CN113240891A

CN113240891A - Equipment alarm information push system

Info

Publication number: CN113240891A
Application number: CN202110572844.3A
Authority: CN
Inventors: 罗迪; 郭巍
Original assignee: Ningbo Jintian Copper Group Co Ltd
Current assignee: Ningbo Jintian Copper Group Co Ltd
Priority date: 2021-05-25
Filing date: 2021-05-25
Publication date: 2021-08-10

Abstract

The invention provides an equipment alarm information pushing system, which comprises: the pushing management module is used for configuring and storing at least one device to be pushed and the pushing personnel and the pushing template related to the device to be pushed; the alarm database is used for acquiring and storing first alarm information of a plurality of devices; the first processing module is used for filtering the first alarm information to be used as the alarm information to be pushed when the first alarm information corresponding to the equipment to be pushed is obtained through matching; the second processing module is used for outputting second alarm information and taking the second alarm information as the alarm information to be pushed when the acquired real-time monitoring data of each device to be pushed meets a preset trigger condition; and the alarm pushing module is used for generating a pushing scheme according to the corresponding to-be-pushed alarm information and the pushing template and pushing the pushing scheme to the associated pushing personnel when the pushing state of the to-be-pushed alarm information meets the preset pushing condition. The beneficial effects are that can be with equipment alarm information real-time propelling movement to corresponding propelling movement personnel, realize the real time monitoring to equipment.

Description

Equipment alarm information push system

Technical Field

The invention relates to the technical field of equipment operation monitoring, in particular to an equipment alarm information pushing system.

Background

With the development of science and technology, various industries are generally provided with corresponding monitoring systems to monitor and control various devices. Alarm information which possibly occurs in the running process of the equipment can be obtained through the monitoring system, and the alarm information of the equipment is effectively monitored, so that timely maintenance of the equipment which breaks down is facilitated. With the continuous increase of various device acquisition points, the demand of data application is continuously increased, and a plurality of development demands for the real-time monitoring function of the key device are newly added.

The monitoring mode in the past mainly shows two kinds of modes with on-the-spot electronic screen and remote webpage, looks over in real time by the control scheduling personnel, because these two kinds of modes have the defect in the aspect of real-time and directive property, can't inform appointed department staff with the abnormal conditions of field device or application the very first time, in the aspect of process management and control, have certain risk.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an equipment alarm information pushing system, which comprises:

the system comprises a pushing management module, a pushing module and a pushing module, wherein the pushing management module is used for configuring and storing a pushing equipment set, the pushing equipment set comprises at least one device to be pushed, and each device to be pushed is associated with at least one pushing person and a pushing template;

the alarm database is used for acquiring and storing first alarm information of a plurality of devices;

the first processing module is respectively connected with the pushing management module and the alarm database and is used for filtering the first alarm information when the corresponding first alarm information is obtained by matching in the alarm database aiming at each device to be pushed, and adding the filtered first alarm information serving as the alarm information to be pushed into an alarm cache set;

the second processing module is connected with the pushing management module and used for acquiring real-time monitoring data of each device to be pushed, outputting second alarm information when the real-time monitoring data meets a preset trigger condition, and adding the second alarm information serving as the alarm information to be pushed into the alarm cache set;

the alarm pushing module is respectively connected with the pushing management module, the first processing module and the second processing module and used for respectively counting each pushing state of the alarm information to be pushed in the alarm cache set, and when the pushing state meets a preset pushing condition, corresponding pushing schemes are generated according to the corresponding alarm information to be pushed and the pushing template and are pushed to the related pushing personnel.

Preferably, the pushing management module is further configured with a pushing personnel set and a pushing template set, the pushing personnel is stored in the pushing personnel set, and the device to be pushed, the pushing personnel and the pushing template are associated with each other to form an association relationship.

Preferably, the push management module provides a configuration port for a device administrator to configure the push device set, the push personnel set, the push template set, and the association relationship.

Preferably, the first alarm information includes a preset alarm grade;

the first processing module comprises:

the matching unit is used for acquiring a first pushing frequency of the first alarm information when the corresponding first alarm information is obtained by matching in the alarm database aiming at each device to be pushed;

the first filtering unit is connected with the matching unit and used for adding the first alarm information serving as non-pushed alarm information into the alarm cache set when the first pushing times are larger than a preset first preset times and outputting a filtering signal when the first pushing times are not larger than the first preset times;

and the second filtering unit is connected with the first filtering unit and used for judging that the alarm grade is not higher than a preset standard grade according to the filtering signal, taking the first alarm information as the non-pushing alarm information to be added into the alarm cache set, and taking the first alarm information as the to-be-pushed alarm information to be added into the alarm cache set when the alarm grade is higher than the standard grade.

