CN113010335A - Processing method and processing system for fault information of power change station equipment - Google Patents

Abstract

The invention discloses a processing method and a processing system for fault information of power change station equipment, wherein the processing method comprises the following steps: setting a corresponding relation between each type of fault in the power station swapping equipment and each code bit of the first machine code; acquiring operation information of the power change station equipment, wherein the operation information is used for representing whether various types of faults occur in the power change station equipment; and determining the value of each code bit of the first machine code according to the operation information and the corresponding relation, and generating fault information of the power station swapping device according to the first machine code, wherein the fault information comprises a second machine code which is generated by the conversion of the first machine code through a binary conversion rule. The method and the device can not only discover all faults of the power change station equipment in time, but also avoid the condition that the faults cannot be processed in time so as to influence user experience, and further facilitate the management personnel to carry out unified management on the fault information condition of the power change station equipment.

Description

Processing method and processing system for fault information of power change station equipment

Technical Field

The invention relates to the technical field of information communication, in particular to a method and a system for processing fault information of power change station equipment.

Background

In recent years, electric vehicles, which use electric power as a motive power and have a smaller environmental impact than conventional vehicles, are used by more and more users because of the continuous exhaustion of oil resources and the more serious air pollution.

Since the electric vehicle needs to be powered by a battery, a user who needs to use the electric vehicle needs to frequently switch the electric vehicle to a battery replacement station to supply energy. In the prior art, when equipment in the power conversion station fails, the equipment is generally difficult to uniformly and timely find and process, in the prior art, when a certain part of certain equipment fails, related faults are individually reported, technicians individually process the related faults, and related operators and managers are difficult to participate in the fault processing process. Moreover, a plurality of power switching station devices exist in the power switching station, each device has the possibility of a fault occurring in different parts, when a large number of faults occur, a large amount of time is consumed for processing alarm information of each fault, and it is difficult to perform uniform transmission, processing, recording and management on all fault information.

Disclosure of Invention

The invention provides a method and a system for processing fault information of a power swapping station device, and aims to overcome the defects that fault information of the power swapping station device is difficult to uniformly and timely find and process and difficult to uniformly manage in the prior art.

The invention solves the technical problems through the following technical scheme:

the invention provides a method for processing fault information of power change station equipment, which comprises the following steps:

acquiring operation information of the power change station equipment, wherein the operation information is used for representing whether various types of faults occur in the power change station equipment;

and determining the value of each code bit of the first machine code according to the corresponding relation between the running information and each preset type of fault and each code bit of the first machine code, and generating fault information of the power station swapping equipment according to the first machine code, wherein the fault information comprises a second machine code, and the second machine code is generated by the first machine code through a binary conversion rule.

Each first machine code corresponds to one battery swapping device, and each first machine code includes all fault information of the corresponding battery swapping device.

The power swapping station comprises a plurality of power swapping station devices.

According to the method and the device, the corresponding fault of the corresponding power change station equipment can be found quickly and conveniently according to the obtained operation information of the power change station equipment through the corresponding relation between the preset fault and the code bit of the machine code, all fault information containing the power change station equipment can be generated through the operation information and the preset corresponding relation, not only can the faults of a large number of power change equipment in the power change station be processed simultaneously, but also relevant personnel can be further informed to perform timely fault processing and troubleshooting.

Preferably, the operation information further includes a device type, a device number, a bin number, and a fault acquisition time of the power station swapping device;

the processing method further comprises the following steps: generating the fault information according to the operation information, wherein the fault information comprises field information respectively corresponding to the equipment type, the equipment number, the bin number and the fault acquisition time of the power change station equipment;

and/or the presence of a gas in the gas,

the first machine code is binary, and the second machine code is hexadecimal.

Wherein the fault information may include a plurality of the second machine codes.

According to the invention, the equipment corresponding to the fault and the time of the fault can be conveniently and quickly found through the generated fault information, so that the relevant personnel can further conveniently and orderly process the relevant fault under the condition of acquiring a large amount of fault information.

In the invention, the first machine code is set to be binary, and the second machine code is set to be hexadecimal, so that the corresponding relation between the code bit of the first machine and the fault can be more conveniently judged, the data content of the whole second machine code is smaller, and the transmission speed is higher.

