control apparatus for the smart meter according to the present invention is provided based on the first embodiment, in this embodiment, the obtaining module 10 is further configured to obtain user information associated with the smart meter identifier when the electric quantity data is abnormal; the sending module 30 is further configured to send alarm information to the user terminal corresponding to the user information, or send alarm information to the user terminal corresponding to the user information and send alarm information to a preset remote control terminal of the smart electric meter.

In this embodiment, the abnormal electricity quantity data may include that electricity consumption in a preset time interval in the electricity quantity data is greater than a preset threshold, or that an alarm operation may be generated when a difference between the accumulated electricity quantity in the current collection period and the accumulated electricity quantity in other periods is too large. It can be understood that the electricity quantity data may include electricity consumption of each household appliance within a preset time interval, and when the electricity consumption of a household appliance is too large, only the user terminal corresponding to the user information may send alarm information.

The sent alarm information can comprise the reason of the alarm and the mark information of the intelligent ammeter so as to facilitate maintenance and exception elimination. It is understood that the management terminal side personnel of the electric power company can perform abnormal troubleshooting when receiving abnormal electric quantity data.

This embodiment can remote alarm make the remote monitoring of electric quantity data safer when electric quantity data is unusual.

Further, a third embodiment of the remote control device for the smart meter according to the present invention is proposed based on the first or second embodiment, and referring to fig. 7, in this embodiment, the remote control device for the smart meter further includes:

the verification module 40 is used for verifying the user information carried in the control request when the control request of the intelligent electric meter power failure is received;

the sending module 30 is further configured to send a power-off instruction to the smart meter corresponding to the smart meter identifier carried in the control request when the user information is verified, where the smart meter executes a power-off operation when receiving the power-off instruction.

In this embodiment, the user may send a power-off control request to the cloud through the user terminal or the power company through the management terminal. When the user information is not matched with the administrator information, whether the user information is associated with the intelligent electric meter identification in the intelligent electric meter power-off control request can be determined, and when the user information is associated with the administrator information, the verification is passed. The power-off command comprises immediate power-off and power-off after a preset time interval.

In this embodiment, the power-off instruction is remotely sent, so that the smart meter can be controlled more flexibly, for example, the power-off operation is executed when the user does not pay electricity.

Further, a fourth embodiment of the remote control method for the smart meter according to any of the above embodiments is provided, and referring to fig. 8, in this embodiment, the remote control device for the smart meter further includes:

and the updating module 50 is configured to update the electric quantity consumption curve corresponding to the electric meter identifier according to the electric quantity data, and update the electric quantity consumption curve of the electric meter identifier according to the electric quantity consumption curve.

The cloud server can generate an electric quantity consumption curve according to the electric quantity data after receiving the electric quantity data, and the electric quantity consumption curve can include electric quantity data of all household appliances monitored by the electric meter and electric quantity data of all household appliance devices.

It will be appreciated that the user may share his or her charge data to other terminals, i.e. the user may share it with other terminals

The obtaining module 10 is further configured to, when receiving an electric quantity consumption curve sharing request, obtain shared user information and shared user information according to the electric quantity consumption curve sharing request, and obtain an electric quantity consumption curve of an electric meter identifier associated with the shared user information;

the sending module 30 is further configured to send the acquired power consumption curve to the user terminal corresponding to the shared information.

The energy-saving mode can be more intuitively shared through sharing of the electric quantity consumption data among the user terminals, and the sharing of the electric quantity consumption data can be very convenient and fast, for example, through the existing applications such as WeChat and qq. For example, the user may upload their energy saving mode, which may also be shared with other users as well as the power consumption curve.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

Claims (6)

1. A remote control method of a smart meter is characterized by comprising the following steps:

receiving electric quantity information uploaded by the intelligent electric meter according to preset uploading frequency and uploading time;

calculating electric quantity accumulated data in a preset time interval, an electric quantity change curve in the preset time interval and an electric quantity change curve of each household appliance according to the electric quantity data in the electric quantity information; the electric quantity data comprises the electric consumption of each household appliance connected with the intelligent electric meter;

acquiring an intelligent electric meter identification carried in the electric quantity information, and storing the intelligent electric meter identification in association with the electric quantity data in the electric quantity information;

when the power consumption of each household appliance in the preset time interval is larger than a preset threshold value, or the difference value between the accumulated electric quantity in the current acquisition period and the accumulated electric quantity in other periods is larger than a difference threshold value, acquiring user information related to the intelligent electric meter identifier;

sending alarm information to a user terminal corresponding to the user information, or sending the alarm information to the user terminal corresponding to the user information and sending the alarm information to a preset remote control terminal of the intelligent electric meter;

the sent alarm information comprises an alarm reason and mark information of the intelligent ammeter;

receiving an electric quantity data query request triggered by a terminal based on an access interface of a cloud server; the power data query request is sent by the terminal in response to a checking operation of a query option in a query interface aiming at the power data, wherein the query option comprises the power data and a power variation curve;

