CN116016165B - Configuration method, device, system and medium of time sequence power supply system - Google Patents

Abstract

The invention discloses a configuration method, a device, a system and a medium of a time sequence power supply system, wherein the method comprises the following steps: acquiring an identity key of a user; establishing a communication link with the time sequence power supply according to the identity key; obtaining model information of the time sequence power supply through a communication link; inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the historical configuration schemes to obtain a target configuration scheme; when the user does not select any historical configuration scheme, a target configuration scheme is obtained through a first configuration process; and sending the target configuration scheme to a time sequence power supply to finish configuration. The invention is mainly used in the technical field of time sequence power supplies.

Description

Configuration method, device, system and medium of time sequence power supply system

Technical Field

The present invention relates to the field of sequential power supply technologies, and in particular, to a method, an apparatus, a system, and a medium for configuring a sequential power supply system.

Background

The time sequence power supply can start the power supply one by one according to the sequence from the front-stage equipment to the rear-stage equipment, and when the power supply is closed, various electric equipment is closed in the sequence from the rear-stage to the front-stage, so that various electric equipment can be effectively and uniformly managed and configured, the artificial misoperation is avoided, meanwhile, the impact of the electric equipment on a power supply grid at the moment of switching can be reduced, the impact of induced current on the equipment is also avoided, and the stability of the whole power utilization system is ensured. Time-series power supplies are commonly used in electrical systems such as sound engineering and television broadcasting systems.

In the existing time sequence power supply system, the time sequence of the time sequence power supply is reconfigured every time equipment is accessed, so that the time sequence is very troublesome. Moreover, the configured scheme requires access to the device in accordance with a fixed interface. The whole flexibility is not high, and the method is not beneficial to the actual application scene.

Disclosure of Invention

The present invention provides a method, apparatus, system and medium for configuring a time-series power supply system, which solves one or more technical problems existing in the prior art, and at least provides a beneficial choice or creation condition.

The invention provides a configuration method of a time sequence power supply system, which comprises the following steps:

step 1, acquiring an identity key of a user;

step 2, establishing a communication link with a time sequence power supply according to the identity key;

step 3, obtaining model information of the time sequence power supply through the communication link;

step 4, inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the history configuration schemes, the history configuration scheme is recorded as a target configuration scheme; when the user does not select any history configuration scheme, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process;

step 5, the target configuration scheme is sent to a time sequence power supply to finish configuration;

wherein, the first configuration process comprises: determining a power supply loop which can be configured by the time sequence power supply according to model information of the time sequence power supply, displaying an interactive label corresponding to the power supply loop in a second interactive interface, acquiring interlocking operation of a user on the interactive label through the second interactive interface, integrating the interactive label which is established to be interlocked into one interactive label, and setting the power supply loop corresponding to the interactive label which is established to be interlocked; and acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops in interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

Further, in step 1, the obtaining the identity key of the user specifically includes: the method comprises the steps of obtaining marking information input by a user, sending the marking information to a registration server, and receiving an identity key fed back by the registration server, wherein the identity key is authenticated by the registration server through validity of the marking information, and when authentication is successful, the identity key is fed back.

Further, the format of the marking information is a digital number format.

Further, in step 2, the establishing a communication link with the time-series power supply according to the identity key specifically includes: scanning a two-dimensional code label on the time sequence power supply, analyzing the two-dimensional code label to obtain a wireless link address of the time sequence power supply, and establishing a communication link with the time sequence power supply through the wireless link address.

Further, the communication link is a bluetooth communication link.

In a second aspect, there is provided a configuration apparatus of a time-series power supply system, including: a processor and a memory; the memory is used for storing a computer readable program; the computer readable program, when executed by the processor, causes the processor to implement the method of configuring a time-sequential power supply system as set forth in any one of the above-described technical solutions.