Preferably, after the step of generating the fault information of the power swapping station device according to the first machine code, the method further includes:

sending the fault information to a cloud platform;

converting the second machine code in the fault information into the first machine code through a binary conversion rule;

and judging whether various types of faults occur according to the converted first machine code, and sending corresponding fault notification messages to the faults.

The corresponding fault notification message can be sent in a system message mode, a mail mode, a short message mode, a mobile phone notification mode and the like.

According to the invention, the type of the fault can be analyzed rapidly in real time through the cloud platform, and the fault can be notified to relevant processing personnel in time.

Preferably, the processing method further comprises: setting fault handlers in different levels;

setting a fault grade corresponding to each type of fault;

setting a corresponding relation between the level of the fault handler and the fault level;

the step of sending a corresponding fault notification message for the occurred fault comprises:

sending a corresponding fault notification message to fault handlers in a corresponding level for the generated fault;

after the step of sending the corresponding fault notification message to the occurred fault, the method further includes: and judging whether the generated fault is removed after a first time threshold value, and if not, sending a fault notification message to a fault handler at the upper level.

According to the invention, the condition that the user experience is influenced because the fault cannot be processed in time can be avoided, and the condition of fault information of the power station switching equipment can be managed uniformly by a manager.

Preferably, the step of determining whether each type of fault occurs further includes:

and judging whether the generated fault is a repeatedly generated fault, if not, sending a corresponding fault notification message to the generated fault, and recording fault data corresponding to the generated fault in the cloud platform.

Because the first machine code analyzed by the cloud platform may contain some repeated faults, and the repeated faults are prevented from being repeatedly sent to the fault handler, in the invention, the repeated faults can be filtered by comparing the first machine code analyzed by the cloud platform, so that the repeated notification of the same fault is avoided, and the system resources are saved.

The invention also provides a system for processing the fault information of the power change station equipment, which comprises the following steps: the system comprises an operation information acquisition module and a fault information generation module;

the machine code setting module is used for setting the corresponding relation between each type of fault in the power station swapping equipment and each code bit of the first machine code;

the operation information acquisition module is used for acquiring operation information of the power station replacing equipment, and the operation information is used for representing whether various types of faults occur in the power station replacing equipment;

the fault information generation module is used for determining the value of each code bit of the first machine code according to the corresponding relation between the running information and each preset type of fault and each code bit of the first machine code, and generating fault information of the power station changing equipment according to the first machine code, wherein the fault information comprises a second machine code, and the second machine code is generated by the first machine code through a binary conversion rule.

Each first machine code corresponds to one battery swapping device, and each first machine code includes all fault information of the corresponding battery swapping device.

The battery swapping station comprises a plurality of battery swapping devices.

According to the method and the device, the corresponding fault of the corresponding power change station equipment can be quickly and conveniently found through the fault information generation module according to the operation information fault data of the power change station equipment acquired by the operation information acquisition module through the corresponding relation between the preset fault and the code bit of the machine code, all fault information containing the power change station equipment can be generated through the operation information and the preset corresponding relation, not only can the fault information of a large number of power change equipment in the power change station be processed simultaneously, but also relevant personnel can be further informed to carry out timely fault processing and troubleshooting.

Preferably, the operation information further includes a device type, a device number, a bin number, and a fault acquisition time of the power station swapping device;

the fault information generating module is further used for generating the fault information according to the operation information, wherein the fault information comprises field information corresponding to the equipment type, the equipment number, the bin number and the fault acquisition time of the power station replacing equipment;

and/or the presence of a gas in the gas,

the first machine code is binary, and the second machine code is hexadecimal.

Wherein the fault information may include a plurality of the second machine codes.

According to the invention, the fault information generated by the fault information generation module can be used for conveniently and quickly finding the equipment corresponding to the fault and the time when the fault occurs, so that under the condition of acquiring a large amount of fault information, related personnel can further conveniently and orderly process related faults.

Preferably, the processing system further comprises: the device comprises a sending module, a conversion module and a fault judgment module;

the sending module is used for sending the fault information to a cloud platform;

the conversion module is used for converting the second machine code in the fault information into the first machine code through a binary conversion rule;

and the fault judgment module is used for judging whether various types of faults occur according to the converted first machine code and sending corresponding fault notification messages to the faults.

In the invention, the cloud platform stores the corresponding relation between each type of fault and each code bit of the first machine code, and the conversion module can decode whether each type of fault of each power station replacing device occurs or not according to the corresponding relation.

