CN115640285B - Method, device, electronic equipment and medium for transmitting power abnormality information - Google Patents

Abstract

Embodiments of the present disclosure disclose power abnormality information transmission methods, devices, electronic equipment, and media. A specific implementation of the method includes: obtaining each electric power service initial information corresponding to each electric power service from the electric power service data platform to obtain an electric power service initial information group set; for each electric power service initial information in the electric power service initial information group set group, perform the following generation steps: perform data conversion processing on the power business cleaning information to generate power business information; determine each generated power business information as a power business information set; for each power business information in the power business information set, The following processing steps are performed: based on the power business information, generate a power abnormality information group; send the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox. This implementation can improve the timeliness of power inspection information.

Description

Method, device, electronic equipment and medium for transmitting power abnormality information

Technical field

Embodiments of the present disclosure relate to the field of computer technology, and specifically to methods, devices, electronic devices and media for transmitting power abnormality information.

Background technique

Power inspection information is information that verifies the acquisition and use of power resources (for example, transformers, generators, transformers). In order to timely send the power inspection information of the power resource acquisition service (for example, the power resource acquisition time, the power resource acquisition service completion time, the power resource usage time) to the power terminal (which may be a terminal used to transport power resources), so that the power terminal can be timely The currently commonly used method to verify power inspection information is to collect the power inspection information through offline statistics, and then have technicians send the power inspection information to the power terminal via email.

However, there are usually the following technical problems with the above approach:

First, technicians send the power inspection information to the power terminal through the mailbox, and cannot send the power inspection information in time, which reduces the timeliness of the power inspection information;

Second, the power inspection information is collected through offline statistics. The accuracy of the collected power inspection information is low, which leads to repeated collection of power inspection information and wastes the statistical time of technicians;

Third, the technician sends the power inspection information to the power terminal through the mailbox, and needs to manually send each power inspection information to the corresponding power terminal through the mailbox, which wastes the technician's sending time.

The above information disclosed in this Background section is only for enhancement of understanding of the background of the inventive concept and therefore it may contain information that does not form the prior art that is already known in this country to a person of ordinary skill in the art.

Contents of the invention

This Summary is provided to introduce in simplified form concepts that are later described in detail in the Detailed Description. The content of this disclosure is not intended to identify key features or essential features of the claimed technical solutions, nor is it intended to be used to limit the scope of the claimed technical solutions.

Some embodiments of the present disclosure propose power abnormality information sending methods, devices, electronic equipment, computer-readable media, and program products to solve one or more of the technical problems mentioned in the background art section above.

In the first aspect, some embodiments of the present disclosure provide a method for sending power abnormality information. The method includes: obtaining each power service initial information corresponding to each power service from the power service data platform, and obtaining the power service initial information group set. ; For each electric power business initial information group in the above-mentioned electric power business initial information group set, perform the following generation steps: merge each electric power business initial information in the above-mentioned electric power business initial information group to generate electric power business merger information; for the above-mentioned electric power business initial information group, Perform data cleaning processing on the electric power business merging information to generate electric power business cleaning information; perform data conversion processing on the above electric power business cleaning information to generate electric power business information; determine each generated electric power business information as an electric power business information set; for the above For each power business information in the power business information set, the following processing steps are performed: based on the above-mentioned power business information, generate a power abnormality information group; send the power inspection information corresponding to the above-mentioned power abnormality information group to the above-mentioned power abnormality information group through an intranet mailbox Corresponding power terminal.

In the second aspect, some embodiments of the present disclosure provide a device for sending power abnormality information. The device includes: an acquisition unit configured to acquire initial information about each power service corresponding to each power service from the power service data platform to obtain the power A business initial information group set; a generating unit configured to perform the following generation steps for each electric power service initial information group in the above-mentioned electric power service initial information group set: merge each electric power service initial information in the above-mentioned electric power service initial information group Processing to generate electric power business merger information; performing data cleaning processing on the above electric power business merger information to generate electric power business cleaning information; performing data conversion processing on the above electric power business cleaning information to generate electric power business information; the determination unit is configured as Each generated power business information is determined as a power business information set, wherein the power business information in the above-mentioned power business information set includes: a power service type; and a sending unit configured to provide each power service information in the above-mentioned power business information set. , perform the following processing steps: based on the above-mentioned power business information, generate a power abnormality information group; send the power inspection information corresponding to the above-mentioned power abnormality information group to the power terminal corresponding to the above-mentioned power abnormality information group through an intranet mailbox.

In a third aspect, some embodiments of the present disclosure provide an electronic device, including: one or more processors; a storage device on which one or more programs are stored. When one or more programs are processed by one or more The processor executes, causing one or more processors to implement the method described in any implementation manner of the first aspect.

In a fourth aspect, some embodiments of the present disclosure provide a computer-readable medium on which a computer program is stored, wherein when the program is executed by a processor, the method described in any implementation manner of the first aspect is implemented.