In a third aspect, a configuration system of a time-series power supply system is provided, including: the system comprises a first acquisition module, a communication establishment module, a second acquisition module, a query module and a sending module;

the first acquisition module is used for: acquiring an identity key of a user;

the communication establishment module is used for: establishing a communication link with a time sequence power supply according to the identity key;

the second acquisition module is used for: the model information of the time sequence power supply is obtained through the communication link;

the query module is used for: inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the history configuration schemes, the history configuration scheme is recorded as a target configuration scheme; when the user does not select any history configuration scheme, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process;

the sending module is used for: the target configuration scheme is sent to a time sequence power supply to finish configuration;

wherein, the first configuration process comprises: determining a power supply loop which can be configured by the time sequence power supply according to model information of the time sequence power supply, displaying an interactive label corresponding to the power supply loop in a second interactive interface, acquiring interlocking operation of a user on the interactive label through the second interactive interface, integrating the interactive label which is established to be interlocked into one interactive label, and setting the power supply loop corresponding to the interactive label which is established to be interlocked; and acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops in interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

Further, in the first module, the obtaining the identity key of the user specifically includes: the method comprises the steps of obtaining marking information input by a user, sending the marking information to a registration server, and receiving an identity key fed back by the registration server, wherein the identity key is authenticated by the registration server through validity of the marking information, and when authentication is successful, the identity key is fed back.

Further, the format of the marking information is a digital number format.

In a fourth aspect, a computer readable storage medium is provided, in which a processor executable program is stored, the processor executable program being configured to implement the method for configuring a time-sequential power supply system according to any one of the above-mentioned technical solutions when executed by a processor.

The invention has at least the following beneficial effects: the invention displays the historical configuration scheme of the time sequence power supply of the model by obtaining the identity key of the user and the model information of the time sequence power supply, thereby being convenient for the user to search the setting of the time sequence power supply. The quick setting is convenient for the user. Of course, the timing power supply can be reconfigured to flexibly cope with the need of an unused scene. The invention solves the technical problems that the prior time sequence power supply is troublesome and inconvenient in the configuration process. The configuration efficiency is improved, and meanwhile, the flexibility of the whole configuration is improved. Meanwhile, the invention also discloses a corresponding device, a system and a medium. The advantages of the corresponding apparatus, system, and medium are the same as those of the method and will not be repeated here. The invention is mainly used in the technical field of time sequence power supplies.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate and do not limit the invention.

FIG. 1 is a flow chart of steps of a method of configuring a time-series power supply system;

FIG. 2 is a schematic diagram of a configuration device of the time-series power supply system;

fig. 3 is a schematic diagram of a connection structure of a configuration system of the time-series power supply system.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It should be noted that although functional block diagrams are depicted as block diagrams, and logical sequences are shown in the flowchart, in some cases, the steps shown or described may be performed in a different order than the block diagrams in the system. The terms first, second and the like in the description and in the claims and in the above-described figures, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Referring to fig. 1, fig. 1 is a flowchart illustrating steps of a configuration method of a time-series power supply system. The configuration method of the time sequence power supply system can be executed by intelligent equipment. The intelligent device can be a mobile phone, a personal computer, a tablet personal computer, a PDA or the like.

The intelligent device comprises the following components in the execution process: step 1, acquiring an identity key of a user.

The function of step 1 is to obtain the identity key of the user. In this particular embodiment, the identity key functions as a communication token to establish a communication link between the smart device and the time-series power supply. After a communication link is established with the timing power supply, the timing power supply can be communicated or controlled through the communication link.

The identity key may be obtained in a variety of ways, and a common way is by way of user self-input. Alternatively, the intelligent device accesses the server to obtain from the server. Of course, in order to prevent counterfeiting, in some further specific embodiments, in step 1, the obtaining the identity key of the user specifically includes: and acquiring the marking information input by the user. After obtaining the marking information input by the user, the intelligent device can send the marking information to the registration server. And then waits for authentication feedback of the registration server for the tag information. After receiving the marking information, the registration server authenticates the validity of the marking information. And when the marking information is considered to be effective information, the identification key is fed back. When the flag information is not considered to be valid information, no information is fed back. The format of the marking information can be flexible and changeable, and can be a format combining letters and numbers or a digital format.

In some further embodiments, the tag information is in a digital format, the tag information is obtained by a user through registration and distribution of a registration server in advance, and the registration server distributes the tag information in the digital format and establishes the validity time of the tag information when registering the user. And when the mark information is authenticated, comparing the current time with the established effective time, and when the current time is within the range of the effective time, considering the mark information as effective information, otherwise, not considering the mark information as effective information. The method of the registration server to authenticate the effective time of the mark information can limit the use time of the time-series power supply by the user. From another aspect, the leasing business mode of the time sequence power supply can be developed in such a way, so that the time sequence power supply can be applied more flexibly by a user.