The sending module can send corresponding fault notification messages in the modes of system messages, mails, short messages, mobile phone notifications and the like.

In the invention, the type of the fault can be analyzed in real time and rapidly through the conversion module, and the fault can be notified to relevant processing personnel in time through the sending module.

Preferably, the processing system further comprises: the system comprises a processor setting module, a fault grade setting module, a grade matching module and a releasing judgment module;

the processor setting module is used for setting fault processors in different levels;

the fault grade setting module is used for setting the fault grade corresponding to each type of fault;

the grade matching module is used for setting the corresponding relation between the grade of the fault handler and the fault grade;

the fault judgment module is also used for sending a corresponding fault notification message to a fault handler at a corresponding level for the fault and calling the release judgment module;

the release judging module is used for judging whether the generated fault is released after the first time threshold value is passed, and if the generated fault is not released, sending a fault notification message to a fault handler at the upper level.

According to the invention, the condition that the user experience is influenced because the fault cannot be processed in time can be avoided, and the condition of fault information of the power station switching equipment can be managed uniformly by a manager.

Preferably, the fault determining module is further configured to determine whether the fault occurs repeatedly after determining whether each type of fault occurs, and if not, send a corresponding fault notification message to the fault, and record fault data corresponding to the fault in the cloud platform.

In the invention, the first machine code analyzed by the cloud platform is compared by the fault judgment module, so that the repeated faults can be filtered, the repeated notification of the same fault is avoided, and the system resources are saved.

The positive progress effects of the invention are as follows: according to the method and the device, all fault information containing the battery swapping station equipment can be generated through the operation information and the preset corresponding relation, so that not only can the fault of the corresponding battery swapping station equipment be found quickly and conveniently, but also a large amount of fault information of the battery swapping equipment in the battery swapping station can be processed simultaneously, and related personnel can be further informed to carry out timely fault processing and troubleshooting. The method and the system can not only discover all faults of the power change station equipment in time, but also avoid the condition that the faults cannot be processed in time so as to influence user experience, and further facilitate the unified management of the fault information of the power change station equipment by managers.

Drawings

Fig. 1 is a flowchart of a method for processing fault information of a power swapping station device according to embodiment 1 of the present invention.

Fig. 2 is a flowchart of a method for processing fault information of a power swapping station device in embodiment 2 of the present invention.

Fig. 3 is a partial flowchart of a method for processing fault information of a power swapping station device according to embodiment 3 of the present invention.

Fig. 4 is a partial flowchart of a method for processing fault information of a power swapping station device according to embodiment 3 of the present invention.

Fig. 5 is a schematic block diagram of a system for processing fault information of a power swapping station device according to embodiment 4 of the present invention.

Fig. 6 is a schematic block diagram of a system for processing fault information of a power swapping station device according to embodiment 6 of the present invention.

Fig. 7 is a schematic block diagram of a part of a system for processing fault information of a power swapping station device according to embodiment 7 of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

Example 1

The embodiment provides a processing method of fault information of a power swapping station device, as shown in fig. 1, the processing method includes:

step 101, obtaining operation information of the power station replacing equipment.

And 102, determining the value of each code bit of the first machine code according to the running information and the corresponding relation between each preset type of fault and each code bit of the first machine code.

And 103, generating fault information of the power swapping station equipment according to the first machine code.

Each first machine code corresponds to one battery swapping device, and each first machine code comprises all fault information of the corresponding battery swapping device. The corresponding relation of each code bit of the first machine code can be set according to actual requirements, for example, the first code bit represents that the voltage is too high, the second code bit represents that the temperature is too high, and the like.

One battery replacement station comprises a plurality of battery replacement station devices, such as a plurality of chargers, a plurality of batteries and the like.

In step 101, the operation information is used to represent whether various types of faults occur in the power station replacing equipment, and the operation information may be acquired according to an acquisition device on the power station replacing equipment, such as voltage and current acquisition equipment, temperature sensing, infrared sensing, camera image acquisition, and the like.

In step 103, the fault information includes a second machine code generated by the first machine code conversion through the binary conversion rule.

In this embodiment, through the corresponding relation of the preset fault and the code bit of the machine code, the fault of the corresponding power conversion station equipment can be found quickly and conveniently according to the acquired running information fault data of the power conversion station equipment, and the fault information of a large amount of power conversion equipment in the power conversion station can be processed simultaneously through the unified coding of the power conversion station equipment, so that related personnel can be further informed to perform timely fault processing and troubleshooting.

