CN107133821B - Equipment updating method, device and system of multi-online charging system - Google Patents

Abstract

The invention relates to a method, a device and a system for updating equipment of a multi-online charging system. An online equipment updating method for a multi-online charging system, the method comprising: receiving equipment information needing to be updated; updating the equipment information to a database of the multi-online charging system; carrying out communication detection on the updated equipment according to the updated equipment information in the database; and if the communication detection is successful, entering a charging sharing process. The method, the device and the system for updating the equipment of the multi-online charging system can update the database information of the multi-online charging system according to the updated equipment information, and can quickly update the equipment information to the charging system.

Description

Equipment updating method, device and system of multi-online charging system

Technical Field

The invention relates to the field of electric energy charging, in particular to a method, a device and a system for updating equipment of a multi-online charging system.

Background

In the process of using the multi-online charging system project, due to the conditions of certain equipment damage, project information change and the like, equipment (an air conditioning unit and an electric meter) in the system needs to be updated. Generally, professional system engineers are required to perform updating operation, and then debugging is performed again to update new equipment information to the charging system.

For example, when a unit needs to be added to the charging system in the existing charging system, the charging system is enabled to share the electric quantity which is not shared by manually updating the sharing time, so that the property loss caused by re-debugging is prevented; then, accessing the unit in the actual engineering; and finally, carrying out a manual debugging step: detecting information of all units, inputting corresponding relations of electric meters, and the like. The equipment updating mode is long in time consumption, complex in operation and difficult in later maintenance due to the fact that normal charging cannot be carried out during updating.

Disclosure of Invention

Therefore, it is necessary to provide a device updating method, apparatus and system for an online charging system for solving the problem of complicated operation of updating devices.

A device updating method of a multi-online charging system, wherein the multi-online charging system comprises a plurality of devices, and the method comprises the following steps:

receiving equipment information needing to be updated;

updating the equipment information to a database of the multi-online charging system;

carrying out communication detection on the updated equipment according to the updated equipment information in the database;

and if the communication detection is successful, entering a charging sharing process.

According to the equipment updating method of the multi-online charging system, the equipment information to be updated is obtained, the database information of the multi-online charging system is updated according to the updated equipment information, the equipment information can be quickly updated to the charging system, and the multi-online charging system can normally charge.

In one embodiment, the device information that needs to be updated includes: equipment number, updating mode and engineering corresponding relation.

In one embodiment, the step of updating the device information to the database of the multi-online charging system includes:

updating the equipment number in the database;

and updating the engineering corresponding relation in the database according to the updated equipment number and the updated mode.

In one embodiment, the step of detecting communication of the updated device according to the updated device information in the database includes:

sending a data request to the updated device;

and if receiving the data reply of the updated equipment responding to the data request, the communication detection is successful.

In one embodiment, the device includes a plurality of units, and the charging apportionment process includes:

acquiring the running time of each unit during equipment updating;

acquiring the electric quantity consumed by all the units during the equipment updating period;

and according to the electric quantity consumed by all the units and the operation time of each unit, distributing the electric quantity actually consumed by each unit to the corresponding units.

A multi-online charging device comprising:

the device information receiving module is used for receiving the device information needing to be updated;

the database updating module is used for updating the equipment information to a database of the multi-online charging system;

the communication detection module is used for carrying out communication detection on the updated equipment according to the updated equipment information in the database;

and the charging apportionment module is used for performing charging apportionment after the communication detection is successful.

The charging device of the multi-online machine comprises an equipment information receiving module, a database updating module, a communication detection module and a charging sharing module, and can quickly update the equipment information to a charging system by acquiring the equipment information to be updated and updating the database information of the charging system of the multi-online machine according to the updated equipment information, so that the charging system of the multi-online machine can normally charge

In one embodiment, the database update module comprises:

a number updating unit for updating the device numbers in the database;

and the project corresponding relation updating unit is used for updating the project corresponding relation in the database according to the updated equipment number and the updated mode.

In one embodiment, the communication detection module comprises:

and the information transmission unit is used for transmitting the updated database information to the gateway according to the equipment updating protocol.