And 2, establishing a communication link with the time sequence power supply according to the identity key.

After the intelligent device obtains the identity key, the intelligent device can establish a communication link with the time sequence power supply by taking the identity key as a token. The intelligent device can establish a communication link with the time sequence power supply through a communication address of the time sequence power supply known in advance. Of course, to facilitate rapid establishment of a communication link with the time-series power supply. In some further embodiments, the smart device scans a two-dimensional code tag disposed on the time-sequential power supply. The two-dimensional code label is printed with a two-dimensional code, and the two-dimensional code is recorded with a Bluetooth communication address of the time sequence power supply. After the two-dimension code label is scanned, the intelligent device can obtain a Bluetooth communication address for communicating with the time sequence power supply by analyzing the two-dimension code on the two-dimension code label. And establishing a communication link with a time sequence power supply according to the Bluetooth communication address. After the communication link is established, the intelligent device can communicate with the time sequence power supply.

And step 3, obtaining the model information of the time sequence power supply through the communication link.

After the intelligent device establishes a communication link with the time sequence power supply, the intelligent device can request the time sequence power supply to feed back the model information of the intelligent device through the communication with the time sequence power supply.

After the identity key and model information are obtained, step 4 may be entered.

Step 4, inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the history configuration schemes, the history configuration scheme is recorded as a target configuration scheme; and when the user does not select any historical configuration scheme, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process.

The interactive interface refers to a channel for information exchange between a person and a computer, a user inputs information to the computer through the interactive interface and operates the computer, and the computer provides information for the user through the interactive interface for reading, analysis and judgment.

The function of step 4 is to judge whether the user needs to be configured for the first time or to determine whether the user has been configured or not according to the identity key and the model information.

The intelligent device can determine whether a history configuration scheme exists in the history database by inquiring the history database and utilizing the identity key and the model information. If no historical configuration scheme exists, the user can be considered to configure the time-series power supply for the first time. Thus, the first configuration procedure is entered. If a history configuration scheme is found to exist in the history database, the user may be considered to be a non-first configuration. At this time, the user can quickly find out the configuration of the time-series power supply at the latest time for convenience. Therefore, the intelligent device can display all the history configuration schemes in the first interactive interface in time sequence. The user can conveniently refer to the historical configuration scheme. When one of the history configuration schemes is selected by the user, the history configuration scheme is recorded as a target configuration scheme. Of course, the user may also choose to reconfigure. That is, at this time, the user does not select any one of the history arrangement schemes. In order to let the smart device know that the user has not selected any of the historical configuration schemes, a reconfiguration button is present in the first interactive interface, which the user informs the smart device that it needs to be reconfigured by triggering. At this time, the smart device enters a first configuration process to facilitate the user to reconfigure the time-sequential power supply. Through the first configuration process, the target configuration scheme can be obtained. When the target configuration scheme is obtained, step 5 may be entered.

And step 5, sending the target configuration scheme to a time sequence power supply to finish configuration.

Wherein, the first configuration process comprises: and determining a power supply loop which can be configured by the time sequence power supply according to the model information of the time sequence power supply, and displaying an interactive label corresponding to the power supply loop in a second interactive interface. The power supply loop refers to an interface through which the time-series power supply can supply power to the external device. The time sequence power supply is provided with a plurality of power supply interfaces, and the external equipment is sequentially started by editing the starting sequence of the power supply interfaces. In order to facilitate the free setting of the opening sequence by the user, the interactive labels of the power supply loop are displayed on the second interactive interface. Of course, the time-series power supply also has an interlock linkage, which refers to two or more power supply loops set to an interlocked state, which are located in the same order in the turn-on sequence. Therefore, the interlocking operation of the user on the interactive labels is obtained through the second interactive interface, the interactive labels which are interlocked are integrated into one interactive label, and meanwhile, the power supply loop corresponding to the interactive labels which are interlocked is set to be interlocked. After the interlocking linkage is set, acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops of the interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

The invention displays the historical configuration scheme of the time sequence power supply of the model by obtaining the identity key of the user and the model information of the time sequence power supply, thereby being convenient for the user to search the setting of the time sequence power supply. The quick setting is convenient for the user. Of course, the timing power supply can be reconfigured to flexibly cope with the need of an unused scene. The invention solves the technical problems that the prior time sequence power supply is troublesome and inconvenient in the configuration process. The configuration efficiency is improved, and meanwhile, the flexibility of the whole configuration is improved.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a configuration device of the time-series power supply system.