In this embodiment, the first machine code is converted into the second machine code, so that the size and format of the fault information are more favorable for transmission, and the fault information can be further processed by related personnel in time.

Example 2

The embodiment provides a processing method of fault information of a power swapping station device, as shown in fig. 2, the processing method includes:

step 201, obtaining operation information of the power station replacing equipment.

Step 202, determining the value of each code bit of the first machine code according to the running information and the corresponding relation between each preset type of fault and each code bit of the first machine code, and generating fault information of the power swapping device according to the first machine code.

And step 203, sending the fault information to the cloud platform.

And step 204, converting the second machine code in the fault information into the first machine code through a system conversion rule.

Step 205, determining whether each type of fault occurs according to the converted first machine code, if so, executing step 206, and if not, executing step 201.

Step 206, determining whether the fault is a repeated fault, if yes, executing step 201, and if not, executing step 207.

Step 207, sending corresponding failure notification message to the failure.

The operation information includes information for representing whether various types of faults occur in the power station replacing equipment, and the information can be acquired according to an acquisition device on the power station replacing equipment, such as voltage and current acquisition equipment, temperature sensing, infrared sensing, camera images and the like. And also includes the inherent information of the power station replacing equipment, such as equipment type, equipment number, bin number, etc.

In step 202, the fault information includes two types, the first type is field information corresponding to the device type, the device number, the bin number, the fault acquisition time, and the like, which can be directly generated by the operation information of the power station swapping device, and the second type is a second machine code, which needs to determine the value of each code bit of the first machine code according to the operation information and the corresponding relationship in step 201, and then generates the first machine code including each code bit by a binary conversion rule.

In this embodiment, the cloud platform receives the fault information, and the cloud platform may store a preset correspondence between each type of fault and each code bit of the first machine code, and in step 205, whether each type of fault of each power swapping station device occurs may be decoded according to the correspondence.

In step 206, repeated failures may be filtered out, so as to avoid notifying the corresponding handler of the repeated failures, thereby wasting system resources.

For better understanding of the present embodiment, the following description will be given by way of a specific example in practice:

in practice, the setting can be performed in advance according to the correspondence between the type of the demand fault and each code bit of the first machine code, if 64 faults exist in a certain battery in a certain actual scene, an 8-byte second machine code can be set, the second machine code can be converted into a binary first machine code comprising 64 code bits, each code bit corresponds to one type of fault, by the setting means, one first machine code can include all faults on the battery swapping device, and the first machine code and the second machine code of which number of code bits are to be specifically set can be set according to the actual demand.

As in the present embodiment, it may be set that the first code bit of the first machine code represents a battery abnormality, the second code bit represents an input overvoltage, the third code bit represents an input undervoltage, the fourth code bit represents a battery external short circuit, the fifth code bit represents a battery internal short circuit, the sixth code bit represents an input temperature too high, the seventh code bit represents an input temperature too low, and the eighth code bit represents a charging module failure.

In the actual operation of the device, the actual operation information of the device can be collected through a temperature sensor, an infrared sensor, camera image collection and the like, and according to the actual operation information, the second machine code can be generated according to the corresponding relation of the setting, for example, the first machine code generated according to the operation information is a binary machine code: 10011001, the 1 st, 4 th, 5 th, 8 th bits of the machine code are 1, and the machine code is normal according to the preset rule, i.e. 0 mark, 1 mark fault, can learn that the current fault is battery abnormality, battery external short circuit, battery internal short circuit and charging module fault, and then can convert the binary code into the second machine code of sixteen system through the binary conversion rule: 99. it should be understood that how many binary systems the first machine code and the second machine code are specifically can be selected according to actual requirements, for example, the second machine code can be set to thirty-two bits.

Meanwhile, field information corresponding to the device type, the device number, the bin number, the fault acquisition time and the like is acquired, and the fault information in the embodiment includes the device type, the device number, the bin number, the second machine code and the fault acquisition time. The format of the fault information obtained in this embodiment is as follows:

2，00MPE0JC431D，15，99，20190809152244

the fault information indicates that the fault occurs when the equipment type is 2, the equipment number is 00MPE0JC431D, the bin number is 15, the second machine code is 99, and the fault acquisition time is 44 seconds when 8, 9, 15, 22 and 2019.