The communication detection module further comprises:

the data request unit is used for sending a data request to the updated equipment;

and the data response unit is used for successfully detecting the communication if receiving the data reply of the updated equipment responding to the data request.

In one embodiment, the charging apportionment module includes:

the running time acquisition module is used for acquiring the running time of each unit during the equipment updating period;

the electric quantity acquisition module is used for acquiring the electric quantity actually consumed by all the units;

and the electric quantity sharing module is used for sharing the electric quantity actually consumed by the unit to the corresponding unit according to the electric quantity actually consumed by the unit and the running time of each unit.

A multi-online charging system comprising a memory and a processor, the memory having stored thereon computer-readable instructions which, when executed by the processor, cause the processor to perform the steps of:

receiving equipment information needing to be updated;

updating the equipment information to a database of the multi-online charging system;

carrying out communication detection on the updated equipment according to the updated equipment information in the database;

and if the communication detection is successful, entering a charging sharing process.

The charging system of the multi-online system comprises a memory, a processor and a program which is stored on the memory and can be executed on the processor, and when the processor executes the program, the processor can quickly update the equipment information to the charging system by acquiring the equipment information required to be updated and updating the database information of the charging system of the multi-online system in real time on line according to the updated equipment information, so that the charging system is more accurate.

Drawings

Fig. 1 is an application scenario diagram of a device updating method of a multi-online charging system according to an embodiment of the present invention;

fig. 2 is a flowchart of an apparatus updating method of an online charging system according to an embodiment of the present invention;

fig. 3 is a device update protocol diagram of an online charging system according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an online charging device according to an embodiment of the present invention.

Wherein:

110-unit;

120-a computer;

130-a gateway;

140-electric meter;

410-a device information receiving module;

420-a database update module;

422-number updating unit;

424-engineering correspondence updating unit;

430-a communication detection module;

432-information transmission unit;

434-a data request unit;

436-data response unit;

440-charge sharing module;

442-a run-time acquisition module;

444-electric quantity obtaining module;

446-electric quantity sharing module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the method, apparatus and system for updating an online charging system according to the present invention are described in further detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 is a schematic diagram of a multi-online charging system in an embodiment, where the multi-online charging system includes a unit 110, a computer 120, a gateway 130, and an electric meter 140. The devices in the multi-online charging system include a unit 110 and an electric meter 140. The electricity meter 140 is responsible for metering the electricity consumption of the air conditioning unit 110; the computer 120 or the gateway 130 may be responsible for acquiring the data of the unit 110 and performing the electric energy fee calculation, and storing the billing data and monitoring the unit 110.

Referring to fig. 2, an embodiment of the present invention provides a device updating method for a multi-online charging system, including:

s100, receiving equipment information needing to be updated;

s200, updating the equipment information to a database of the multi-online charging system;

s300, carrying out communication detection on the updated equipment according to the updated equipment information in the database;

s400, if the communication detection is successful, the charging allocation process is started.

The equipment updating method of the multi-online charging system updates the database information of the multi-online charging system in real time on line according to the updated equipment information, can quickly update the equipment information to the charging system, and does not influence normal charging.

Specifically, in step S100, after the device that needs to be updated is installed, the charging system for multiple online systems is accessed. Meanwhile, for the device to be updated in the multi-split charging system, the computer 120 receives the device information to be updated, and therefore, the number of the device to be updated and the updated device number need to be obtained for updating the corresponding relationship of the subsequent engineering.

In step S200, the device information is updated to the database of the multi-online charging system. The computer 120 updates the database information of the multi-online charging system according to the received updated device information.

In one embodiment, the device information that needs to be updated includes: equipment number, engineering correspondence and updating mode. The device number is a number representing device information, each device is provided with a different number, and the device number is used for distinguishing different devices. The updating mode comprises modes of replacing equipment, adding equipment, reducing equipment and the like. If only the equipment needs to be reduced or increased, only the equipment number before updating or the equipment number after updating needs to be recorded for increasing or reducing the corresponding relation of the project. The engineering correspondence relationship refers to a user, a room number, an air conditioner internal unit number, an air conditioner external unit number and an electric meter number corresponding to each device in the charging system. Each device in the charging system has a corresponding engineering correspondence. The project corresponding relation is the basis of charging of the charging system and is also an important basis for calculating the air conditioner cost.