In a fifth aspect, some embodiments of the present disclosure provide a computer program product, including a computer program. When executed by a processor, the computer program implements the method described in any implementation manner of the first aspect.

The above-mentioned embodiments of the present disclosure have the following beneficial effects: through the power abnormality information sending methods of some embodiments of the present disclosure, the timeliness of the power inspection information can be improved. Specifically, the reason why the timeliness of the power inspection information is reduced is that technicians send the power inspection information to the power terminal through the mailbox and cannot send the power inspection information in time, which reduces the timeliness of the power inspection information. Based on this, the power abnormality information sending method of some embodiments of the present disclosure first obtains each power service initial information corresponding to each power service from the power service data platform to obtain the power service initial information group set. Secondly, for each electric power business initial information group in the above-mentioned electric power business initial information group set, perform the following generation steps: merge each electric power business initial information in the above-mentioned electric power business initial information group to generate electric power business merger information; The above-mentioned electric power business merging information is subjected to data cleaning processing to generate electric power business cleaning information; the above-mentioned electric power business cleaning information is subjected to data conversion processing to generate electric power business information. In this way, the power service information corresponding to each power service can be obtained, so that the power abnormality information group can be subsequently obtained. Then, each of the generated power business information is determined as a power business information set. Finally, for each power business information in the above-mentioned power business information set, the following processing steps are performed: First, based on the above-mentioned power business information, a power abnormality information group is generated. Thus, the power abnormality information group can be obtained, so that the power verification information can be subsequently obtained. Second, the power inspection information corresponding to the above-mentioned power abnormality information group is sent to the power terminal corresponding to the above-mentioned power abnormality information group through an intranet mailbox. As a result, the power inspection information corresponding to the power abnormality information group can be automatically sent without delay, and the security of the power inspection information during transmission can be ensured through the intranet mailbox. Thus, power inspection information can be sent promptly. Furthermore, the timeliness of the power inspection information can be improved.

Description of the drawings

The above and other features, advantages, and aspects of various embodiments of the present disclosure will become more apparent with reference to the following detailed description taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It is to be understood that the drawings are schematic and that elements and elements are not necessarily drawn to scale.

Figure 1 is a flow chart of some embodiments of a power abnormality information sending method according to the present disclosure;

Figure 2 is a schematic structural diagram of some embodiments of a power abnormality information sending device according to the present disclosure;

3 is a schematic structural diagram of an electronic device suitable for implementing some embodiments of the present disclosure.

Detailed ways

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. Although certain embodiments of the disclosure are shown in the drawings, it should be understood that the disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustrative purposes only and are not intended to limit the scope of the present disclosure.

It should also be noted that, for convenience of description, only the parts related to the invention are shown in the drawings. The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

It should be noted that concepts such as “first” and “second” mentioned in this disclosure are only used to distinguish different devices, modules or units, and are not used to limit the order of functions performed by these devices, modules or units. Or interdependence.

It should be noted that the modifications of "one" and "plurality" mentioned in this disclosure are illustrative and not restrictive. Those skilled in the art will understand that unless the context clearly indicates otherwise, it should be understood as "one or Multiple”.

The names of messages or information exchanged between multiple devices in the embodiments of the present disclosure are for illustrative purposes only and are not used to limit the scope of these messages or information.

The present disclosure will be described in detail below in conjunction with embodiments with reference to the accompanying drawings.

Referring to FIG. 1 , a process 100 of some embodiments of a power abnormality information sending method according to the present disclosure is shown. The power abnormality information sending method includes the following steps:

Step 101: Obtain the initial information of each electric power service corresponding to each electric power service from the electric power service data platform, and obtain the initial information group set of the electric power service.

In some embodiments, the execution subject (such as a computing device) of the power abnormality information sending method can obtain the initial information of each power service corresponding to each power service from the power service data platform through a wired connection or a wireless connection, and obtain the power service Initial set of information groups. Among them, the above-mentioned power business data platform may include but is not limited to a power business basic information database and a power resources database. The above-mentioned power business may be, but is not limited to, the business of obtaining power resources and the business of transporting power resources. The power service initial information in the above-mentioned power service initial information group may be, but is not limited to, a power service identifier, a power service name, a power service field information group, a power service type, and a power terminal identifier. Here, the above-mentioned electric power service identifier can uniquely represent an electric power service. The above power terminal identifier can uniquely represent a power terminal. The power terminal may be a terminal used for transporting electrical equipment. One power terminal identification corresponds to at least one power service identification. The power service field information in the above power service field information group may include a power resource acquisition time field, a power service completion time field, a power service usage time field and a power resource identification. Here, the power resource identifier can uniquely represent a power resource. Power resources may include, but are not limited to, transformers, generators, and mutual inductors. For example, the power resource acquisition time field can be 2022-01-01 09:30:00. The power resource acquisition time field can also be 2022-09-20 16:00:00. The power service completion time field can be 2022-2-10 10:29:00. The power service completion time field can also be 2022-09-19 10:35:00. The power service usage time field can be 2022-03-01 15:00:00. The power service usage time field can also be 2022-09-29 10:00:00. The power service field information in the above power service field information group may also include a power resource identifier, a power resource attribute value, and a power resource type. Here, the power resource identifier can uniquely represent a power resource. The power resource attribute value may be the value attribute value (amount) of the power resource. Power resource types may include: power equipment types. For example, the power equipment type may be, but is not limited to, a type representing a generator or a type representing a transformer. The above-mentioned power business types may be, but are not limited to, power acquisition resource types and power flow attribute types. For example, the power acquisition resource type may be, but is not limited to, a type representing an insulated wire or a type representing a transformer. The power flow attribute type may be a power business (cost item) type in which the attribute corresponding to the power business is a flow value attribute. The attributes corresponding to the power business can include current value attributes (current assets) and fixed value attributes (fixed assets).

