CN110768869B - Household charging method and device for multi-split system and computer equipment - Google Patents

Abstract

The application relates to a household charging method and device of a multi-split system, computer equipment and a storage medium. The method comprises the following steps: the method comprises the steps of obtaining power utilization information of the multi-split air conditioning unit, and detecting communication states of a first communication link and a second communication link, wherein the first communication link is a communication link formed by a charging controller, an individual charging terminal and a server, and the second communication link is a communication link formed by the charging controller and the server. And determining a target communication link according to the communication state, and feeding back the electricity utilization information to the server based on the target communication link so as to charge based on the electricity utilization information. By adopting the method, when the first communication link is abnormal in communication, the second communication link can be adopted as the target communication link in time, so that charging based on the electricity utilization information is realized, the influence on the user charging process when part of equipment fails in communication is reduced, the electricity utilization information can be further ensured to be updated in time, and the accuracy and the reliability of the acquired electricity utilization information are improved.

Description

Household charging method and device for multi-split system and computer equipment

Technical Field

The present application relates to the field of air conditioner technology, and in particular, to a household charging method and apparatus for a multi-split system, a computer device, and a storage medium.

Background

With the development of air conditioner technology and the wide application of multi-split air-conditioning systems, multi-split individual charging systems are developed for realizing the independent charging of different users to which different internal units belong in the multi-split air-conditioning systems.

In the process of processing the electric charge information of the users, the traditional multi-split charging system collects the electric charge information of each user basically in a mode of 'server → split charging terminal → charging controller → multi-split unit'. The charging controller collects and counts the electric charge information generated by the user using the air conditioner, and feeds the electric charge information back to the individual charging terminal, and the individual charging terminal packs and uploads the received electric charge information to the server for updating and storing. When the user executes the payment operation, the user-based charging terminal requests the electricity charge information stored in the server according to the payment operation of the user and displays the electricity charge information for the user to check, and the user can finally realize the payment of the electricity charge according to the displayed electricity charge information.

Due to the traditional individual charging mode, accurate user electricity charge information can be provided only by ensuring stable and reliable contact between all parts, however, in practical application, network failure or communication disconnection often occurs, and the problem of insufficient accuracy of the provided user electricity charge information due to the fact that the user electricity charge information cannot be updated in time easily occurs.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a household charging method, device, computer device and storage medium for a multi-online system, which can improve the accuracy of the user electricity fee information.

A household charging method of a multi-split system is executed on a charging controller, and the method comprises the following steps:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and determining a target communication link according to the communication state, and feeding back the electricity utilization information to a server based on the target communication link so as to charge based on the electricity utilization information.

In one embodiment, the determining the target communication link according to the communication status includes:

and determining the first communication link or the second communication link with the normal communication state as a target communication link.

In one embodiment, the method further comprises:

when the communication states of the first communication link and the second communication link are both abnormal, monitoring the communication states of the first communication link and the second communication link;

and taking the first communication link or the second communication link which is recovered to be normal at first as a target communication link.

In one embodiment, the acquiring power consumption information of the multi-connected system air conditioning unit includes:

acquiring air conditioning unit operation data and electric meter electric quantity data of a multi-split system, and obtaining the power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data;

acquiring unit configuration information of a multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the electric consumption of the multi-split system in a preset charging period;

and calculating to obtain the electricity utilization information corresponding to the internal machines according to the shared electric quantity and the electricity charge parameters of the internal machines.

In one embodiment, the detecting the communication status of the first communication link and the second communication link includes:

based on a heartbeat detection mechanism, acquiring heartbeat requests of the household charging terminals in two continuous preset detection periods;

when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication;

when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, sending heartbeat requests to the server in two continuous preset detection periods;

and when the reply of the server is received in two continuous preset detection periods, determining that the second communication link is normal in communication.

In one embodiment, the detecting the communication status of the first communication link and the second communication link further includes:

and when the heartbeat request of the individual charging terminal is received and the server is determined to receive the heartbeat request of the individual charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

In one embodiment, the detecting the communication status of the first communication link and the second communication link further includes:

and when the individual charging terminal is determined to receive the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

An individual household charging device of a multi-split system, the device comprising:

the power utilization information acquisition module is used for acquiring power utilization information of the multi-split air conditioning unit;

the communication state detection module is used for detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and the charging module is used for determining a target communication link according to the communication state and feeding back the electricity utilization information to a server based on the target communication link so as to charge based on the electricity utilization information.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and determining a target communication link according to the communication state, and feeding back the electricity utilization information to a server based on the target communication link so as to charge based on the electricity utilization information.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and determining a target communication link according to the communication state, and feeding back the electricity utilization information to a server based on the target communication link so as to charge based on the electricity utilization information.