Preferably, the second processing module includes:

the first processing unit is used for acquiring the real-time monitoring data of each device to be pushed, outputting second alarm information when the real-time monitoring data meets the trigger condition for the first time, adding the second alarm information serving as the alarm information to be pushed into the alarm cache set, and configuring an identification bit associated with the real-time monitoring data into a cache state identification representing that the second alarm information is cached;

the second processing unit is connected with the first processing unit and used for discarding the corresponding second alarm information when the real-time monitoring data meets the triggering condition again and the identification bit is the cache state identifier for each piece of real-time monitoring data, and configuring the identification bit into a reset state identifier which represents that the real-time monitoring data is reset when the real-time monitoring data does not meet the triggering condition for the first time after meeting the triggering condition for the first time;

in the first processing unit, the identification bit is the reset state identification, and when the real-time monitoring data meets the trigger condition, the real-time monitoring data indicates that the trigger condition is met by the real-time monitoring data for the first time.

Preferably, the second processing module further comprises:

the third processing unit is connected with the first processing unit and used for outputting reset prompt information when the real-time monitoring data does not meet the triggering condition for the first time after meeting the triggering condition;

and the fourth processing unit is connected with the third processing unit and used for taking the reset prompt information as the alarm information to be pushed to be added into the alarm cache set when the fact that the equipment to be pushed corresponding to the real-time monitoring data is pre-configured with a reset pushing demand is judged.

Preferably, in the alarm pushing module, when the pushing state is that the corresponding alarm information to be pushed is not pushed or has been pushed for a second pushing time and the second pushing time is less than a second preset time, it indicates that the pushing state meets the pushing condition.

Preferably, each piece of alarm information to be pushed in the alarm cache set is configured with a pushing identification bit, and the alarm pushing module counts the pushing state of the alarm information to be pushed according to the value of the pushing identification bit.

Preferably, the alarm pushing module includes a log recording unit, and is configured to record, in real time, pushing information of the alarm information to be pushed, and add the pushing information into a log record set for storage.

Preferably, the alarm pushing module further includes an alarm statistical unit, connected to the log recording unit, and configured to perform statistical analysis on the pushing information in the log record set according to a statistical instruction to obtain a corresponding statistical analysis result, so that the pushing information can be viewed by an equipment manager.

The technical scheme has the following advantages or beneficial effects:

1) the equipment alarm information can be pushed to corresponding pushers in real time, so that the equipment can be monitored in real time;

2) on the basis of an inherent alarm database of the equipment, the port for acquiring, alarming, triggering and pushing the real-time monitoring data flexibly configured according to the requirements is provided, so that the actual application requirements of the equipment are better met, and the monitoring information is more comprehensive.

Drawings

Fig. 1 is a schematic structural diagram of an equipment alarm information pushing system in a preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In a preferred embodiment of the present invention, based on the above problems in the prior art, there is provided an equipment alarm information pushing system, as shown in fig. 1, including:

the system comprises a push management module 1, a push module and a push module, wherein the push management module is used for configuring and storing a push equipment set, the push equipment set comprises at least one device to be pushed, and each device to be pushed is associated with at least one pushing person and a pushing template;

the alarm database 2 is used for acquiring and storing first alarm information of a plurality of devices;

the first processing module 3 is respectively connected with the pushing management module 1 and the alarm database 2, and is used for filtering the first alarm information when the corresponding first alarm information is obtained by matching in the alarm database for each device to be pushed, and adding the filtered first alarm information as the alarm information to be pushed into an alarm cache set;

the second processing module 4 is connected with the pushing management module 1, and is used for acquiring real-time monitoring data of each device to be pushed, outputting second alarm information when the real-time monitoring data meets a preset trigger condition, and adding the second alarm information serving as the alarm information to be pushed into the alarm cache set;

the alarm pushing module 5 is respectively connected with the pushing management module 1, the first processing module 3 and the second processing module 4, and is used for respectively counting the pushing state of each piece of alarm information to be pushed in the alarm cache set, and generating a corresponding pushing scheme according to the corresponding alarm information to be pushed and the pushing template and pushing the scheme to the associated pushing personnel when the pushing state meets a preset pushing condition.

Specifically, in this embodiment, the first alarm information stored in the alarm database 2 may be general alarm information configured in advance by a device vendor of the corresponding device or another third party, in other words, in the using process of the device, only the configured first alarm information may be monitored. At this moment, if the monitoring of other data of the equipment except the first alarm information needs to be performed, the equipment needs to be assisted by an equipment supplier or other third parties or configured in the alarm database 2, the operation is complex, and the configuration personnel have higher configuration capability requirements.