Step 102: For each electric power service initial information group in the above electric power service initial information group set, perform the following generation steps:

Step 1021: Merge each power service initial information in the above-mentioned power service initial information group to generate power service merger information.

In some embodiments, the above-mentioned execution subject may merge each electric power service initial information in the above-mentioned electric power service initial information group to generate electric power service merger information.

In practice, the above-mentioned execution subject may merge the above-mentioned respective associated electric power service initial information according to the relationship between the respective electric power service initial information in the above-mentioned electric power service initial information group to generate electric power business merger information.

Step 1022: Perform data cleaning processing on the above-mentioned power business merger information to generate power business cleaning information.

In some embodiments, the above-mentioned execution subject may perform data cleaning processing on the above-mentioned power business merger information to generate power business cleaning information.

In practice, first, the above-mentioned execution subject may eliminate redundant information from the above-mentioned power business merger information to generate power business redundancy elimination information. Then, the above-mentioned execution subject may remove duplicate information from the above-mentioned electric power service deduplication information to generate electric power service deduplication information. Finally, the above-mentioned execution subject can resolve the inconsistent information in the above-mentioned electric power service deduplication information to generate electric power service cleaning information.

Step 1023: Perform data conversion processing on the above-mentioned power service cleaning information to generate power service information.

In some embodiments, the execution subject may perform data conversion processing on the power service cleaning information to generate power service information.

In practice, the execution subject may mark each field in the power service cleaning information with a color or a preset symbol to generate the power service information.

Step 103: Determine each generated power service information as a power service information set.

In some embodiments, the above execution subject may determine each generated power service information as a power service information set.

Step 104: For each power business information in the above-mentioned power business information set, perform the following processing steps:

Step 1041: Generate a power abnormality information group based on the above power business information.

In some embodiments, based on the above power business information, the above execution subject may generate a power abnormality information group. Wherein, the electric power service information in the above electric power service information set includes: electric power service type, electric power service identifier, electric power service name and first electric power service field information group. The above-mentioned power business types include: power acquisition resource types. The first power service field information in the above-mentioned first power service field information group includes: a power resource acquisition time field, a power service completion time field, a power service usage time field and a power resource identification.

In practice, based on the above power business information, the above execution subject can generate the power abnormality information group through the following steps:

In the first step, in response to determining that the power service type included in the above-mentioned power service information represents the type of power acquisition resource, for each first power service field information in the first power service field information group included in the above-mentioned power service information, perform the following combination step:

The first sub-step is in response to determining that the power service usage time field included in the above-mentioned first power service field information is empty, and the power resource acquisition time represented by the power resource acquisition time field included in the above-mentioned first power service field information is later than the above-mentioned The power service completion time represented by the power service completion time field included in the first power service field information is combined into the power abnormality information by combining the power service identifier, the power service name and the power resource identifier corresponding to the first power service field information.

The second sub-step is in response to determining that the power service usage time field included in the first power service field information is not empty, and the power resource acquisition time represented by the power resource acquisition time field included in the first power service field information is later than the above-mentioned The power service usage time represented by the power service usage time field included in the first power service field information is combined into the power abnormality information by combining the power service identifier, the power service name and the power resource identifier corresponding to the first power service field information.

In the second step, the combined power abnormality information is determined as a power abnormality information group.

In other embodiments, based on the above-mentioned power business information, the above-mentioned execution subject may generate a power abnormality information group. Wherein, the electric power service information in the above electric power service information set includes: electric power service type, electric power service identifier, electric power service name and second electric power service field information group. The above-mentioned power business types include: power flow attribute type. The second power service field information in the above-mentioned second power service field information group includes: power resource identification, power resource attribute value and power resource type. The above-mentioned power resource types include: power equipment types.

In practice, based on the above power business information, the above execution subject can generate the power abnormality information group through the following steps:

In the first step, in response to determining that the power service type included in the above power service information represents the power flow attribute type, for each second power service field information in the second power service field information group included in the above power service information, in response to determining The power resource type included in the second power service field information represents the type of power equipment, and the power service identifier, power service name, power resource identifier and power resource attribute value corresponding to the above second power service field information are combined into power abnormality information.