It should be understood that what contents are included in the specific fault information, and what format the specific fault information is set in may be selected according to actual requirements, for example, the fault information may also include contents such as alarm occurrence time.

And then, sending the fault information to a cloud platform, and after receiving the fault information, the cloud platform sends a second machine code in the fault information: 99 into first machine code: 10011001, the cloud platform stores the correspondence between each code bit in the first machine code and the fault type, and the cloud platform also stores the correspondence between each field in the machine code and the inherent information of the device, for example, the device type 2 in this embodiment corresponds to the charger. Then, whether various types of faults occur on the charger can be judged according to the corresponding relation, it can be seen that the current faults of the charger are battery abnormity, battery external short circuit, battery internal short circuit and charging module faults, then whether the types of the faults which occur are repeated faults can be judged, if not, the related faults are sent to related fault handlers, and the corresponding fault notification messages can be sent in the modes of system messages, mails, short messages, mobile phone notification and the like.

In this embodiment, through the corresponding relation of the preset fault and the code bit of the machine code, the fault of the corresponding power conversion station equipment can be found quickly and conveniently according to the acquired running information fault data of the power conversion station equipment, and the fault information of a large amount of power conversion equipment in the power conversion station can be processed simultaneously through the unified coding of the power conversion station equipment, so that related personnel can be further informed to perform timely fault processing and troubleshooting.

In this embodiment, through the generated fault information, the device corresponding to the fault and the time when the fault occurs can be conveniently and quickly found, so that under the condition that a large amount of fault information is obtained, related personnel can further conveniently and orderly process related faults.

In this embodiment, the correspondence between the first machine code bit and the fault can be more conveniently determined by setting the first machine code and the second machine code in the binary format, so that the data content of the whole second machine code is smaller and the transmission speed is faster.

In this embodiment, the cloud platform stores a correspondence between each type of fault and each code bit of the first machine code, and according to the correspondence, whether each type of fault of each power swapping station device occurs or not can be decoded.

In the embodiment, the faults which occur repeatedly can be filtered, so that the repeated notification of the same fault is avoided, and the system resources are saved.

Example 3

The present embodiment is a further improvement on embodiment 2, and as shown in fig. 3 and fig. 4, the method for processing the fault information of the power swapping station device in the present embodiment further includes:

step 301, setting fault handlers in different levels.

Step 302, setting a fault level corresponding to each type of fault.

Step 303, setting the corresponding relation between the level of the fault handler and the fault level.

In this embodiment, step 207 in embodiment 2 is replaced with step 401, a corresponding failure notification message is sent to the failure handler of the corresponding level for the occurred failure, and step 402 is executed.

Step 402, determining whether the fault occurred after the first time threshold is passed is resolved. If not, step 403 is executed, and if not, step 201 is executed.

And step 403, sending a fault notification message to the fault handler at the upper level.

Wherein, all fault levels, notification levels and corresponding fault handlers can be dynamically set.

Wherein the low-level unprocessed faults may be set to be automatically processed every other day.

The fault processing person can confirm and process the power conversion station equipment on the operation platform after removing the fault.

In this embodiment, not only technical staff can participate in the process of fault handling, but also relevant operating staff and managers can further enter the process of fault handling, thereby not only avoiding the situation that the fault cannot be handled in time and affecting the user experience, but also further facilitating the unified management of the situation of the fault information of the power station equipment by the managers.

Example 4

The embodiment provides a processing system for fault information of a power swapping station device, as shown in fig. 5, the processing system includes: an operation information acquisition module 501 and a fault information generation module 502.

The operation information obtaining module 501 is configured to obtain operation information of the power swapping station device, where the operation information is used to represent whether various types of faults occur in the power swapping station device.

The fault information generating module 502 is configured to determine values of code bits of the first machine code according to the operation information and a corresponding relationship between a preset fault of each type and the code bits of the first machine code, and generate fault information of the power swapping device according to the first machine code, where the fault information includes a second machine code, and the second machine code is generated by conversion of the first machine code through a binary conversion rule.

And each first machine code comprises all fault information of the corresponding power swapping device. The corresponding relation of each code bit of the first machine code can be set according to actual requirements, for example, the first code bit represents that the voltage is too high, the second code bit represents that the temperature is too high, and the like.