According to the household charging method and device of the multi-split system, the computer equipment and the storage medium, the communication states of the first communication link and the second communication link are detected by acquiring the electricity utilization information of the air conditioning unit of the multi-split system. The first communication link is a communication link formed by the charging controller, the individual charging terminal and the server, and the second communication link is a communication link formed by the charging controller and the server. The target communication link is determined according to the communication state, when the first communication link is abnormal in communication, the second communication link is adopted as the target communication link in time, and the electricity utilization information is fed back to the server based on the target communication link, so that charging based on the electricity utilization information is realized, the influence on the user charging process when part of equipment is in communication failure is reduced, the electricity utilization information can be further ensured to be updated in time, and the accuracy and the reliability of the acquired electricity utilization information are improved.

Drawings

Fig. 1 is an application scenario diagram of a household charging method of a multi-split system in an embodiment;

fig. 2 is a flowchart illustrating a household charging method of a multi-split system in an embodiment;

fig. 3 is a device topology structure diagram of a household charging method of a multi-split system in an embodiment;

fig. 4 is a schematic flow chart illustrating the process of acquiring power consumption information of a multi-connected air conditioning unit in one embodiment;

FIG. 5 is a flow diagram illustrating an embodiment of detecting communication status of a first communication link and a second communication link;

FIG. 6 is a block diagram illustrating an exemplary embodiment of a household charging device of a multi-split system;

FIG. 7 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The household charging method of the multi-split system can be applied to the application environment shown in fig. 1. The server 102 is connected with one end of the household charging terminal 104 through the ethernet, the other end of the household charging terminal 104 is connected with one end of the charging controller 106, the other end of the charging controller 106 is respectively connected with the server 102 and the multi-split air conditioning unit 108, one end of the electric meter 110 is connected with the multi-split air conditioning unit 108, and the other end is connected with the charging controller 106. One of the multiple on-line system air conditioning units includes at least an outdoor unit 1082 and a plurality of indoor units 1084. The charging controller 106 obtains the power consumption information of the multi-split system air conditioning unit 108 and detects the communication states of the first communication link and the second communication link. The first communication link is a communication link formed by the charging controller 106, the individual charging terminal 104 and the server 102, and the second communication link is a communication link formed by the charging controller 106 and the server 102. The billing controller 106 determines a target communication link according to the communication status and feeds back the electricity utilization information to the server 102 based on the target communication link to perform billing based on the electricity utilization information. The server 102 may be implemented as a stand-alone server or as a server cluster comprised of multiple servers.

In one embodiment, as shown in fig. 2, a household charging method for a multi-split system is provided, which is described by taking the method as an example applied to the charging controller in fig. 1, and includes the following steps:

and step S202, acquiring the electricity utilization information of the air conditioning unit of the multi-split system.

Specifically, the power consumption of the multi-split system is obtained by collecting air conditioning unit operation data and electric meter electric quantity data of the multi-split system and according to the air conditioning unit operation data and the electric meter electric quantity data. The method comprises the steps of obtaining unit configuration information of the multi-split system, and determining the shared electric quantity of each internal unit of the multi-split system based on the unit configuration information and the electric consumption of the multi-split system in a preset charging period. And then according to the shared electric quantity and the electric charge parameter of each internal machine, calculating to obtain the electric consumption information of the corresponding internal machine.

The air conditioning unit operation data of the multi-split air conditioning system comprises parameters such as the indoor unit operation time, the indoor unit set temperature, the indoor unit set windshield, the opening degree of the indoor unit electronic expansion valve, the indoor environment temperature and the like of the multi-split air conditioning system, and the electric meter electric quantity data comprises data such as the electric consumption of the outdoor unit of the multi-split air conditioning system, the electric consumption of each indoor unit and the residual electric consumption of the corresponding indoor unit counted by an electric meter. The unit configuration information of the multi-split system comprises the corresponding relation between a user and an internal unit, an electric charge parameter, the corresponding relation between an electric meter and an air conditioning unit, and parameters such as a preset charging period, the power of the internal unit, the power of an external unit, the capacity of the internal unit, the models of the internal unit and the external unit. The electricity utilization information of the internal machine of the multi-split system comprises data such as usage records of the internal machine, electricity consumption data of the internal machine, electricity balance of a user and the like.