In a second aspect, there is provided a configuration apparatus of a time-series power supply system, including: a processor and a memory; wherein the memory is for storing a computer readable program. The computer readable program, when executed by the processor, causes the processor to implement a method of configuring a time-sequential power supply system as described in any of the above embodiments.

Those of ordinary skill in the art will appreciate that all or some of the steps, systems, and methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as known to those skilled in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer. Communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as is known to one of ordinary skill in the art.

Referring to fig. 3, fig. 3 is a schematic diagram of a connection structure of a configuration system of the time-series power supply system. There is provided a configuration system of a time-series power supply system, including: the system comprises a first acquisition module, a communication establishment module, a second acquisition module, a query module and a sending module.

The first acquisition module is used for acquiring an identity key of a user.

In this embodiment, the identity key is used as a communication token to establish a communication link between the first acquisition module and the time-series power supply. After a communication link is established with the timing power supply, the timing power supply can be communicated or controlled through the communication link.

The identity key may be obtained in a variety of ways, and a common way is by way of user self-input. Alternatively, the first obtaining module obtains from the server by accessing the server. Of course, in order to prevent counterfeiting, in some further specific embodiments, in step 1, the obtaining the identity key of the user specifically includes: and acquiring the marking information input by the user. After the first obtaining module obtains the marking information input by the user, the marking information can be sent to the registration server. And then waits for authentication feedback of the registration server for the tag information. After receiving the marking information, the registration server authenticates the validity of the marking information. And when the marking information is considered to be effective information, the identification key is fed back. When the flag information is not considered to be valid information, no information is fed back. The format of the marking information can be flexible and changeable, and can be a format combining letters and numbers or a digital format.

In some further embodiments, the tag information is in a digital format, the tag information is obtained by a user through registration and distribution of a registration server in advance, and the registration server distributes the tag information in the digital format and establishes the validity time of the tag information when registering the user. And when the mark information is authenticated, comparing the current time with the established effective time, and when the current time is within the range of the effective time, considering the mark information as effective information, otherwise, not considering the mark information as effective information. The method of the registration server to authenticate the effective time of the mark information can limit the use time of the time-series power supply by the user. From another aspect, the leasing business mode of the time sequence power supply can be developed in such a way, so that the time sequence power supply can be applied more flexibly by a user.

The communication establishing module is used for establishing a communication link with the time sequence power supply according to the identity key.

After the identity key is obtained, a communication link can be established with the time-series power supply by taking the identity key as a token. The communication establishing module can establish a communication link with the time sequence power supply through a communication address of the time sequence power supply known in advance. Of course, to facilitate rapid establishment of a communication link with the time-series power supply. In some further embodiments, the communication establishment module scans two-dimensional code tags disposed on the time-series power supply. The two-dimensional code label is printed with a two-dimensional code, and the two-dimensional code is recorded with a Bluetooth communication address of the time sequence power supply. After the communication establishment module scans the two-dimensional code label, the communication establishment module can obtain a Bluetooth communication address for communicating with the time sequence power supply by analyzing the two-dimensional code on the two-dimensional code label. And establishing a communication link with a time sequence power supply according to the Bluetooth communication address. After the communication link is established, the communication establishment module can communicate with the time sequence power supply.

The second acquisition module is used for acquiring the model information of the time sequence power supply through the communication link.

After the second acquisition module establishes a communication link with the time sequence power supply, the second acquisition module can request the time sequence power supply to feed back the model information of the time sequence power supply through communication with the time sequence power supply.