One battery replacement station comprises a plurality of battery replacement station devices, such as a plurality of chargers, a plurality of batteries and the like.

In the operation information obtaining module 501, the operation information is used to represent whether various types of faults occur in the power switching station equipment, and the operation information may be collected according to a collecting device on the power switching station equipment, such as a voltage and current collecting device, a temperature sensor, an infrared sensor, a camera image collecting device, and the like.

In the fault information generating module 502, the fault information includes a second machine code, and the second machine code is generated by converting the first machine code through a binary conversion rule.

In this embodiment, through the corresponding relation of the preset fault and the code bit of the machine code, the fault of the corresponding power conversion station equipment can be quickly and conveniently found through the fault information generation module according to the operation information fault data of the power conversion station equipment acquired by the operation information acquisition module, and the fault information of a large amount of power conversion equipment in the power conversion station can be simultaneously processed through the unified coding of the power conversion station equipment, so that related personnel can be further informed to perform timely fault processing and troubleshooting.

In this embodiment, the fault information generation module converts the first machine code into the second machine code, so that the size and format of the fault information are more favorable for transmission, and the relevant personnel can further process the fault information in time.

Example 5

The embodiment provides a processing system for fault information of a power swapping station device, as shown in fig. 6, the processing system includes: an operation information acquiring module 601, a fault information generating module 602, a sending module 603, a converting module 604 and a fault judging module 605.

The operation information obtaining module 601 is configured to obtain operation information of the power swapping station device, where the operation information is used to represent whether various types of faults occur in the power swapping station device.

The fault information generating module 602 is configured to determine values of code bits of the first machine code according to the operation information and a corresponding relationship between a preset fault of each type and the code bits of the first machine code, and generate fault information of the power swapping device according to the first machine code, where the fault information includes a second machine code, and the second machine code is generated by conversion of the first machine code through a binary conversion rule.

The operation information further comprises the equipment type, the equipment number, the bin number and the fault acquisition time of the power station replacing equipment.

The fault information generating module 602 is further configured to generate fault information according to the operation information, where the fault information includes field information corresponding to a device type, a device number, a bin number, and a fault obtaining time of the power swapping station device.

The sending module 603 is configured to send the fault information to the cloud platform.

The conversion module 604 is configured to convert the second machine code in the fault information into the first machine code according to a binary conversion rule.

The fault determining module 605 is configured to determine whether a fault of each type occurs according to the converted first machine code, if the fault occurs, determine whether the occurred fault is a fault that occurs repeatedly, if the fault does not occur, send a corresponding fault notification message to the occurred fault, and record fault data corresponding to the occurred fault in the cloud platform.

The operation information includes information for representing whether various types of faults occur in the power station replacing equipment, and the information can be acquired according to an acquisition device on the power station replacing equipment, such as voltage and current acquisition equipment, temperature sensing, infrared sensing, camera images and the like.

The fault information includes two types, the first type is field information corresponding to the device type, the device number, the bin number, the fault acquisition time and the like, the first type of information can be generated directly through operation information of the power station swapping device, the second type is a second machine code, the value of each code bit of the first machine code needs to be determined according to the corresponding relation set by the machine code setting module 601, and then the first machine code including each code bit is generated through a binary conversion rule.

In this embodiment, the cloud platform receives the fault information, and the cloud platform may store a preset corresponding relationship between each type of fault and each code bit of the first machine code.

The failure determining module 605 may filter out repeated failures, so as to avoid notifying the corresponding processors of the repeated failures to waste system resources.

For better understanding of the present embodiment, the following description will be given by way of a specific example in practice:

in practice, the corresponding relation between the fault type and each code bit of the first machine code can be preset according to requirements, if 64 faults exist in a certain battery in a certain actual scene, an 8-byte second machine code can be set and can be converted into a binary first machine code comprising 64 code bits, each code bit corresponds to one type of fault, through the setting means, one first machine code can comprise all faults on the battery swapping device, and the first machine code and the second machine code of which number of code bits are specifically to be set can be set according to actual requirements.

As in this embodiment, it may be preset that the first code bit of the first machine code represents a battery abnormality, the second code bit represents an input overvoltage, the third code bit represents an input undervoltage, the fourth code bit represents a battery external short circuit, the fifth code bit represents a battery internal short circuit, the sixth code bit represents an input temperature too high, the seventh code bit represents an input temperature too low, and the eighth code bit represents a charging module fault.