In the second step, the combined power abnormality information is determined as a power abnormality information group.

The relevant content in practice serves as an inventive point of the present disclosure, thus solving the second technical problem mentioned in the background art: "Collecting power inspection information through offline statistics, the accuracy of the collected power inspection information is low, resulting in duplication. Collecting power inspection information wastes technicians’ statistical time.” Factors that waste technicians' statistical time are often as follows: power inspection information is collected through offline statistics, and the accuracy of the collected power inspection information is low, resulting in repeated collection of power inspection information, which wastes technicians' statistical time. If the above factors are solved, the effect can be achieved to avoid wasting technical staff's statistical time. In order to achieve this effect, first, in response to determining that the power service type included in the above power service information represents the power flow attribute type, for each second power service field information in the second power service field information group included in the above power service information , in response to determining that the power resource type included in the above-mentioned second power service field information represents the type of electric power equipment, combining the power service identifier, the power service name, the power resource identifier and the power resource attribute value corresponding to the above-mentioned second power service field information into a power Exception information. As a result, more accurate power abnormality information can be obtained online. Then, the combined respective pieces of power abnormality information are determined as a power abnormality information group. Thus, a more accurate power abnormality information group can be obtained, so as to obtain more accurate power inspection information. Thus, repeated collection of power inspection information can be avoided. Furthermore, it is possible to avoid wasting technical staff's statistical time.

Optionally, before step 1042, the above method also includes:

The first step is to obtain the technical terminal identification and technician name.

In some embodiments, the above-mentioned execution subject can obtain the technical terminal identification and technician name from the terminal device through a wired connection or an wireless connection. Among them, the above technical terminal identifier can uniquely represent a technical terminal. Here, the technical terminal may be a terminal that sends power verification information.

In the second step, the above technical terminal identification, the above technical personnel name and the current time are combined into watermark information.

In some embodiments, the execution subject may combine the technical terminal identification, the technical personnel name and the current time into watermark information.

Step 1042: Send the power verification information corresponding to the above-mentioned power abnormality information group to the power terminal corresponding to the above-mentioned power abnormality information group through an intranet mailbox.

In some embodiments, the execution subject may send the power verification information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox.

In practice, the above-mentioned execution subject can send the power inspection information corresponding to the above-mentioned power abnormality information group to the power terminal corresponding to the above-mentioned power abnormality information group through the intranet mailbox through the following steps:

The first step is to combine the power inspection information group corresponding to the power abnormality information group, the power abnormality information group and the watermark information in the above-mentioned electric power business data platform to generate a combined power inspection information group as the first power Check information.

In the second step, in response to determining that the number of power abnormality information in the above-mentioned power abnormality information group is greater than or equal to 1, the above-mentioned first power verification information is sent to the power terminal corresponding to the above-mentioned power abnormality information group through an intranet mailbox. In practice, in response to determining that the number of power abnormality information in the above-mentioned power abnormality information group is greater than or equal to 1, the above-mentioned execution subject may send the above-mentioned first power verification information to the above-mentioned power abnormality information group through an intranet mailbox at preset intervals. Corresponding power terminal. For example, the preset time period may be, but is not limited to, five minutes, ten minutes, or twenty minutes.

The relevant content in practice serves as an inventive point of the present disclosure, thereby solving the technical problem three mentioned in the background art: "technicians send power inspection information to power terminals through mailboxes, and need to manually send each power inspection information through the mailbox. Send it to the corresponding power terminal, which wastes the technician's sending time." Factors that waste technicians' sending time are often as follows: technicians send power inspection information to power terminals through mailboxes, and each power inspection information needs to be manually sent to the corresponding power terminal through mailboxes, which wastes technicians' sending time. . If the above factors are solved, the effect of avoiding wasting technicians' sending time can be achieved. In order to achieve this effect, first, the power inspection information group corresponding to the above-mentioned power abnormality information group, the above-mentioned power abnormality information group and the above-mentioned watermark information in the above-mentioned electric power business data platform are combined to generate a combined power inspection information group. As the first power inspection information. Therefore, the power abnormality information group can be mounted to the corresponding power service to obtain the power inspection information, so that the power inspection information can be searched in time. Then, in response to determining that the number of power abnormality information in the power abnormality information group is greater than or equal to 1, the first power verification information is sent to the power terminal corresponding to the power abnormality information group through an intranet mailbox. As a result, the first power inspection information can be automatically sent to the power terminal through the intranet mailbox, eliminating the need for technicians to manually send the power inspection information. Thus, wasting technician dispatch time can be avoided.

In other embodiments, the execution subject may send the power verification information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox.