The query module can determine whether a history configuration scheme exists in the history database by querying the history database and utilizing the identity key and the model information. If no historical configuration scheme exists, the user can be considered to configure the time-series power supply for the first time. Thus, the first configuration procedure is entered. If a history configuration scheme is found to exist in the history database, the user may be considered to be a non-first configuration. At this time, the user can quickly find out the configuration of the time-series power supply at the latest time for convenience. Therefore, the query module can display all the history configuration schemes in the first interactive interface in time sequence. The user can conveniently refer to the historical configuration scheme. When one of the history configuration schemes is selected by the user, the history configuration scheme is recorded as a target configuration scheme. Of course, the user may also choose to reconfigure. That is, at this time, the user does not select any one of the history arrangement schemes. In order to let the query module know that the user has not selected any of the historical configuration schemes, a reconfiguration button is present in the first interactive interface, which the user informs the smart device that it needs to reconfigure by triggering. At this time, the smart device enters a first configuration process to facilitate the user to reconfigure the time-sequential power supply. Through the first configuration process, the target configuration scheme can be obtained.

The sending module is used for: and sending the target configuration scheme to a time sequence power supply to finish configuration.

Wherein, the first configuration process comprises: and determining a power supply loop which can be configured by the time sequence power supply according to the model information of the time sequence power supply, and displaying an interactive label corresponding to the power supply loop in a second interactive interface. The power supply loop refers to an interface through which the time-series power supply can supply power to the external device. The time sequence power supply is provided with a plurality of power supply interfaces, and the external equipment is sequentially started by editing the starting sequence of the power supply interfaces. In order to facilitate the free setting of the opening sequence by the user, the interactive labels of the power supply loop are displayed on the second interactive interface. Of course, the time-series power supply also has an interlock linkage, which refers to two or more power supply loops set to an interlocked state, which are located in the same order in the turn-on sequence. Therefore, the interlocking operation of the user on the interactive labels is obtained through the second interactive interface, the interactive labels which are interlocked are integrated into one interactive label, and meanwhile, the power supply loop corresponding to the interactive labels which are interlocked is set to be interlocked. After the interlocking linkage is set, acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops of the interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

In a fourth aspect, a computer readable storage medium is provided, in which a processor executable program is stored, the processor executable program being configured to implement a method for configuring a time-sequential power supply system as in any one of the above embodiments when executed by a processor.

The embodiments also disclose a computer program product comprising a computer program or computer instructions stored in a computer readable storage medium, the computer program or computer instructions being read from the computer readable storage medium by a processor of a computer device, the processor executing the computer program or computer instructions to cause the computer device to perform the method of configuring a time-sequential power supply system as described in any of the previous embodiments.

The terms "first," "second," "third," "fourth," and the like in the description of the present application and in the above-described figures, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of operation in sequences other than those illustrated or described herein, for example. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in this application, "at least one" means one or more, and "a plurality" means two or more. "and/or" for describing the association relationship of the association object, the representation may have three relationships, for example, "a and/or B" may represent: only a, only B and both a and B are present, wherein a, B may be singular or plural. The character "/" generally indicates that the context-dependent object is an "or" relationship. "at least one of" or the like means any combination of these items, including any combination of single item(s) or plural items(s). For example, at least one (one) of a, b or c may represent: a, b, c, "a and b", "a and c", "b and c", or "a and b and c", wherein a, b, c may be single or plural.

In the several embodiments provided in the present application, it should be understood that the disclosed systems, apparatuses, and methods may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices, or units, which may be in electrical, mechanical, or other forms.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions to cause a computer device (which may be a personal computer, a server, a network device, or the like) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Although the description of the present application has been described in considerable detail and with particularity with respect to several illustrated embodiments, it is not intended to be limited to any such detail or embodiments or any particular embodiment, but is to be construed as providing broad interpretation of such claims by reference to the appended claims, taking into account the prior art to which such claims are entitled to effectively encompass the intended scope of this application. Furthermore, the foregoing description of the embodiments contemplated by the inventors has been presented for the purpose of providing a useful description, and yet insubstantial changes to the invention that are not presently contemplated may represent equivalents of the invention.