Further, as shown in fig. 3, an equipment topology structure diagram of an individual charging method of a multi-split air-conditioning system is provided, wherein an individual charging terminal is connected to a server based on an ethernet communication line, an ethernet communication interface is provided on a charging controller, the individual charging terminal and the server are connected based on the ethernet communication interface, the individual charging terminal and the server are connected based on an electric meter communication bus, the individual charging terminal and the server are connected to each electric meter based on an electric meter communication bus, and the multi-split air-conditioning system is connected to the multi-split air-conditioning system based on a multi-split air-conditioning system communication bus, wherein the multi-split air-conditioning system includes at least one external unit and a plurality of internal. The specific correspondence between the devices includes: the charging controller is connected with a plurality of multi-online systems, the electric meter is connected with the multi-online systems and is simultaneously connected with the external machine and the internal machine of the multi-online systems, and the charging controller and the individual charging terminal form an individual charging project.

The charging controller can collect air conditioning unit operation data of the multi-split system based on a communication bus of the multi-split system, can collect electric meter electric quantity data based on an electric meter bus, and sends obtained electricity utilization information according to the air conditioning unit operation data and the electric meter electric quantity data to a server or a household charging terminal based on an Ethernet communication line.

Step S204, detecting the communication state of a first communication link and a second communication link, wherein the first communication link is a communication link formed by the charging controller, the household charging terminal and the server, and the second communication link is a communication link formed by the charging controller and the server.

Specifically, based on a heartbeat detection mechanism, in two consecutive preset detection periods, a heartbeat request of the individual user charging terminal is obtained. And when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication. And when the first communication link is determined to be abnormal in communication, sending a heartbeat request to the server in two continuous preset detection periods based on a heartbeat detection mechanism. And when the reply of the server is received in two continuous preset detection periods, determining that the communication of the second communication link is normal.

The heartbeat detection mechanism is that a client inquires whether a server exists, namely the client sends a heartbeat request, and the server replies to the heartbeat request sent by the client. The client sends a heartbeat request once in a preset detection period, and if the client does not receive a server reply in two continuous preset detection periods, the connection between the client and the server is disconnected. Similarly, if the server does not receive the heartbeat request sent by the client in two consecutive preset detection periods, the connection between the server and the client is also considered to be disconnected. The preset detection period can be set to be 1 minute, and can be set and modified according to actual requirements.

Furthermore, long connection is established among three lines of 'charging controller and server', 'household charging terminal and server', 'charging controller and household charging terminal', and communication states of all lines are detected by sending heartbeats, so that closed-loop connection between the three lines of 'charging controller-household charging terminal-server' is established, communication connection of 'charging controller → household charging terminal → server' forms a first communication link, and communication connection of 'charging controller → server' forms a second communication link.

And step S206, determining a target communication link according to the communication state, and feeding back the electricity utilization information to the server based on the target communication link so as to charge based on the electricity utilization information.

Specifically, the method for determining the target communication link according to the communication state includes:

the first method comprises the following steps: and determining the first communication link or the second communication link with the normal communication state as a target communication link.

And the second method comprises the following steps: when the communication states of the first communication link and the second communication link are both abnormal, the communication states of the first communication link and the second communication link are monitored, and the first communication link or the second communication link which is recovered to be normal in communication at first is used as a target communication link.

Further, when the first communication link is determined to be the target communication link, the electricity utilization information is sent to the household charging terminal based on the first communication link, so that the household charging terminal feeds the electricity utilization information back to the server. And when the second communication link is determined to be the target communication link, feeding back the electricity utilization information to the server based on the second communication link.

When the communication states of the first communication link and the second communication link are abnormal, the communication states of the first communication link and the second communication link are monitored, the first communication link or the second communication link with the first communication recovered to be normal is used as a target communication link, and the electricity utilization information is fed back to the server based on the target communication link.

According to the household charging method of the multi-split system, the electricity utilization information of the air conditioning unit of the multi-split system is obtained, and the communication states of the first communication link and the second communication link are detected. The first communication link is a communication link formed by the charging controller, the individual charging terminal and the server, and the second communication link is a communication link formed by the charging controller and the server. The target communication link is determined according to the communication state, when the first communication link is abnormal in communication, the second communication link is adopted as the target communication link in time, and the electricity utilization information is fed back to the server based on the target communication link, so that charging based on the electricity utilization information is realized, the influence on the user charging process when part of equipment is in communication failure is reduced, the electricity utilization information can be further ensured to be updated in time, and the accuracy and the reliability of the acquired electricity utilization information are improved.

In an embodiment, as shown in fig. 4, the step of acquiring the electricity consumption information of the multi-connected air conditioning unit specifically includes the following steps S402 to S406:

and S402, acquiring air conditioning unit operation data and electric meter electric quantity data of the multi-split system, and obtaining the electric power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data.