Preferably, in the alarm database 2, the first alarm information of each device may be stored separately through a sub-database, and the database type of the sub-database includes, but is not limited to, a relational database.

Preferably, each device corresponding to the first alarm information stored in the alarm database 2 may include or partially include a device to be pushed in the pushing device set, and may specifically be configured according to a pushing requirement. If there are four devices in use, if there is an abnormality in the use process, the first alarm information of the four devices is usually acquired and stored in the alarm database 2. According to the production requirement, if two of the key devices are used as the key devices, the two key devices need to be pushed in real time when the two key devices are abnormal, the two key devices can be configured in a pushing device set, when first alarm information corresponding to the two key devices is obtained through matching in an alarm database, the first alarm information is further processed and pushed, in addition, the two devices give alarms in time and are stored in an alarm database 2, the pushing cannot be carried out, the pushed alarm information received by pushing personnel is more effective, the pushing of excessive useless alarm information is avoided, and troubles are caused to the pushing personnel or the alarm information of the pushing personnel omitting the key devices is avoided.

As a preferred embodiment, the pushing management module 1 is further configured with a pushing personnel set and a pushing template set, the pushing personnel is stored in the pushing personnel set, and the device to be pushed, the pushing personnel and the pushing template are associated with each other to form an association relationship.

In a preferred embodiment of the present invention, the pushing management module 1 provides a configuration port 11 for the device administrator to configure the pushing device set, the pushing personnel set, the pushing template set and the association relationship.

Specifically, in the present embodiment, the configuration change is performed by the device administrator conveniently by separately storing the pushing personnel, the device to be pushed, and the pushing template and providing the corresponding configuration port 11. The pushing template can contain three parts of contents, wherein one part is a blank template frame of a pushing person to be filled, one part is a blank template frame of pushing equipment to be filled, one part can be a blank template frame of alarm information to be filled, in addition, templates including parameters such as pushing sentences, pushing periods, pushing delay and the like can be configured in advance, and after the association relation is determined, the corresponding equipment to be pushed, the pushing person to be pushed and the corresponding alarm information can be respectively filled into the blank template frames to form a pushing scheme. For each pushing scheme, the number of corresponding people to be pushed can be one or more.

Preferably, the further processing and pushing of the first alarm information may be filtering by setting a certain filtering condition, so as to avoid repeated pushing of the alarm information and further filtering of irrelevant alarm information, and specifically, the first alarm information includes an alarm level obtained by pre-configuration;

the first processing module 3 comprises:

the matching unit 31 is used for acquiring a first pushing frequency of the first alarm information when the corresponding first alarm information is obtained by matching in the alarm database for each device to be pushed;

the first filtering unit 32 is connected to the matching unit 31, and is configured to add the first alarm information as non-pushed alarm information to the alarm cache set when the first pushing frequency is greater than a preset first preset frequency, and output a filtering signal when the first pushing frequency is not greater than the first preset frequency;

and the second filtering unit 33 is connected to the first filtering unit 32, and is configured to add the first alarm information as non-push alarm information to the alarm cache set when it is determined that the alarm level is not higher than a preset standard level according to the filtering signal, and add the first alarm information as alarm information to be pushed to the alarm cache set when the alarm level is higher than the standard level.

Specifically, in this embodiment, for each device to be pushed, although the generated first alarm information needs to be notified to the corresponding pushing personnel in time, since the first alarm information may further include invalid alarm information such as a conventional alarm that does not affect the operation of the device or frequent pushing of the same alarm information, the first alarm information needs to be filtered to further extract valid alarm information for pushing.

Preferably, the filtering operation may be performed according to a pushing number, where the first pushing number is used to indicate a pushed number of the first alarm information, and the first preset number may be configured by itself, and is usually 1, that is, each piece of first alarm information is only allowed to be pushed once in a cycle, and if the first alarm information is pushed once in the cycle, the first alarm information is only cached and is not pushed, on one hand, the first alarm information can be saved for subsequent viewing and analysis, and on the other hand, frequent pushing is avoided. Preferably, the first preset number may be configured to be a value greater than 1, and in particular, for a key device, the pushing is allowed to be repeated within a limited range of the first preset number. The above circulation includes that the first alarm information is received for the first time, the first alarm information is recovered to be normal, then the first alarm information is received for the first time, the first alarm information is recovered to be normal, and so on.

