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CN-121995874-A - Deployment method and device of factory-level alarm system, electronic equipment and storage medium

CN121995874ACN 121995874 ACN121995874 ACN 121995874ACN-121995874-A

Abstract

The invention provides a deployment method of a factory-level alarm system, which comprises the steps of constructing a factory model of a whole factory level according to a factory department architecture or business object nodes, wherein the factory model comprises a plurality of levels, each level at least comprises one sub-model, the sub-models of different levels have a mapping relation, instrument equipment data are imported and bound to the corresponding sub-models, instrument table numbers are newly built and bound to the corresponding sub-models and instrument equipment, instrument number positions and collector position numbers are in one-to-one correspondence, and a whole factory face diagram is built based on a configuration alarm platform, and each component is bound to the corresponding sub-model, instrument equipment and instrument position numbers. According to the technical scheme, the core concept of the factory equipment object is established, and the alarm information of the instrument position numbers bound with the factory equipment object is aggregated upwards, so that the equipment becomes a comprehensive alarm state indicator, and an operator can quickly master the overall operation health condition of the equipment from a macroscopic level.

Inventors

  • WU DAQIANG
  • ZHONG SHIPING
  • YANG DAPENG
  • SHEN LIBIN

Assignees

  • 中控技术股份有限公司
  • 宁波工业互联网研究院有限公司

Dates

Publication Date
20260508
Application Date
20251229

Claims (10)

  1. 1. A method of deploying a factory level alarm system, comprising: constructing a factory model of a whole factory level according to a factory department architecture or business object nodes, wherein the factory model comprises a plurality of levels, each level at least comprises a sub-model, and mapping relations are arranged among the sub-models of different levels; importing instrument equipment data and binding the instrument equipment data to the corresponding sub-model; newly creating an instrument epitope number and binding the instrument epitope number to the corresponding sub-model and the corresponding instrument equipment, wherein the instrument number corresponds to the collector number one by one; Based on the configuration alarm platform, a whole factory face map is established, and each component binds the corresponding sub-model, the corresponding instrument equipment and the corresponding instrument position number.
  2. 2. A method of deploying a plant-level alarm system of claim 1 wherein the method further comprises: and setting alarm conditions for each instrument position number, wherein the alarm conditions comprise one or a combination of a plurality of simple threshold value alarms, alarm frequency, alarm delay, alarm dead zone, linear alarms, alarms which are not eliminated after confirmation and high and low amplitude alarms.
  3. 3. A method of deploying a factory level alarm system as claimed in claim 2, wherein said building of a factory model of a full factory level from business object nodes is performed by sequentially building said hierarchy in a scene-major-sub-major order.
  4. 4. The deployment method of a factory level alarm system of claim 2, wherein said building a factory model of a full factory level according to a factory floor architecture builds said hierarchy from top to bottom according to a factory floor-department-device-unit order.
  5. 5. A method of deploying a factory level alarm system as defined in any one of claims 1 to 4 wherein the settings for the instrument device comprise a device number, a device name, a device type, a specification model, a location number, a factory area, a factory model, a functional location, a technology identification, a category, a device.
  6. 6. A method of deploying a factory level alarm system as defined in any one of claims 1-4 wherein the setting of the meter location number further comprises a location number name, a location number description, a meter control location number, a priority, a factory model, a device, whether to enable a location number alarm, a location number type.
  7. 7. A method of deploying a factory level alarm system as claimed in any one of claims 1 to 4, wherein the factory wide map is depth-blended from alarm status to visual configuration map and the health status of the instrument device is differentiated by different colours.
  8. 8. A deployment apparatus for a factory level alarm system, comprising: a factory model unit, configured to construct a factory model of a full factory level according to a factory department architecture or a business object node, where the factory model includes a plurality of levels, and each level includes at least one sub-model; The data input unit is used for importing instrument equipment data and binding the instrument equipment data to the corresponding submodel, and is used for binding a newly built instrument epitope number to the corresponding submodel and the instrument equipment, wherein the instrument number and the collector number are in one-to-one correspondence; The configuration display unit is used for establishing a whole factory face diagram based on the configuration alarm platform, and each component binds the corresponding sub-model, the corresponding instrument equipment and the corresponding instrument position number.
  9. 9. An electronic device comprising a memory and a processor; The memory is used for storing a computer program; the processor, when executing the computer program, is adapted to implement a method of deploying a factory level alarm system as defined in any one of claims 1 to 7.
  10. 10. A computer readable storage medium, characterized in that the storage medium has stored thereon a computer program which, when executed by a processor, implements a method of deploying a plant-level alarm system according to any of claims 1 to 7.