Specifically, the air conditioning unit operation data of the multi-split air conditioning system comprises parameters such as the indoor unit operation time, the indoor unit set temperature, the indoor unit set windshield, the opening degree of the indoor unit electronic expansion valve, the indoor environment temperature and the like of the multi-split air conditioning system, and the electric meter electric quantity data comprises data such as the electric quantity of the outdoor unit of the multi-split air conditioning system, the electric quantity of each indoor unit and the residual electric quantity of the corresponding indoor unit counted by the electric meter. And calculating the power consumption of the multi-split air-conditioning system based on the collected air-conditioning operation data and the collected electric quantity data of the electric meter of the multi-split air-conditioning system.

And S404, acquiring unit configuration information of the multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the electric consumption of the multi-split system in a preset charging period.

The unit configuration information of the multi-split system comprises the corresponding relation between a user and an internal unit, an electric charge parameter, the corresponding relation between an electric meter and an air conditioning unit, and parameters such as a preset charging period, the power of the internal unit, the power of an external unit, the capacity of the internal unit, the models of the internal unit and the external unit.

Specifically, according to parameters such as the capacity of the internal machine, the running time of the internal machine, the set temperature of the internal machine, the indoor environment temperature, the set wind gear of the internal machine, the opening degree of an electronic expansion valve of the internal machine and the like of the multi-online system, the actually used electric quantity and the shared electric quantity of the internal machine corresponding to a user are comprehensively evaluated and calculated, so that the shared electric quantity of each internal machine of the multi-online system is determined. The indoor machine parameters of different users are different, the use conditions are different, and the corresponding apportionment results are inconsistent.

The method can adopt a mode that one electric meter counts the power consumption of the multi-split system, and the power consumption data counted by the electric meter is shared by the internal machine and the external machine to obtain the power consumption data and the power consumption data of the internal machine of the multi-split system. And the power consumption data of the external machine or the internal machine can be obtained according to the statistics of the electric meters by adopting a mode that the electric meters respectively count the power consumption of the external machine and the internal machine of the multi-split system.

And step S406, calculating power utilization information of the corresponding internal machines according to the shared electric quantity and the electric charge parameters of the internal machines.

The electricity consumption information of the internal machine of the multi-online system comprises data such as usage records of the internal machine, electricity consumption data of the internal machine and electricity balance of a user, and the electricity charge parameters comprise electricity charge unit price.

Specifically, based on the shared electric quantity and the electric charge parameter of each internal machine, the usage record, the electric quantity and electric charge consumption data of the internal machine and the electric charge balance corresponding to the used internal machine can be calculated.

According to the step of obtaining the electricity utilization information of the multi-connected system air conditioning unit, the electricity consumption of the multi-connected system is obtained based on the unit operation data and the electricity meter electricity quantity data of the multi-connected system, the apportioned electricity quantity of each indoor unit of the multi-connected system of the indoor units is determined based on the unit configuration information and the electricity consumption of the multi-connected system, the electricity utilization information of the corresponding indoor unit is obtained through calculation according to the apportioned electricity quantity and the electricity charge parameters of each indoor unit, and the electricity utilization information can be accurately obtained for different indoor units based on the configuration information and the use condition of the indoor units.

In an embodiment, as shown in fig. 5, the step of detecting the communication states of the first communication link and the second communication link specifically includes the following steps S502 to S508:

step S502, based on the heartbeat detection mechanism, in two continuous preset detection periods, the heartbeat request of the individual household charging terminal is obtained.

The heartbeat detection mechanism is that a client inquires whether a server exists, namely the client sends a heartbeat request, the server replies to the heartbeat request sent by the client, and a preset detection period can be set to be 1 minute.

Specifically, the heartbeat detection mechanism among the charging controller, the individual charging terminal and the server can be set as follows:

1) the heartbeat detection mechanism of the charging controller and the individual charging terminal is as follows: the charging controller is used as a server terminal, and the individual charging terminal is used as a client terminal.

2) The heartbeat detection mechanism of the charging controller and the server is as follows: the server serves as a server side, and the charging controller serves as a client side.

3) The heartbeat detection mechanism of the individual charging terminal and the server comprises the following steps: the server serves as a server side, and the individual charging terminal serves as a client side.

Furthermore, the charging controller is used as a server side, the household charging terminal is used as a client side, the household charging terminal can send heartbeat requests to the charging controller in two continuous preset detection periods based on a heartbeat detection mechanism, and the charging controller sends corresponding replies to the household charging terminal based on the heartbeat requests after receiving the heartbeat requests.