In practice, the above-mentioned execution subject can send the power inspection information corresponding to the above-mentioned power abnormality information group to the power terminal corresponding to the above-mentioned power abnormality information group through the intranet mailbox through the following steps:

The first step is to export the power inspection information file. Wherein, the above-mentioned power inspection information file includes: the above-mentioned watermark information and the above-mentioned power abnormality information group. For example, the above-mentioned power inspection information file may be a table file.

In the second step, the above-mentioned power inspection information file is determined as the second power inspection information.

In the third step, in response to determining that the number of power abnormal information in the power abnormal information group is greater than or equal to 1, send the second power verification information to the power terminal corresponding to the power abnormal information group through an intranet mailbox. In practice, in response to determining that the number of power abnormality information in the above-mentioned power abnormality information group is greater than or equal to 1, the above-mentioned execution subject may send the above-mentioned second power verification information to the above-mentioned power abnormality information group through an intranet mailbox at preset intervals. Corresponding power terminal. For example, the preset time period may be, but is not limited to, five minutes, ten minutes, or twenty minutes.

Optionally, receive the verified power verification information sent by the above-mentioned power terminal.

In some embodiments, the execution subject may receive the verified power inspection information sent by the power terminal through a wired connection or a wireless connection.

The above-mentioned embodiments of the present disclosure have the following beneficial effects: through the power abnormality information sending methods of some embodiments of the present disclosure, the timeliness of the power inspection information can be improved. Specifically, the reason why the timeliness of the power inspection information is reduced is that technicians send the power inspection information to the power terminal through the mailbox and cannot send the power inspection information in time, which reduces the timeliness of the power inspection information. Based on this, the power abnormality information sending method of some embodiments of the present disclosure first obtains each power service initial information corresponding to each power service from the power service data platform to obtain the power service initial information group set. Secondly, for each electric power business initial information group in the above-mentioned electric power business initial information group set, perform the following generation steps: merge each electric power business initial information in the above-mentioned electric power business initial information group to generate electric power business merger information; The above-mentioned electric power business merging information is subjected to data cleaning processing to generate electric power business cleaning information; the above-mentioned electric power business cleaning information is subjected to data conversion processing to generate electric power business information. In this way, the power service information corresponding to each power service can be obtained, so that the power abnormality information group can be subsequently obtained. Then, each of the generated power business information is determined as a power business information set. Finally, for each power business information in the above-mentioned power business information set, the following processing steps are performed: First, based on the above-mentioned power business information, a power abnormality information group is generated. Thus, the power abnormality information group can be obtained, so that the power verification information can be subsequently obtained. Second, the power inspection information corresponding to the above-mentioned power abnormality information group is sent to the power terminal corresponding to the above-mentioned power abnormality information group through an intranet mailbox. As a result, the power inspection information corresponding to the power abnormality information group can be automatically sent without delay, and the security of the power inspection information during transmission can be ensured through the intranet mailbox. Thus, power inspection information can be sent promptly. Furthermore, the timeliness of the power inspection information can be improved.

With further reference to Figure 2, as an implementation of the methods shown in the above figures, the present disclosure provides some embodiments of a power abnormality information sending device. These power abnormality information sending device embodiments are the same as those method embodiments shown in Figure 1 Correspondingly, the power abnormality information sending device can be applied to various electronic devices.

As shown in FIG. 2 , the power abnormality information sending device 200 of some embodiments includes: an obtaining unit 201 , a generating unit 202 , a determining unit 203 and a sending unit 204 . Among them, the acquisition unit 201 is configured to obtain each power service initial information corresponding to each power service from the power service data platform, and obtain the power service initial information group set; the generation unit 202 is configured to obtain the above-mentioned power service initial information set. For each power business initial information group in the collection, perform the following generation steps: merge each power business initial information in the above-mentioned power business initial information group to generate power business merger information; perform data cleaning processing on the above-mentioned power business merger information , to generate power business cleaning information; perform data conversion processing on the above-mentioned power business cleaning information to generate power business information; the determination unit 203 is configured to determine each generated power business information as a power business information set; the sending unit 204 , is configured to perform the following processing steps for each power business information in the above-mentioned power business information set: based on the above-mentioned power business information, generate a power abnormality information group; send the power inspection information corresponding to the above-mentioned power abnormality information group through an intranet mailbox Go to the power terminal corresponding to the above-mentioned power abnormality information group.

It can be understood that the units recorded in the power abnormality information sending device 200 correspond to each step in the method described with reference to FIG. 1 . Therefore, the operations, features and beneficial effects described above for the method are also applicable to the power abnormality information sending device 200 and the units included therein, and will not be described again here.

Referring now to FIG. 3 , a schematic structural diagram of an electronic device (eg, computing device) 300 suitable for implementing some embodiments of the present disclosure is shown. Electronic devices in some embodiments of the present disclosure may include, but are not limited to, mobile phones, laptops, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablets), PMPs (portable multimedia players), vehicle-mounted terminals (such as car navigation terminals) and other mobile terminals as well as fixed terminals such as digital TVs, desktop computers, etc. The electronic device shown in FIG. 3 is only an example and should not impose any limitations on the functions and scope of use of the embodiments of the present disclosure.