In the actual operation of the device, the actual operation information of the device can be collected through a temperature sensor, an infrared sensor, camera image collection and the like, and according to the actual operation information, the second machine code can be generated according to the corresponding relation of the setting, for example, the first machine code generated according to the operation information is a binary machine code: 10011001, the 1 st, 4 th, 5 th, 8 th bits of the machine code are 1, and the machine code is normal according to the preset rule, i.e. 0 mark, 1 mark fault, can learn that the current fault is battery abnormality, battery external short circuit, battery internal short circuit and charging module fault, and then can convert the binary code into the second machine code of sixteen system through the binary conversion rule: 99. it should be understood that how many binary systems the first machine code and the second machine code are specifically can be selected according to actual requirements, for example, the second machine code can be set to thirty-two bits.

Meanwhile, field information corresponding to the device type, the device number, the bin number, the fault acquisition time and the like is acquired, and the fault information in the embodiment includes the device type, the device number, the bin number, the second machine code and the fault acquisition time. The format of the fault information obtained in this embodiment is as follows:

2，00MPE0JC431D，15，99，20190809152244

the fault information indicates that the fault occurs when the equipment type is 2, the equipment number is 00MPE0JC431D, the bin number is 15, the second machine code is 99, and the fault acquisition time is 44 seconds when 8, 9, 15, 22 and 2019.

It should be understood that what contents are included in the specific fault information, and what format the specific fault information is set in may be selected according to actual requirements, for example, the fault information may also include contents such as alarm occurrence time.

And then, sending the fault information to a cloud platform, and after receiving the fault information, the cloud platform sends a second machine code in the fault information: 99 into first machine code: 10011001, the cloud platform stores the correspondence between each code bit in the first machine code and the fault type, and the cloud platform also stores the correspondence between each field in the machine code and the inherent information of the device, for example, the device type 2 in this embodiment corresponds to the charger. Then, whether various types of faults occur on the charger can be judged according to the corresponding relation, it can be seen that the current faults of the charger are battery abnormity, battery external short circuit, battery internal short circuit and charging module faults, then whether the types of the faults which occur are repeated faults can be judged, if not, the related faults are sent to related fault handlers, and the corresponding fault notification messages can be sent in the modes of system messages, mails, short messages, mobile phone notification and the like.

In this embodiment, the fault information generated by the fault information generation module can conveniently and quickly find the equipment corresponding to the fault and the time when the fault occurs, so that under the condition that a large amount of fault information is obtained, related personnel can further and conveniently process related faults in order.

In this embodiment, the cloud platform may store a preset correspondence between each type of fault and each code bit of the first machine code, and according to the correspondence, the conversion module may decode whether each type of fault of each power swapping station device occurs.

In this embodiment, the type of the fault can be analyzed in real time and rapidly by the conversion module, and the fault can be notified to the relevant processing personnel in time by the sending module.

In this embodiment, the first machine code analyzed by the cloud platform is compared by the fault determination module, so that a repeatedly occurring fault can be filtered, repeated notification of the same fault is avoided, and system resources are saved.

Example 6

The present embodiment is a further improvement on embodiment 5, and as shown in fig. 7, the system for processing fault information of a power swapping station device in the present embodiment further includes: a handler setting module 701, a failure level setting module 702, a level matching module 703, and a release determination module 704.

The handler setting module 701 is used to set fault handlers at different levels.

The failure level setting module 702 is used to set a failure level corresponding to each type of failure.

The level matching module 703 is used to set the corresponding relationship between the level of the fault handler and the fault level.

The failure determining module 605 is further configured to send a corresponding failure notification message to the failure handler at the corresponding level for the occurred failure, and invoke the release determining module 704.

The release determination module 704 is configured to determine whether the generated fault is released after the first time threshold is passed, and if not, send a fault notification message to the fault handler at the previous level.

In this embodiment, not only technical staff can participate in the process of fault handling, but also relevant operating staff and managers can further enter the process of fault handling, thereby not only avoiding the situation that the fault cannot be handled in time and affecting the user experience, but also further facilitating the unified management of the situation of the fault information of the power station equipment by the managers.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (10)

1. A processing method for fault information of power swapping station equipment is characterized by comprising the following steps:

acquiring operation information of the power change station equipment, wherein the operation information is used for representing whether various types of faults occur in the power change station equipment;

and determining the value of each code bit of the first machine code according to the corresponding relation between the running information and each preset type of fault and each code bit of the first machine code, and generating fault information of the power station swapping equipment according to the first machine code, wherein the fault information comprises a second machine code, and the second machine code is generated by the first machine code through a binary conversion rule.