Step S504, when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, the first communication link is determined to be abnormal in communication.

And when the charging controller does not receive the heartbeat request of the individual charging terminal in two continuous preset detection periods, or the individual charging terminal does not receive the reply of the charging controller after continuously sending two heartbeat requests to the charging controller, determining that the first communication link is abnormal in communication. The first communication link comprises a first communication link A section consisting of a charging controller and an individual charging terminal, and a first communication link B section consisting of an individual charging terminal and a server.

Specifically, when the charging controller does not receive the heartbeat request of the household charging terminal in the first communication link in two consecutive detection periods, or the household charging terminal does not receive the reply of the charging controller after continuously sending two heartbeat requests to the charging controller in the first communication link, it is determined that the communication of the a section of the first communication link is abnormal, that is, the communication of the first communication link is abnormal.

Similarly, when it is determined that the server does not receive the heartbeat request sent by the household charging terminal in the first communication link B segment in two consecutive preset detection periods, or when it is determined that the server does not receive the reply of the server after the household charging terminal continuously sends two heartbeat requests to the server in the first communication link B segment, it is determined that the first communication link B segment is abnormal, that is, the first communication link is abnormal.

Further, when the charging controller does not receive the heartbeat request of the household charging terminal in the first communication link in two consecutive detection periods, or the household charging terminal does not receive the reply of the charging controller after continuously sending two heartbeat requests to the charging controller in the first communication link, it is determined that the communication of the section a of the first communication link is abnormal. And if the server receives the heartbeat request sent by the household charging terminal in the first communication link B section within two continuous preset detection periods, and the server receives the reply of the server after the household charging terminal continuously sends two heartbeat requests to the server in the first communication link B section, the first communication link B section is determined to be normal. But the communication status of the first communication link is still abnormal.

And in two continuous detection periods, the charging controller receives heartbeat requests of the household charging terminal in the first communication link, and the household charging terminal receives replies from the charging controller after continuously sending two heartbeat requests to the charging controller in the first communication link, so that the communication of the A section of the first communication link is determined to be normal. And if the server does not receive the heartbeat request sent by the household charging terminal in the first communication link B section in two continuous preset detection periods, determining that the first communication link B section is abnormal when the server does not receive the reply of the server after the household charging terminal continuously sends two heartbeat requests to the server in the first communication link B section. But the communication status of the first communication link is still abnormal.

Step S506, when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, a heartbeat request is sent to the server in two continuous preset detection periods.

Specifically, when the first communication link is determined to be abnormal in communication, the charging controller serves as a client side, the server serves as a server side, based on the heartbeat detection request, the charging controller sends heartbeat requests to the server in two continuous preset detection periods, and the server returns corresponding replies to the charging controller after receiving the heartbeat requests of the charging controller.

Step S508, when the reply from the server is received in two consecutive preset detection periods, it is determined that the second communication link is in normal communication.

Specifically, after the charging controller sends heartbeat requests to the server in two continuous preset detection periods, it is determined that the server successfully receives the heartbeat requests sent by the charging controller, and corresponding replies are sent to the charging controller, and when the charging controller successfully receives replies from the server, it is determined that the second communication link is normal in communication.

The step of detecting the communication states of the first communication link and the second communication link is based on a heartbeat detection mechanism, the heartbeat request of the household charging terminal is obtained in two continuous preset detection periods, when the heartbeat request of the household charging terminal is not received in the two continuous preset detection periods, the first communication link is determined to be abnormal in communication, the heartbeat request is sent to the server, and when the response of the server is received in the two continuous preset detection periods, the second communication link is determined to be normal in communication. The method and the device realize accurate judgment of the communication state among the devices based on the heartbeat request, further can provide a reliable communication link, and avoid the problem of communication interruption in the operation process.

In one embodiment, detecting the communication status of the first communication link and the second communication link further comprises: and when the heartbeat request of the household charging terminal is received and the server is determined to receive the heartbeat request of the household charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

The heartbeat detection mechanism between the first communication link section A, namely the charging controller, and the household charging terminal is as follows: the charging controller is used as a server terminal, and the individual charging terminal is used as a client terminal. The heartbeat detection mechanism of the first communication link B section, namely the household charging terminal and the server, is as follows: the server is used as a server side, and the individual charging terminal is used as a client side.

Specifically, in two continuous preset detection periods, the individual charging terminal sends heartbeat requests to the charging controller and the server respectively, and when it is determined that the charging controller and the server both receive the heartbeat requests sent by the individual charging terminal, it is indicated that the first communication link is normal in communication.