As shown in FIG. 3 , the electronic device 300 may include a processing device (eg, central processing unit, graphics processor, etc.) 301 , which may be loaded into a random access device according to a program stored in a read-only memory (ROM) 302 or from a storage device 308 . The program in the memory (RAM) 303 executes various appropriate actions and processes. In the RAM 303, various programs and data required for the operation of the electronic device 300 are also stored. The processing device 301, ROM 302 and RAM 303 are connected to each other via a bus 304. An input/output (I/O) interface 305 is also connected to bus 304 .

Generally, the following devices may be connected to the I/O interface 305: input devices 306 including, for example, a touch screen, touch pad, keyboard, mouse, camera, microphone, accelerometer, gyroscope, etc.; including, for example, a liquid crystal display (LCD), speaker, vibration An output device 307 such as a computer; a storage device 308 including a magnetic tape, a hard disk, etc.; and a communication device 309. The communication device 309 may allow the electronic device 300 to communicate wirelessly or wiredly with other devices to exchange data. Although FIG. 3 illustrates electronic device 300 with various means, it should be understood that implementation or availability of all illustrated means is not required. More or fewer means may alternatively be implemented or provided. Each block shown in Figure 3 may represent one device, or may represent multiple devices as needed.

In particular, according to some embodiments of the present disclosure, the processes described above with reference to the flowcharts may be implemented as a computer software program. For example, some embodiments of the present disclosure include a computer program product including a computer program carried on a computer-readable medium, the computer program containing program code for performing the method illustrated in the flowchart. In some such embodiments, the computer program may be downloaded and installed from the network via communication device 309, or from storage device 308, or from ROM 302. When the computer program is executed by the processing device 301, the above-described functions defined in the methods of some embodiments of the present disclosure are performed.

It should be noted that the computer-readable medium recorded in some embodiments of the present disclosure may be a computer-readable signal medium or a computer-readable storage medium, or any combination of the above two. The computer-readable storage medium may be, for example, but is not limited to, an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus or device, or any combination thereof. More specific examples of computer readable storage media may include, but are not limited to: an electrical connection having one or more wires, a portable computer disk, a hard drive, random access memory (RAM), read only memory (ROM), removable Programmable read-only memory (EPROM or flash memory), optical fiber, portable compact disk read-only memory (CD-ROM), optical storage device, magnetic storage device, or any suitable combination of the above. In some embodiments of the present disclosure, a computer-readable storage medium may be any tangible medium that contains or stores a program for use by or in connection with an instruction execution system, apparatus, or device. In some embodiments of the present disclosure, the computer-readable signal medium may include a data signal propagated in baseband or as part of a carrier wave, carrying computer-readable program code therein. Such propagated data signals may take many forms, including but not limited to electromagnetic signals, optical signals, or any suitable combination of the above. A computer-readable signal medium may also be any computer-readable medium other than a computer-readable storage medium that can send, propagate, or transmit a program for use by or in connection with an instruction execution system, apparatus, or device . Program code embodied on a computer-readable medium may be transmitted using any suitable medium, including but not limited to: wire, optical fiber cable, RF (radio frequency), etc., or any suitable combination of the foregoing.

In some embodiments, the client and server can communicate using any currently known or future developed network protocol such as HTTP (HyperText Transfer Protocol), and can communicate with digital data in any form or medium. (e.g., communications network) interconnection. Examples of communications networks include local area networks ("LAN"), wide area networks ("WAN"), the Internet (e.g., the Internet), and end-to-end networks (e.g., ad hoc end-to-end networks), as well as any currently known or developed in the future network of.

The above-mentioned computer-readable medium may be included in the above-mentioned electronic device; it may also exist independently without being assembled into the electronic device. The computer-readable medium carries one or more programs. When the one or more programs are executed by the electronic device, the electronic device: obtains the initial information of each electric power service corresponding to each electric power service from the electric power service data platform. , obtain the electric power service initial information group set; for each electric power service initial information group in the above electric power service initial information group set, perform the following generation steps: merge each electric power service initial information in the above electric power service initial information group to Generate electric power business merger information; perform data cleaning processing on the above-mentioned electric power business merger information to generate electric power business cleaning information; perform data conversion processing on the above-mentioned electric power business cleaning information to generate electric power business information; determine each generated electric power business information is a power business information set; for each power business information in the above-mentioned power business information set, perform the following processing steps: generate a power abnormality information group based on the above-mentioned power business information; pass the power inspection information corresponding to the above-mentioned power abnormality information group through the intranet The email is sent to the power terminal corresponding to the above-mentioned power abnormality information group.