In step S200 in one embodiment, the updating the database information of the charging system for multiple online systems according to the device information includes:

s210, updating the equipment number in the database;

and S220, updating the corresponding relation of the engineering according to the updated equipment number and the updated mode.

Specifically, after receiving the device information to be updated, the computer 120 stores the received updated device information in the database of the multi-online charging system, and the computer 120 updates the device number in the database information of the multi-online charging system according to the received updated device information and updates the project correspondence according to the updated device number and the updated mode.

Further, the updated database information is transmitted to the gateway according to the device update protocol. Specifically, according to the device update protocol shown in fig. 3, the computer 120 transmits the updated device number and the updated manner to the gateway 130, and the gateway 130 may serve as a charging system control center to complete the online update of the device of the charging system. The equipment updating protocol can be formulated according to the actual condition of equipment updating.

Wherein, the computer 120 or the gateway 130 can be used as a charging logic hub, and when the computer 120 is used as the charging logic hub, the computer 120 can complete the charging apportionment process of the device. When gateway 130 acts as a charging logic hub, gateway 130 is configured to complete the charging apportionment process for the device.

In one embodiment, step S300 further includes:

s310, sending a data request to the updated equipment;

and S320, if receiving the data reply of the updated equipment responding to the data request, the communication is successful.

Specifically, the gateway 130 or the computer 120 may perform continuous data requests for the updated device (e.g., the electric meter 140), and if the updated device can normally respond to the signal sent by the data request, it is considered that the communication of the device is normal, and subsequently, the charging can be apportioned according to the electric quantity of the new device; if the device is unable to respond normally to the data request signaling, the user may be prompted via a software interface in computer 120 that the device update failed, and the online update device process terminates.

In step S400, if the communication detection is successful, the charging apportionment process is entered. And completing the charging operation according to the charging sharing process.

Further, the charging apportionment process includes:

s410, acquiring the running time of each unit during equipment updating;

s420, acquiring the electric quantity consumed by all the units during the equipment updating period;

and S430, distributing the actually consumed electric quantity of each unit to the corresponding unit according to the consumed electric quantity of all the units and the operation time of each unit.

Specifically, the time of the operation state of the unit 110 between the time of the last booth and the time of updating the equipment is counted first. The operation states of the unit 110 include on/off states, temperature states, operation modes, and the like. Secondly, the power consumed between the time of the last stall and the time of updating the equipment is counted, that is, the difference of the readings of the electric meters 140 between the time of the last stall and the time of updating the equipment is counted. And thirdly, acquiring the actually consumed electric quantity of the units 110, namely, finding out the unit 110 corresponding to each electric meter 140. Finally, the electric quantity actually consumed by the unit 110 is distributed to the corresponding unit 110 according to the electric quantity actually consumed by the unit 110 and the operation time of the unit 110. That is, the power amount of the electric meter 140 is distributed to the corresponding unit 110 according to the operation state time of the unit 110. And after the steps are completed, generating an allocation record containing the old equipment, and automatically allocating the charging allocation flow to the completion.

After the charging allocation process is automatically allocated, new charging operation can be started according to new equipment, and the charging starting time is the time for updating the equipment. And after the charging allocation process is automatically allocated, prompting the user equipment to update successfully, and ending the online updating process of the equipment.

Referring to fig. 4, in one embodiment, a multi-online charging device is provided, which includes: the device information receiving module 410, the database updating module 420, the communication detecting module 430 and the billing apportionment module 440.

The device information receiving module 410 is configured to receive device information that needs to be updated. When the devices in the multi-online charging system need to be updated, the updated device information needs to be recorded. The equipment information comprises an equipment number, an engineering corresponding relation and an updating mode. The device information receiving module 410 may receive device information that needs to be updated.

The database updating module 420 is configured to update the device information to the database of the multi-split charging system, and update the database information of the multi-split charging system according to the device information. Further, the database updating module 420 may update the database information of the multi-online charging system according to the device number, the project correspondence, and the updating manner.