Claims (10)

1. A method for configuring a time-series power supply system, comprising:

step 1, acquiring an identity key of a user;

step 2, establishing a communication link with a time sequence power supply according to the identity key;

step 3, obtaining model information of the time sequence power supply through the communication link;

step 4, inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the history configuration schemes, the history configuration scheme is recorded as a target configuration scheme; when the user does not select any history configuration scheme, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process;

step 5, the target configuration scheme is sent to a time sequence power supply to finish configuration;

wherein, the first configuration process comprises: determining a power supply loop which can be configured by the time sequence power supply according to model information of the time sequence power supply, displaying an interactive label corresponding to the power supply loop in a second interactive interface, acquiring interlocking operation of a user on the interactive label through the second interactive interface, integrating the interactive label which is established to be interlocked into one interactive label, and setting the power supply loop corresponding to the interactive label which is established to be interlocked; and acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops in interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

2. The method for configuring a time-series power supply system according to claim 1, wherein in step 1, the obtaining the identity key of the user specifically includes: the method comprises the steps of obtaining marking information input by a user, sending the marking information to a registration server, and receiving an identity key fed back by the registration server, wherein the identity key is authenticated by the registration server through validity of the marking information, and when authentication is successful, the identity key is fed back.

3. The method of claim 2, wherein the tag information is in a digital number format.

4. The method according to claim 1, wherein in step 2, the establishing a communication link with the time-series power supply according to the identity key specifically includes: scanning a two-dimensional code label on the time sequence power supply, analyzing the two-dimensional code label to obtain a wireless link address of the time sequence power supply, and establishing a communication link with the time sequence power supply through the wireless link address.

5. A method of configuring a time-series power supply system as claimed in claim 3, wherein the communication link is a bluetooth communication link.

6. A configuration apparatus of a time-series power supply system, comprising: a processor;

a memory for storing a computer readable program;

the computer readable program, when executed by the processor, causes the processor to implement the method of configuring a time-sequential power supply system as claimed in any one of claims 1 to 5.

7. A configuration system of a time-series power supply system, comprising: the system comprises a first acquisition module, a communication establishment module, a second acquisition module, a query module and a sending module;

the first acquisition module is used for: acquiring an identity key of a user;

the communication establishment module is used for: establishing a communication link with a time sequence power supply according to the identity key;

the second acquisition module is used for: the model information of the time sequence power supply is obtained through the communication link;

the query module is used for: inquiring whether the user configures the time sequence power supply of the model for the first time from a historical database according to the identity key of the user and the model information of the time sequence power supply, if so, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process; if the historical configuration scheme is not the first time, displaying the historical configuration scheme in a first interactive interface in time sequence for the user to select; when a user selects one of the history configuration schemes, the history configuration scheme is recorded as a target configuration scheme; when the user does not select any history configuration scheme, entering a first configuration process, and obtaining a target configuration scheme through the first configuration process;

the sending module is used for: the target configuration scheme is sent to a time sequence power supply to finish configuration;

wherein, the first configuration process comprises: determining a power supply loop which can be configured by the time sequence power supply according to model information of the time sequence power supply, displaying an interactive label corresponding to the power supply loop in a second interactive interface, acquiring interlocking operation of a user on the interactive label through the second interactive interface, integrating the interactive label which is established to be interlocked into one interactive label, and setting the power supply loop corresponding to the interactive label which is established to be interlocked; and acquiring a selection sequence of the interactive labels by a user through a second interactive interface, setting a corresponding opening sequence of the power supply loop according to the selection sequence, and marking the opening sequence as a target opening sequence, wherein in the target opening sequence, the power supply loops in interlocking linkage have the same order, and the target opening sequence is used as a target configuration scheme.

8. The system for configuring a time-series power supply system according to claim 7, wherein in the first module, the obtaining the identity key of the user specifically includes: the method comprises the steps of obtaining marking information input by a user, sending the marking information to a registration server, and receiving an identity key fed back by the registration server, wherein the identity key is authenticated by the registration server through validity of the marking information, and when authentication is successful, the identity key is fed back.

9. The system according to claim 8, wherein the tag information is in a digital number format.

10. A computer-readable storage medium, in which a processor-executable program is stored, which when executed by a processor is configured to implement the method of configuring a time-series power supply system as claimed in any one of claims 1 to 5.