Computer program code for performing the operations of some embodiments of the present disclosure may be written in one or more programming languages, including object-oriented programming languages—such as Java, Smalltalk, C++, or a combination thereof, Also included are conventional procedural programming languages—such as the "C" language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In situations involving remote computers, the remote computer can be connected to the user's computer through any kind of network, including a local area network (LAN) or a wide area network (WAN), or it can be connected to an external computer, such as an Internet service provider. connected via the Internet).

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operations of possible implementations of systems, methods, and computer program products according to various embodiments of the present disclosure. In this regard, each block in the flowchart or block diagram may represent a module, segment, or portion of code that contains one or more logic functions that implement the specified executable instructions. It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown one after another may actually execute substantially in parallel, or they may sometimes execute in the reverse order, depending on the functionality involved. It will also be noted that each block of the block diagram and/or flowchart illustration, and combinations of blocks in the block diagram and/or flowchart illustration, can be implemented by special purpose hardware-based systems that perform the specified functions or operations. , or can be implemented using a combination of specialized hardware and computer instructions.

The units described in some embodiments of the present disclosure may be implemented in software or hardware. The described unit may also be provided in a processor. For example, it may be described as follows: a processor includes an acquisition unit, a generation unit, a determination unit and a sending unit. Among them, the names of these units do not constitute a limitation on the unit itself under certain circumstances. For example, the acquisition unit can also be described as “obtaining the initial information of each electric power business corresponding to each electric power business from the electric power business data platform, Obtain the initial information group set of the electric power business".

The functions described above herein may be performed, at least in part, by one or more hardware logic components. For example, and without limitation, exemplary types of hardware logic components that may be used include: Field Programmable Gate Arrays (FPGAs), Application Specific Integrated Circuits (ASICs), Application Specific Standard Products (ASSPs), Systems on Chips (SOCs), Complex Programmable Logical device (CPLD) and so on.

Some embodiments of the present disclosure also provide a computer program product, including a computer program. When executed by a processor, the computer program implements any of the above power abnormality information sending methods.

The above description is only an illustration of some preferred embodiments of the present disclosure and the technical principles applied. Persons skilled in the art should understand that the scope of the invention involved in the embodiments of the present disclosure is not limited to technical solutions composed of specific combinations of the above technical features, and should also cover the above-mentioned technical solutions without departing from the above-mentioned inventive concept. Other technical solutions formed by any combination of technical features or their equivalent features. For example, a technical solution is formed by replacing the above features with technical features with similar functions disclosed in the embodiments of the present disclosure (but not limited to).

Claims (4)