2. The process of claim 1,

the operation information further comprises the equipment type, the equipment number, the bin number and the fault acquisition time of the power station changing equipment;

the processing method further comprises the following steps: generating the fault information according to the operation information, wherein the fault information comprises field information respectively corresponding to the equipment type, the equipment number, the bin number and the fault acquisition time of the power change station equipment;

and/or the presence of a gas in the gas,

the first machine code is binary, and the second machine code is hexadecimal.

3. The process of claim 2,

after the step of generating the fault information of the power swapping station device according to the first machine code, the method further comprises the following steps:

sending the fault information to a cloud platform;

converting the second machine code in the fault information into the first machine code through a binary conversion rule;

and judging whether various types of faults occur according to the converted first machine code, and sending corresponding fault notification messages to the faults.

4. The process of claim 3, wherein the process further comprises:

setting fault handlers in different levels;

setting a fault grade corresponding to each type of fault;

setting a corresponding relation between the level of the fault handler and the fault level;

the step of sending a corresponding fault notification message for the occurred fault comprises:

sending a corresponding fault notification message to fault handlers in a corresponding level for the generated fault;

after the step of sending the corresponding fault notification message to the occurred fault, the method further includes: and judging whether the generated fault is removed after a first time threshold value, and if not, sending a fault notification message to a fault handler at the upper level.

5. The process of claim 3,

the step of judging whether each type of fault occurs further comprises the following steps:

and judging whether the generated fault is a repeatedly generated fault, if not, sending a corresponding fault notification message to the generated fault, and recording fault data corresponding to the generated fault in the cloud platform.

6. A system for processing fault information of a power swapping station device, the system comprising: the system comprises an operation information acquisition module and a fault information generation module;

the operation information acquisition module is used for acquiring operation information of the power station replacing equipment, and the operation information is used for representing whether various types of faults occur in the power station replacing equipment;

the fault information generation module is used for determining the value of each code bit of the first machine code according to the corresponding relation between the running information and each preset type of fault and each code bit of the first machine code, and generating fault information of the power station changing equipment according to the first machine code, wherein the fault information comprises a second machine code, and the second machine code is generated by the first machine code through a binary conversion rule.

7. The processing system of claim 6,

the operation information further comprises the equipment type, the equipment number, the bin number and the fault acquisition time of the power station changing equipment;

the fault information generating module is further used for generating the fault information according to the operation information, wherein the fault information comprises field information corresponding to the equipment type, the equipment number, the bin number and the fault acquisition time of the power station replacing equipment;

and/or the presence of a gas in the gas,

the first machine code is binary, and the second machine code is hexadecimal.

8. The processing system of claim 7, wherein the processing system further comprises: the device comprises a sending module, a conversion module and a fault judgment module;

the sending module is used for sending the fault information to a cloud platform;

the conversion module is used for converting the second machine code in the fault information into the first machine code through a binary conversion rule;

and the fault judgment module is used for judging whether various types of faults occur according to the converted first machine code and sending corresponding fault notification messages to the faults.

9. The processing system of claim 8, wherein the processing system further comprises: the system comprises a processor setting module, a fault grade setting module, a grade matching module and a releasing judgment module;

the processor setting module is used for setting fault processors in different levels;

the fault grade setting module is used for setting the fault grade corresponding to each type of fault;

the grade matching module is used for setting the corresponding relation between the grade of the fault handler and the fault grade;

the fault judgment module is also used for sending a corresponding fault notification message to a fault handler at a corresponding level for the fault and calling the release judgment module;

the release judging module is used for judging whether the generated fault is released after the first time threshold value is passed, and if the generated fault is not released, sending a fault notification message to a fault handler at the upper level.

10. The processing system of claim 8, wherein the failure determining module is further configured to determine whether the occurred failure is a repeatedly occurred failure after determining whether each type of failure occurs, and if not, send a corresponding failure notification message to the occurred failure and record failure data corresponding to the occurred failure in the cloud platform.

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