acquiring an ammeter identification associated with the user information carried in the electric quantity data query request;

sending the acquired electric quantity data associated with the electric meter identification to the terminal; when a control request of power failure of the intelligent electric meter is received, verifying whether user information carried in the control request is matched with administrator information or not, and when the user information is matched with the administrator information, the user information is verified to pass; otherwise, determining whether the user information is associated with the intelligent electric meter identification carried in the control request, and when the user information is associated, the user information passes verification;

when the user information passes verification, sending a power-off instruction to the intelligent electric meter corresponding to the intelligent electric meter identifier carried in the control request, wherein the intelligent electric meter immediately executes power-off operation when receiving the power-off instruction, or executes power-off operation after a preset time interval;

when an electric quantity consumption curve sharing request is received, acquiring sharing user information and shared user information according to the electric quantity consumption curve sharing request;

acquiring an electric quantity consumption curve and an energy-saving mode of the electric meter identification associated with the shared user information;

and sending the acquired electric quantity consumption curve and the energy-saving mode to a user terminal corresponding to the shared user information through instant messaging application.

2. The method for remotely controlling a smart meter according to claim 1, wherein after the step of saving the smart meter identification in association with the power amount data in the power amount information, the method for remotely controlling a smart meter further comprises the steps of:

and updating the electric quantity consumption curve corresponding to the electric meter identification according to the electric quantity data, and updating the electric quantity consumption curve of the electric meter identification according to the electric quantity consumption curve.

3. The utility model provides a remote control device of smart electric meter which characterized in that, smart electric meter's remote control device includes:

the acquisition module is used for receiving electric quantity information uploaded by the intelligent electric meter according to preset uploading frequency and uploading time and acquiring the intelligent electric meter identification carried in the electric quantity information;

the storage module is used for storing the intelligent ammeter identification and the electric quantity data in the electric quantity information in a correlation manner;

the storage module is further used for calculating electric quantity accumulated data in a preset time interval, an electric quantity change curve in the preset time interval and an electric quantity change curve of each household appliance according to the electric quantity data in the electric quantity information; the electric quantity data comprises the electric consumption of each household appliance connected with the intelligent electric meter;

the acquiring module is further configured to acquire user information associated with the smart meter identifier when power consumption of each of the home appliances is greater than a preset threshold value within the preset time interval, or a difference between an accumulated electric quantity in a current acquisition period and an accumulated electric quantity in other periods is too large;

the sending module is used for sending alarm information to a user terminal corresponding to the user information, or sending the alarm information to the user terminal corresponding to the user information and sending the alarm information to a preset remote control terminal of the intelligent electric meter;

the sent alarm information comprises an alarm reason and mark information of the intelligent ammeter;

the acquisition module is further used for receiving an electric quantity data query request triggered by a terminal based on an access interface of a cloud server and acquiring an electric meter identifier associated with user information carried in the electric quantity data query request; the power data query request is sent by the terminal in response to a checking operation of a query option in a query interface aiming at the power data, wherein the query option comprises the power data and a power variation curve;

the acquisition module is further used for acquiring the frequency of pushing the electric quantity data to the user;

the sending module is further configured to send the acquired electric quantity data associated with the electric meter identifier to the terminal;

the sending module is further configured to push electric quantity data of an electric meter identifier associated with the user information to a terminal corresponding to the user information when it is determined that a push time point corresponding to the user information arrives based on the frequency; the verification module is used for verifying whether user information carried in a control request is matched with administrator information or not when the control request of the intelligent electric meter for power failure is received, and the user information passes verification when the user information is matched with the administrator information; otherwise, determining whether the user information is associated with the intelligent electric meter identification carried in the control request, and when the user information is associated, the user information passes verification; when the user information passes verification, sending a power-off instruction to the intelligent electric meter corresponding to the intelligent electric meter identification carried in the control request, wherein the intelligent electric meter executes power-off operation when receiving the power-off instruction;

the acquisition module is further used for acquiring shared user information and shared user information according to the electric quantity consumption curve sharing request when receiving the electric quantity consumption curve sharing request, and acquiring an electric quantity consumption curve and an energy-saving mode of an electric meter identifier associated with the shared user information;

and the sending module is further used for sending the acquired electric quantity consumption curve and the energy-saving mode to the user terminal corresponding to the shared user information through instant messaging application.

4. The remote control apparatus of the smart meter of claim 3, wherein the remote control apparatus of the smart meter further comprises:

and the updating module is used for updating the electric quantity consumption curve corresponding to the electric meter identification according to the electric quantity data and updating the electric quantity consumption curve of the electric meter identification according to the electric quantity consumption curve.

5. An electronic device, characterized in that the electronic device comprises:

a memory for storing executable instructions;

a processor, configured to execute the executable instructions to implement the method for remotely controlling the smart meter according to any one of claims 1 to 2.

6. A storage medium storing executable instructions for causing a processor to implement the method of remotely controlling a smart meter of any one of claims 1 to 2 when executed.

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