After filtering is carried out once according to the pushing times, invalid alarm information such as regular alarm and the like is further filtered, namely the first alarm information is the first pushed alarm information but may be invalid alarm information. In this embodiment, the filtering of the invalid alarm information is performed by configuring an alarm level for each piece of first alarm information in advance, and more preferably, the content of the first alarm information may also be identified, if the content of the first alarm information contains chinese, it indicates that the alarm level of the first alarm information is higher than a standard level, at this time, the first alarm information is added to an alarm cache set as the alarm information to be pushed, and if not, the first alarm information is cached only and does not perform pushing operation.

Specifically, for real-time monitoring data, one or more corresponding monitoring data acquisition devices including, but not limited to, a temperature sensor, a pressure sensor, and the like may be installed on the device to be pushed according to requirements. After receiving the real-time monitoring data, the second processing module 4 firstly determines whether the real-time monitoring data meets a preset trigger condition, and outputs corresponding second alarm information when the real-time monitoring data meets the preset trigger condition, so as to perform push control. Taking the real-time temperature acquired by the real-time monitoring data as the temperature sensor as an example, the corresponding triggering condition may be a preset temperature range, the real-time temperature in the temperature range indicates that the real-time monitoring data meets the triggering condition, the second alarm information output at this time may be temperature overrun alarm information, the real-time temperature out of the temperature range indicates that the real-time monitoring data does not meet the triggering condition, and the real-time temperature is in a normal state at this time. Preferably, the triggering condition corresponds to real-time monitoring data, and the triggering condition includes, but is not limited to, out-of-bounds, unchanged timeout value, abnormal data connection, and other customized triggering conditions.

Further specifically, to avoid repeated pushing of the second alarm information, the second alarm information also needs to be filtered, and as a preferred embodiment, the second processing module 4 includes:

the first processing unit 41 is configured to acquire real-time monitoring data of each device to be pushed, output second alarm information when the real-time monitoring data first meets a trigger condition, add the second alarm information as the alarm information to be pushed into an alarm cache set, and configure an identification bit associated with the real-time monitoring data as a cache state identification indicating that the second alarm information is cached;

the second processing unit 42 is connected to the first processing unit 41, and is configured to discard, for each piece of real-time monitoring data, corresponding second alarm information when the real-time monitoring data satisfies the trigger condition again and the identification bit is the buffer status identifier, and configure the identification bit as a reset status identifier indicating that the real-time monitoring data has been reset when the real-time monitoring data does not satisfy the trigger condition for the first time after the real-time monitoring data satisfies the trigger condition for the first time;

in the first processing unit 41, the flag bit is a reset status flag, and when the real-time monitoring data meets the trigger condition, it indicates that the real-time monitoring data meets the trigger condition for the first time.

Specifically, in this embodiment, still taking the real-time monitoring data as the real-time temperature as an example, when the real-time temperature is received, it may be determined whether the real-time temperature meets the trigger condition, in other words, whether the real-time temperature is within a preset temperature range, if not, the real-time temperature meets the trigger condition, then the corresponding flag bit may be checked, if the flag bit is a buffer status flag, it is indicated that the corresponding temperature overrun alarm information has been buffered in the alarm buffer set for pushing, that is, the temperature overrun alarm information has appeared and has been buffered before, and the buffer does not need to be repeated, in other words, the trigger condition is not met for the first time, the temperature overrun alarm information is discarded for non-processing, when the trigger condition is met, the corresponding flag bit is a reset status flag, which indicates that the real-time temperature received before is within the temperature range, the condition that the triggering condition is met at this time is that the triggering condition is met for the first time, and at this time, the second alarm information is used as alarm information to be pushed and added into the alarm cache set, and the reset state identifier is updated to be the cache state identifier. After receiving the real-time temperature, judging that the real-time temperature does not meet a trigger condition, namely the real-time temperature is in a preset temperature range, namely the received real-time temperature is normal data, then checking a corresponding identification bit, if the identification bit is a cache state identification, indicating that the real-time temperature is over-limit but is recovered to be normal before, and at the moment, configuring the identification bit into a reset state identification representing that the real-time monitoring data is reset; if the real-time temperature is normal data and the identification bit is a reset state identification, the real-time temperature is continuously normal, and alarm pushing is not needed.