The communication detection module 430 is configured to perform communication detection on the updated device according to the updated device information in the database. Specifically, the gateway 130 or the computer 120 may make continuous data requests to the updated device (e.g., the electric meter 140), and if the new device can normally reply to the signal sent by the data request, the device is considered to be in normal communication.

The charging apportionment module 440 is configured to apportion the charging when the communication detection is successful. Further, either computer 120 or gateway 130 may act as a billing logic hub, and when computer 120 acts as a billing logic hub, computer 120 may perform a billing amortization process for the device. When gateway 130 acts as a charging logic hub, gateway 130 is configured to complete the charging apportionment process for the device.

The multi-online charging device provided by this embodiment includes an equipment information receiving module 410, a database updating module 420, a communication detecting module 430, and a charging apportionment module 440, and can update the database information of the multi-online charging system on line in real time according to the updated equipment information, and can quickly update the equipment information to the multi-online charging system.

In one embodiment, the database update module 420 includes a number update unit 422 and a project correspondence update unit 424. A number updating unit 422, configured to update the device number in the database information. In actual engineering, each device corresponds to a device number, and when the device changes, the device number also changes. The number updating unit 422 may update the device number in the database information according to the change of the device number.

The engineering correspondence updating unit 424 is used for updating the engineering correspondence according to the updated equipment number and the updated mode. When the equipment number is changed, the engineering corresponding relation of the equipment is also changed. The project correspondence update unit 424 numbers to update the project correspondence of the equipment.

In one embodiment, the communication detection module 430 includes an information transmission unit 432. The information transmitting unit 432 is configured to transmit the updated database information to the gateway 130 according to the device update protocol. The equipment update protocol may be set according to an actual project, and the information transmission unit 432 may transmit the updated database to the gateway 130 according to the set equipment update protocol.

In one embodiment, the communication detection module 430 includes a data request unit 434 and a data response unit 436. The data requesting unit 434 is configured to send a data request to the updated device. The data response unit 436 is configured to enter a charging apportionment process if a data reply is received, where the updated device responds to the data request. If the device is unable to respond normally to the data request signaling, the user may be prompted via a software interface in computer 120 that the device update failed, and the online update device process terminates.

In one embodiment, the billing apportionment module 440 includes a runtime acquisition module 442, a power acquisition module 444, and a power apportionment module 446. The running time obtaining module 442 is configured to obtain the running time of each unit 110 during the equipment updating period. And an electric quantity obtaining module 444, configured to obtain electric quantities actually consumed by all the units 110. The electric quantity apportioning module 446 is configured to apportion the electric quantity actually consumed by the unit 110 to the corresponding unit 110 according to the electric quantity actually consumed by the unit 110 and the operation time of each unit 110.

In one embodiment, a multi-online charging system is provided, which includes a memory and a processor, the memory having stored thereon computer-readable instructions, which, when executed by the processor, cause the processor to perform the steps of:

receiving equipment information needing to be updated;

updating database information of the multi-online charging system according to the equipment information;

carrying out communication detection on the updated equipment according to the updated database information;

and if the communication detection is successful, entering a charging sharing process.

The processor, when executing the readable instructions stored in the computer, may be configured to receive device information that needs to be updated, and update database information of the multi-online charging system according to the device information. The processor may be configured to receive a device number of a device that needs to be updated, an engineering correspondence, and an update method. And the processor transmits the received updated equipment information to the memory, and the memory is used for updating the equipment number and the updating mode in the database information of the multi-online charging system to update the engineering corresponding relation so as to complete the updating of the database information of the multi-online charging system.

The processor can perform communication detection on the updated equipment according to the updated database information. Specifically, the processor sends a data request to the updated device, if the updated device can normally reply to the signal sent by the data request, the communication of the device is considered to be normal, and if the device cannot normally reply to the signal sent by the data request, the user may be prompted through a software interface in the computer 120 that the device has failed to be updated.