In other embodiments, detecting the communication status of the first communication link and the second communication link further comprises: and when the user-divided charging terminal receives the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

Specifically, when the individual charging terminal receives the responses returned by the charging controller and the server in two consecutive preset detection periods, it indicates that the first communication link is in normal communication.

The step of detecting the communication states of the first communication link and the second communication link realizes accurate judgment of the communication states between the devices based on the heartbeat request, and further can provide a reliable communication link and avoid the problem of communication interruption in the operation process.

In some embodiments, when the user pays, the user accesses the server through the intelligent terminal (such as a mobile phone and a computer), views the electric charge data of the user, and pays the electric charge through a payment interface (a third party payment tool, such as a payment instrument, a WeChat payment, and the like) provided by the server.

Specifically, when the user payment is completed, the server sends the payment information of the user to the individual user charging terminal for property check and management, and the communication mode here is as follows:

1) when the communication between the user-based charging terminal → the server is normal, the server directly sends the payment information of the user to the user-based charging terminal.

2) When the communication between the user-based charging terminal → the server is abnormal, the server sends the payment information of the user to the charging controller, and the charging controller sends the payment information to the user-based charging terminal.

3) When the charging controller → the individual charging terminal and the individual charging terminal → the server are abnormal, the server directly sends the payment information of the user to the individual charging terminal after the communication of the individual charging terminal → the server is normal. The communication state of each line is detected in real time by sending heartbeat, and when the communication of the first communication link or the second communication link is abnormal, abnormal information is displayed by the household charging terminal and fed back to the property manager.

In one embodiment, the first communication link comprises a first communication link A section composed of the charging controller and the household charging terminal, and a first communication link B section composed of the household charging terminal and the server. After detecting the communication states of the first communication link and the second communication link, the method further comprises the following steps:

when the communication of the first communication link A section is normal and the communication of the first communication link B section is abnormal, the electricity utilization information is sent to the household charging terminal based on the first communication link A section; or

When the communication of the first communication link A section is abnormal and the communication of the first communication link B section is normal, the electricity utilization information is sent to the household charging terminal through the server; or

When the communication of the first communication link A section is abnormal and the communication of the first communication link B section is abnormal, the communication state of the first communication link is monitored in real time, and when the first communication link A section is recovered, the electricity utilization information is sent to the household charging terminal based on the first communication link A section.

In the above steps, by detecting the communication state of the first communication link, and under the condition that the section a or the section B of the first communication link is normal or abnormal, the normal part is used to transmit the electricity utilization information, and when part of the equipment fails or part of the equipment is abnormal in communication, the part capable of normal communication can be used to the maximum extent to transmit the electricity utilization information, thereby further improving the working efficiency.

It should be understood that although the steps in the flowcharts of fig. 2, 4 and 5 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2, 4, and 5 may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the sub-steps or stages is not necessarily sequential, but may be performed alternately or alternatingly with other steps or at least some of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 6, there is provided a household charging apparatus of a multi-split system, including: power consumption information acquisition module 602, communication status detection module 604 and billing module 606, wherein:

and the power utilization information acquisition module 602 is used for acquiring the power utilization information of the air conditioning unit of the multi-split air conditioning system.

A communication status detection module 604, configured to detect communication statuses of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server.

And the charging module 606 is configured to determine a target communication link according to the communication state, and feed back the power consumption information to the server based on the target communication link, so as to perform charging based on the power consumption information.

According to the household charging device of the multi-split system, the electricity utilization information of the air conditioning unit of the multi-split system is obtained, and the communication states of the first communication link and the second communication link are detected. The first communication link is a communication link formed by the charging controller, the individual charging terminal and the server, and the second communication link is a communication link formed by the charging controller and the server. The target communication link is determined according to the communication state, when the first communication link is abnormal in communication, the second communication link is adopted as the target communication link in time, and the electricity utilization information is fed back to the server based on the target communication link, so that charging based on the electricity utilization information is realized, the influence on the user charging process when part of equipment is in communication failure is reduced, the electricity utilization information can be further ensured to be updated in time, and the accuracy and the reliability of the acquired electricity utilization information are improved.

In one embodiment, the power consumption information obtaining module is further configured to:

acquiring air conditioning unit operation data and electric meter electric quantity data of the multi-split system, and obtaining the power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data; acquiring unit configuration information of the multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the power consumption of the multi-split system in a preset charging period; and calculating to obtain the power utilization information of the corresponding internal machines according to the shared electric quantity and the power charge parameters of the internal machines.