Further, to the condition that real-time monitoring data recovers to be normal after being abnormal, for the key device, the push personnel may not only need to obtain the alarm information that it appears to be abnormal in real time, but also need to obtain the prompt information that it recovers to be normal in real time, and then as preferred implementation, second processing module 4 further includes:

the third processing unit 43 is connected to the first processing unit 41, and is configured to output a reset prompt message when the real-time monitoring data does not satisfy the trigger condition for the first time after satisfying the trigger condition;

and the fourth processing unit 44 is connected to the third processing unit 43, and configured to add the reset prompt information as the alarm information to be pushed into the alarm cache set when it is determined that the device to be pushed corresponding to the real-time monitoring data is preconfigured with the reset pushing requirement.

Specifically, in this embodiment, since not all the real-time monitoring data of the device need to be pushed after being abnormal, for the device to be pushed that needs to be pushed for resetting, the reset prompt information can be pushed in a manner of pre-configuring the reset push requirement when the real-time monitoring data of the device to be pushed is in the state of being abnormal before being normal and the reset push requirement is configured.

In a preferred embodiment of the present invention, in the alarm pushing module 5, when the pushing status is that the corresponding alarm information to be pushed is not pushed or has been pushed for a second pushing time and the second pushing time is less than a second preset time, it indicates that the pushing status satisfies the pushing condition.

In a preferred embodiment of the present invention, each piece of alarm information to be pushed in the alarm cache set is configured with a pushing identification bit, and the alarm pushing module counts the pushing state of the alarm information to be pushed according to the value of the pushing identification bit.

Specifically, in this embodiment, the pushing identifier may configure a value according to a second preset number of times, if the to-be-pushed alarm information is not pushed, the value of the pushing identifier may be set to 0, and if the to-be-pushed alarm information is pushed once, the value of the pushing identifier is set to 1, and so on.

In the preferred embodiment of the present invention, the alarm pushing module 5 includes a log recording unit 51, configured to record the pushing information of the alarm information to be pushed in real time, and add the pushing information into a log record set for storage.

Specifically, in this embodiment, the pushing information may include the to-be-pushed device and the pushing time of the to-be-pushed alarm information corresponding to the to-be-pushed device, and a log record may be generated correspondingly every time the to-be-pushed alarm information is pushed, so as to perform data tracing and the like subsequently.

In a preferred embodiment of the present invention, the alarm pushing module 5 further includes an alarm statistics unit 52 connected to the log recording unit 51, and configured to perform statistical analysis on the pushed information in the log record set according to a statistics instruction to obtain a corresponding statistical analysis result, so that the pushed information can be checked by a device manager.

Specifically, in this embodiment, the statistical analysis may be to count the pushing times, the pushing frequency, and the like of each alarm information to be pushed according to the log records, and the specific presentation manner of the statistical analysis result may be presented in a graph manner, or in a change trend curve manner, but is not limited to the two presentation manners. The statistical instruction may be an automatic statistical instruction, such as a statistical analysis result output generated automatically every week or every month, or a statistical instruction input externally by a device manager.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. An equipment alarm information pushing system, comprising:

2. The equipment alarm information pushing system according to claim 1, wherein a pushing staff set and a pushing template set are further configured in the pushing management module, the pushing staff is stored in the pushing staff set, and the equipment to be pushed, the pushing staff and the pushing template are associated with each other to form an association relationship.

3. The equipment alarm information pushing system of claim 2, wherein the pushing management module provides a configuration port for an equipment administrator to configure the pushing equipment set, the pushing personnel set, the pushing template set, and the association relationship.

4. The device alarm information pushing system of claim 1, wherein the first alarm information includes a preconfigured alarm level;

the first processing module comprises:

5. The device alarm information pushing system of claim 1, wherein the second processing module comprises:

6. The device alarm information pushing system according to claim 5, wherein the second processing module further includes:

7. The equipment alarm information pushing system of claim 1, wherein in the alarm pushing module, when the pushing state is that the corresponding alarm information to be pushed is not pushed or has been pushed for a second pushing number of times and the second pushing number of times is smaller than a second preset number of times, it indicates that the pushing state satisfies the pushing condition.

8. The device alarm information pushing system according to claim 7, wherein each piece of the alarm information to be pushed in the alarm cache set is configured with a pushing identification bit, and the alarm pushing module counts the pushing state of the alarm information to be pushed according to a value of the pushing identification bit.

9. The device alarm information pushing system of claim 1, wherein the alarm pushing module includes a log recording unit, and is configured to record pushing information of the alarm information to be pushed in real time, and add the pushing information into a log record set for storage.

10. The equipment alarm information pushing system of claim 9, wherein the alarm pushing module further comprises an alarm statistical unit, connected to the log recording unit, and configured to perform statistical analysis on the pushed information in the log record set according to a statistical instruction to obtain a corresponding statistical analysis result, so that an equipment manager can check the pushed information.