Description

Deployment method and device of factory-level alarm system, electronic equipment and storage medium Technical Field The invention relates to the technical field of equipment alarm, in particular to a deployment method and device of a factory-level alarm system, electronic equipment and a storage medium. Technical Field In modern industrial automation systems, in particular in the field of petrochemical, electrical, metallurgical and other process industries, stable operation of plant equipment is of paramount importance. In order to ensure production safety and efficiency, data acquisition and monitoring Systems (SCADA) or Distributed Control Systems (DCS) are commonly employed to monitor data of a large number of sensors and meters in real time. When the data exceeds a preset safety range, the system can trigger an alarm to remind operators to process in time. Although there are many automated alarm control schemes currently, there are several drawbacks to the general: (1) The alarm is isolated and the information aggregation is lacking. A device may have multiple key parameters (e.g., temperature, pressure, vibration), each of which may be independently alerted. The operator needs to manually correlate this information in multiple discrete alarm lists to determine the overall health of the device, which greatly increases the workload and the risk of misjudgment. For example, a high bearing temperature alarm and a large vibration alarm of a pump occur simultaneously, which is much more severe than a single alarm, but existing systems are generally unable to automatically correlate and upgrade the alarms of these two sites to a comprehensive alarm of "pump failure". (2) alarm configuration flexibility is insufficient. While there are both general alarms and simple advanced alarms (e.g., rate of change), support for more complex scenarios is limited. For example, a mechanism for effectively supervising the handling of the remaining problems, such as "no alarm after confirmation", is not built in many conventional systems, and the scene of "straight line alarm" for detecting sensor jamming or communication interruption is often ignored. And (3) visualization and operation and maintenance disjointing. Alarm information is typically displayed in a tabular alarm window, while the physical layout and equipment structure of the plant are represented on a configuration map, both of which are fractured. The operator needs to frequently switch between the configuration diagram and the alarm list, and cannot intuitively see which equipment is alarming on one diagram, so that the monitoring efficiency is reduced. (4) the model driving ability is weak. The existing system rarely establishes a clear whole-factory-level object model, and inherits, aggregates and displays alarms based on the model. This results in existing alarm systems that are difficult to accommodate for changes in plant architecture and do not facilitate precipitation and reuse of knowledge. Technical content The present invention aims to solve at least one of the above technical problems. In order to solve the problems, the invention provides a deployment method and device of a factory-level alarm system, electronic equipment and a storage medium. In a first aspect, the present invention provides a method for deploying a factory level alarm system, comprising: constructing a factory model of a whole factory level according to a factory department architecture or business object nodes, wherein the factory model comprises a plurality of levels, each level at least comprises a sub-model, and mapping relations are arranged among the sub-models of different levels; importing instrument equipment data and binding the instrument equipment data to the corresponding sub-model; newly creating an instrument epitope number and binding the instrument epitope number to the corresponding sub-model and the corresponding instrument equipment, wherein the instrument number corresponds to the collector number one by one; Based on the configuration alarm platform, a whole factory face map is established, and each component binds the corresponding sub-model, the corresponding instrument equipment and the corresponding instrument position number. Optionally, the method further comprises setting an alarm condition for each instrument position number, wherein the alarm condition comprises one or a combination of a plurality of simple threshold alarm, alarm frequency, alarm delay, alarm dead zone, straight line alarm, alarm not eliminated after confirmation and fluctuation range alarm. Optionally, the factory model of the whole factory level is built according to the service object nodes, and the hierarchy is built according to the sequence of scene-specialty-sub-specialty. Optionally, the factory model of the whole factory level is built according to the factory department architecture, and the hierarchy is built from top to bottom according to the sequence of 'factory depar