The electricity utilization information acquisition module obtains the electricity consumption of the multi-online system based on the unit operation data and the electricity meter electricity quantity data of the multi-online system, determines the apportioned electricity quantity of each internal unit of the multi-online system of the internal units based on the unit configuration information of the multi-online system and the electricity consumption of the multi-online system, calculates the electricity utilization information of the corresponding internal units according to the apportioned electricity quantity and the electricity charge parameters of the internal units, and achieves the purpose that the electricity utilization information can be accurately obtained for different internal units based on the configuration information and the use condition of the internal units.

In one embodiment, the communication status detection module is further configured to:

based on a heartbeat detection mechanism, acquiring heartbeat requests of the individual household charging terminals in two continuous preset detection periods; when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication; when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, sending heartbeat requests to a server in two continuous preset detection periods; and when the reply of the server is received in two continuous preset detection periods, determining that the communication of the second communication link is normal.

The communication state detection module realizes accurate judgment of the communication state among the devices based on the heartbeat request, further can provide a reliable communication link, and avoids the problem of communication interruption in the operation process.

In one embodiment, the communication status detection module is further configured to:

and when the heartbeat request of the household charging terminal is received and the server is determined to receive the heartbeat request of the household charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

The communication state detection module realizes accurate judgment of the communication state among the devices based on the heartbeat request, further can provide a reliable communication link, and avoids the problem of communication interruption in the operation process.

In one embodiment, the communication status detection module is further configured to:

and when the user-divided charging terminal receives the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

The communication state detection module realizes accurate judgment of the communication state among the devices based on the heartbeat request, further can provide a reliable communication link, and avoids the problem of communication interruption in the operation process.

For specific limitations of the household charging device of the multi-split system, reference may be made to the above limitations of the household charging method of the multi-split system, and details are not described here. All or part of the modules in the household charging device of the multi-split system can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 7. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing the electricity utilization information. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to realize a household charging method of the multi-split system.

Those skilled in the art will appreciate that the architecture shown in fig. 7 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, there is provided a computer device comprising a memory storing a computer program and a processor implementing the following steps when the processor executes the computer program:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and determining a target communication link according to the communication state, and feeding back the electricity utilization information to the server based on the target communication link so as to charge based on the electricity utilization information.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

and determining the first communication link or the second communication link with the normal communication state as a target communication link.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the communication states of the first communication link and the second communication link are both abnormal, monitoring the communication states of the first communication link and the second communication link;

and taking the first communication link or the second communication link which is recovered to be normal at first as a target communication link.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

acquiring air conditioning unit operation data and electric meter electric quantity data of the multi-split system, and obtaining the power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data;

acquiring unit configuration information of the multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the power consumption of the multi-split system in a preset charging period;

and calculating to obtain the power utilization information of the corresponding internal machines according to the shared electric quantity and the power charge parameters of the internal machines.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

based on a heartbeat detection mechanism, acquiring heartbeat requests of the individual household charging terminals in two continuous preset detection periods;

when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication;

when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, sending heartbeat requests to a server in two continuous preset detection periods;

and when the reply of the server is received in two continuous preset detection periods, determining that the communication of the second communication link is normal.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

and when the heartbeat request of the household charging terminal is received and the server is determined to receive the heartbeat request of the household charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

and when the user-divided charging terminal receives the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server;

and determining a target communication link according to the communication state, and feeding back the electricity utilization information to the server based on the target communication link so as to charge based on the electricity utilization information.

In one embodiment, the computer program when executed by the processor further performs the steps of:

and determining the first communication link or the second communication link with the normal communication state as a target communication link.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the communication states of the first communication link and the second communication link are both abnormal, monitoring the communication states of the first communication link and the second communication link;

and taking the first communication link or the second communication link which is recovered to be normal at first as a target communication link.

In one embodiment, the computer program when executed by the processor further performs the steps of:

acquiring air conditioning unit operation data and electric meter electric quantity data of the multi-split system, and obtaining the power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data;

acquiring unit configuration information of the multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the power consumption of the multi-split system in a preset charging period;

and calculating to obtain the power utilization information of the corresponding internal machines according to the shared electric quantity and the power charge parameters of the internal machines.

In one embodiment, the computer program when executed by the processor further performs the steps of:

based on a heartbeat detection mechanism, acquiring heartbeat requests of the individual household charging terminals in two continuous preset detection periods;

when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication;

when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, sending heartbeat requests to a server in two continuous preset detection periods;

and when the reply of the server is received in two continuous preset detection periods, determining that the communication of the second communication link is normal.