1. A method for sending power abnormality information, including: Obtain the initial information of each electric power business corresponding to each electric power business from the electric power business data platform, and obtain the initial information group set of the electric power business; For each electric power service initial information group in the electric power service initial information group set, perform the following generation steps: Perform merging processing on each electric power service initial information in the electric power service initial information group to generate electric power service merger information; Perform data cleaning processing on the electric power business merged information to generate electric power business cleaning information; Perform data conversion processing on the electric power business cleaning information to generate electric power business information; Each generated power service information is determined as a power service information set, where the power services in the power service information set include: power service type, power service identifier, power service name, first power service field information group and second power service information set. Power service field information group, where the power service type includes: power acquisition resource type and power flow attribute type, and the first power service field information in the first power service resource information group includes: power resource acquisition time field, power service completion time field, power service usage time field and power resource identifier. The second power service field information in the second power service field information group includes: power resource identifier, power resource attribute value and power resource type, where the power resource type includes: power Equipment type; For each electric power service information in the electric power service information set, the following processing steps are performed: Based on the power business information, generate a power abnormality information group; Send the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox; Receive the verified power inspection information sent by the power terminal; Wherein, before sending the power verification information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox, the method further includes: Obtain the technical terminal identification and technician name; Combine the technical terminal identification, the technical personnel name and the current time into watermark information; Wherein, sending the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox includes: Combine the power verification information group corresponding to the power abnormality information group, the power abnormality information group and the watermark information in the power business data platform to generate a combined power verification information group as the first power inspection information; In response to determining that the number of power abnormal information in the power abnormal information group is greater than or equal to 1, sending the first power verification information to the power terminal corresponding to the power abnormal information group through an intranet mailbox; Wherein, sending the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox includes: Export a power verification information file, wherein the power verification information file includes: the watermark information and the power abnormality information group; Determine the power verification information file as the second power verification information; In response to determining that the number of power abnormal information in the power abnormal information group is greater than or equal to 1, sending the second power verification information to the power terminal corresponding to the power abnormal information group through an intranet mailbox; Wherein, generating a power abnormality information group based on the power business information includes: In response to determining that the power service type included in the power service information represents the power acquisition resource type, for each first power service field information in the first power service field information group included in the power service information, the following combining steps are performed: In response to determining that the power service usage time field included in the first power service field information is empty, and the power resource acquisition time represented by the power resource acquisition time field included in the first power service field information is later than the first The electric power service completion time represented by the electric power service completion time field included in the electric power service field information is combined into the electric power abnormality information by combining the electric power service identifier, the electric power service name and the electric power resource identifier corresponding to the first electric power service field information; In response to determining that the power service usage time field included in the first power service field information is not empty, and the power resource acquisition time represented by the power resource acquisition time field included in the first power service field information is later than the first The power service usage time represented by the power service usage time field included in the power service field information is combined into the power abnormality information by combining the power service identifier, the power service name and the power resource identifier corresponding to the first power service field information; Determine the combined respective power abnormality information as a power abnormality information group; Wherein, generating a power abnormality information group based on the power business information includes: In response to determining that the power service type included in the power service information represents a power flow attribute type, for each second power service field information in the second power service field information group included in the power service information, in response to determining that the The power resource type included in the second power service field information represents the type of power equipment, and the power service identifier, power service name, power resource identifier and power resource attribute value corresponding to the second power service field information are combined into power abnormality information; The combined respective pieces of power abnormality information are determined as a power abnormality information group. 2. A power abnormality information sending device, including: The acquisition unit is configured to obtain the initial information of each electric power business corresponding to each electric power service from the electric power business data platform, and obtain the initial information group set of the electric power service; A generating unit configured to, for each electric power service initial information group in the electric power service initial information group set, perform the following generating steps: merge each electric power service initial information in the electric power service initial information group to generate Power business merging information; performing data cleaning processing on the power business merging information to generate power business cleaning information; performing data conversion processing on the power business cleaning information to generate power business information; a determining unit configured to determine each of the generated power service information as a power service information set, wherein the power services in the power service information set include: power service type, power service identification, power service name, first power service Field information group and second power service field information group, wherein the power service type includes: power acquisition resource type and power flow attribute type, and the first power service field information in the first power service resource information group includes: power resource acquisition time field, power service completion time field, power service usage time field and power resource identifier. The second power service field information in the second power service field information group includes: power resource identifier, power resource attribute value and power resource type, where, Power resource types include: power equipment types; A sending unit configured to perform the following processing steps for each power business information in the power business information set: generate a power abnormality information group based on the power business information; and convert the power verification information corresponding to the power abnormality information group to Send it to the power terminal corresponding to the power abnormality information group through an intranet mailbox; a receiving unit configured to receive the verified power verification information sent by the power terminal; Wherein, before sending the power verification information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox, the device further includes: Obtain the technical terminal identification and technician name; Combine the technical terminal identification, the technical personnel name and the current time into watermark information; Wherein, sending the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox includes: Combine the power verification information group corresponding to the power abnormality information group, the power abnormality information group and the watermark information in the power business data platform to generate a combined power verification information group as the first power inspection information; In response to determining that the number of power abnormal information in the power abnormal information group is greater than or equal to 1, sending the first power verification information to the power terminal corresponding to the power abnormal information group through an intranet mailbox; Wherein, sending the power inspection information corresponding to the power abnormality information group to the power terminal corresponding to the power abnormality information group through an intranet mailbox includes: Export a power verification information file, wherein the power verification information file includes: the watermark information and the power abnormality information group; Determine the power verification information file as the second power verification information; In response to determining that the number of power abnormal information in the power abnormal information group is greater than or equal to 1, sending the second power verification information to the power terminal corresponding to the power abnormal information group through an intranet mailbox; Wherein, generating a power abnormality information group based on the power business information includes: In response to determining that the power service type included in the power service information represents the power acquisition resource type, for each first power service field information in the first power service field information group included in the power service information, the following combining steps are performed: In response to determining that the power service usage time field included in the first power service field information is empty, and the power resource acquisition time represented by the power resource acquisition time field included in the first power service field information is later than the first The electric power service completion time represented by the electric power service completion time field included in the electric power service field information is combined into the electric power abnormality information by combining the electric power service identifier, the electric power service name and the electric power resource identifier corresponding to the first electric power service field information; In response to determining that the power service usage time field included in the first power service field information is not empty, and the power resource acquisition time represented by the power resource acquisition time field included in the first power service field information is later than the first The power service usage time represented by the power service usage time field included in the power service field information is combined into the power abnormality information by combining the power service identifier, the power service name and the power resource identifier corresponding to the first power service field information; Determine the combined respective power abnormality information as a power abnormality information group; Wherein, generating a power abnormality information group based on the power business information includes: In response to determining that the power service type included in the power service information represents a power flow attribute type, for each second power service field information in the second power service field information group included in the power service information, in response to determining that the The power resource type included in the second power service field information represents the type of power equipment, and the power service identifier, power service name, power resource identifier and power resource attribute value corresponding to the second power service field information are combined into power abnormality information; The combined respective pieces of power abnormality information are determined as a power abnormality information group. 3. An electronic device, including: one or more processors; A storage device on which one or more programs are stored; When the one or more programs are executed by the one or more processors, the one or more processors implement the method according to any one of claims 1. 4. A computer-readable medium having a computer program stored thereon, wherein the method of claim 1 is implemented when the program is executed by a processor.