The processor may execute computer readable instructions stored in the memory for billing apportionment when the communication detection is successful. The processor is a charging logic center of the multi-online charging system, and can obtain the apportioned electric quantity of each unit 110 according to the running time of each unit 110 and the electric quantity consumed by all the units 110 during the more-time equipment period. Can be determined according to the formula: the unit 110 apportions the electric quantity, which is the actual electric consumption recorded by the unit 110 calculation electric consumption meter 140/the total calculated electric consumption of the unit 110, to obtain the unit 110 apportioned electric quantity.

The charging system of the multi-online system comprises a memory and a processor, wherein the memory is stored with a computer readable instruction, and when the computer readable instruction is executed by the processor, the device information to be updated is acquired, and the database information of the charging system of the multi-online system is updated on line in real time according to the updated device information, so that the device information can be updated to the charging system quickly, and the charging system is more accurate.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A device updating method for a multi-online charging system, wherein the multi-online charging system comprises a plurality of devices, and the method comprises the following steps:

receiving equipment information needing to be updated;

updating the equipment information to a database of the multi-online charging system;

carrying out communication detection on the updated equipment according to the updated equipment information in the database;

if the communication detection is successful, accessing the updated equipment to the multi-online charging system, and entering a charging sharing process; and the charging allocation process comprises charging according to the running time and the consumed electric quantity between the last allocation moment and the equipment updating moment, and starting new charging by taking the equipment updating moment as the charging starting moment.

2. The method of claim 1, wherein the device information that needs to be updated comprises: equipment number, updating mode and engineering corresponding relation.

3. The method of claim 1, wherein the step of updating the device information to a database of the charging system comprises:

updating the equipment number in the database;

and updating the engineering corresponding relation in the database according to the updated equipment number and the updated mode.

4. The method of claim 1, wherein the step of performing communication detection on the updated device according to the updated device information in the database comprises:

sending a data request to the updated device;

and if receiving the data reply of the updated equipment responding to the data request, the communication detection is successful.

5. The method of claim 1, wherein the device comprises a plurality of units, and wherein the charge sharing process comprises:

acquiring the running time of each unit during equipment updating;

acquiring the electric quantity consumed by all the units during the equipment updating period;

and according to the electric quantity consumed by all the units and the operation time of each unit, distributing the electric quantity actually consumed by each unit to the corresponding units.

6. A multi-online charging device, comprising:

the device information receiving module is used for receiving the device information needing to be updated;

the database updating module is used for updating the equipment information to a database of the multi-online charging system;

the communication detection module is used for carrying out communication detection on the updated equipment according to the updated equipment information in the database;

the charging sharing module is used for accessing the updated equipment to the multi-online charging system to perform a charging sharing process after the communication detection is successful; and the charging allocation process comprises charging according to the running time and the consumed electric quantity between the last allocation moment and the equipment updating moment, and starting new charging by taking the equipment updating moment as the charging starting moment.

7. The multi-online charging device according to claim 6, wherein the database update module comprises:

a number updating unit for updating the device numbers in the database;

and the project corresponding relation updating unit is used for updating the project corresponding relation in the database according to the updated equipment number and the updated mode.

8. The multi-online charging device according to claim 6, wherein the communication detection module further comprises:

the data request unit is used for sending a data request to the updated equipment;

and the data response unit is used for successfully detecting the communication if receiving the data reply of the updated equipment responding to the data request.

9. The multi-online charging device of claim 6, wherein the charging sharing module comprises:

the running time acquisition module is used for acquiring the running time of each unit during the equipment updating period;

the electric quantity acquisition module is used for acquiring the electric quantity consumed by all the units;

and the electric quantity sharing module is used for sharing the electric quantity actually consumed by the unit to the corresponding unit according to the electric quantity consumed by the unit and the running time of each unit.

10. A multi-online charging system comprising a memory and a processor, the memory having stored thereon computer-readable instructions which, when executed by the processor, cause the processor to perform the steps of:

receiving equipment information needing to be updated;

updating the equipment information to a database of the multi-online charging system;

carrying out communication detection on the updated equipment according to the updated equipment information in the database;

if the communication detection is successful, accessing the updated equipment to the multi-online charging system, and entering a charging sharing process; and the charging allocation process comprises charging according to the running time and the consumed electric quantity between the last allocation moment and the equipment updating moment, and starting new charging by taking the equipment updating moment as the charging starting moment.

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