In one embodiment, the computer program when executed by the processor further performs the steps of:

and when the heartbeat request of the household charging terminal is received and the server is determined to receive the heartbeat request of the household charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

In one embodiment, the computer program when executed by the processor further performs the steps of:

and when the user-divided charging terminal receives the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as 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 application, 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 concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A household charging method of a multi-split system is executed on a charging controller, and the method comprises the following steps:

acquiring power utilization information of a multi-split air conditioning unit;

detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server; the first communication link comprises a first communication link A section consisting of a charging controller and an individual charging terminal, and a first communication link B section consisting of an individual charging terminal and a server;

determining a target communication link according to the communication state, feeding back power utilization information of the internal machine to a server based on the target communication link, and charging based on the power utilization information;

determining a mode of a target communication link according to the communication state, comprising:

determining the first communication link or the second communication link with a normal communication state as a target communication link;

when the communication of the first communication link A section is normal and the communication of the first communication link B section is abnormal, the electricity utilization information is sent to the household charging terminal based on the first communication link A section; and when the communication of the section A of the first communication link is abnormal and the communication of the section B of the first communication link is normal, the electricity utilization information is sent to the household charging terminal through the server.

2. The method of claim 1, further comprising:

when the communication states of the first communication link and the second communication link are both abnormal, monitoring the communication states of the first communication link and the second communication link;

and taking the first communication link or the second communication link which is recovered to be normal at first as a target communication link.

3. The method as claimed in claim 1 or 2, wherein the obtaining of the electricity consumption information of the multi-connected system air conditioning unit comprises:

acquiring air conditioning unit operation data and electric meter electric quantity data of a multi-split system, and obtaining the power consumption of the multi-split system according to the air conditioning unit operation data and the electric meter electric quantity data;

acquiring unit configuration information of a multi-split system, and determining the apportioned electric quantity of each internal unit of the multi-split system based on the unit configuration information and the electric consumption of the multi-split system in a preset charging period;

and calculating to obtain the electricity utilization information corresponding to the internal machines according to the shared electric quantity and the electricity charge parameters of the internal machines.

4. The method of claim 1 or 2, wherein the detecting the communication status of the first communication link and the second communication link comprises:

based on a heartbeat detection mechanism, acquiring heartbeat requests of the household charging terminals in two continuous preset detection periods;

when the heartbeat request of the household charging terminal is not received in two continuous preset detection periods, determining that the first communication link is abnormal in communication;

when the first communication link is determined to be abnormal in communication, based on a heartbeat detection mechanism, sending heartbeat requests to the server in two continuous preset detection periods;

and when the reply of the server is received in two continuous preset detection periods, determining that the second communication link is normal in communication.

5. The method of claim 4, wherein detecting the communication status of the first communication link and the second communication link further comprises:

and when the heartbeat request of the individual charging terminal is received and the server is determined to receive the heartbeat request of the individual charging terminal in two continuous preset detection periods, determining that the first communication link is normal in communication.

6. The method of claim 4, wherein detecting the communication status of the first communication link and the second communication link further comprises:

and when the individual charging terminal is determined to receive the reply based on the heartbeat request in two continuous preset detection periods, determining that the first communication link is normal in communication.

7. The method of claim 2, further comprising:

when the communication of the section A of the first communication link is abnormal and the communication of the section B of the first communication link is abnormal, monitoring the communication state of the first communication link in real time;

and when the recovery of the first communication link A section is detected, the electricity utilization information is sent to a household charging terminal based on the first communication link A section.

8. An individual household charging device of a multi-split system, the device comprising:

the power utilization information acquisition module is used for acquiring power utilization information of the multi-split air conditioning unit;

the communication state detection module is used for detecting the communication states of the first communication link and the second communication link; the first communication link is a communication link formed by the charging controller, the household charging terminal and the server; the second communication link is a communication link formed by the charging controller and the server; the first communication link comprises a first communication link A section consisting of a charging controller and an individual charging terminal, and a first communication link B section consisting of an individual charging terminal and a server;

the charging module is used for determining a target communication link according to the communication state and feeding back power utilization information of the internal machine to the server based on the target communication link so as to charge based on the power utilization information;

the charging module is further configured to: determining the first communication link or the second communication link with a normal communication state as a target communication link;

when the communication of the first communication link A section is normal and the communication of the first communication link B section is abnormal, the electricity utilization information is sent to the household charging terminal based on the first communication link A section; and when the communication of the section A of the first communication link is abnormal and the communication of the section B of the first communication link is normal, the electricity utilization information is sent to the household charging terminal through the server.

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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