TWM616363U - Plant management system - Google Patents

Abstract

This creation is about a plant management system, mainly through the central control host to control the warehouse management system, AI system, car dispatch system, maintenance system, safety management system, monitoring system, equipment pipeline configuration system, data collection system, and blue book system. , So that managers can directly control the work of each system through the central control host, and at the same time, collaborative work will be formed between the systems. For example, when the monitoring system detects an abnormal state, the safety management system will be notified, and the safety management system can directly Assign personnel to handle it, or send it to the central control host, and the central control host’s management staff will send someone to deal with the situation after understanding the situation. When the situation is serious, the safety management system will also immediately initiate relevant measures and send an escape route to the communication device to instruct personnel to escape.

Description

Plant management system

This creation is about a management system, especially a plant management system.

As the scale of the factory becomes larger, more and more management systems will be required. However, the general management system only has a single function, such as warehouse management system, machine monitoring system, personnel management system, etc. These systems cannot form a collaborative operation, which makes the management very troublesome. Therefore, the author believes that it should be There is a management system that can control various functions at the same time, and at the same time exert the effect of collaborative operation, so that the entire management system can exert the maximum effect. At this point, the creator of this book began to think about solutions.

In view of the shortcomings described in the previous technology, the author proposes a solution, which is related to a plant management system, including: A central control host, the central control host information links a warehouse management system, an AI system, a dispatching system, a maintenance system, a safety management system, a monitoring system, an equipment pipeline configuration system, a data collection system, a Communication device, and a blue book system for the central control host and the warehouse management system, the AI system, the vehicle dispatch system, the maintenance system, and the safety The management system, the monitoring system, the equipment pipeline configuration system, the data collection system, the communication device, and the blue book system work together, and the central control host can display the operating status of each system, and the communication device can provide Workers wear; the monitoring system includes a detection unit, the detection unit can be installed in the plant, when the detection unit determines that an abnormal situation occurs in the plant, an abnormal signal is sent to the safety management system; the safety management system According to the abnormal message, send an abnormal location information and an abnormal type information to the communication device; when the safety management system judges that it is difficult to deal with it in a timely manner based on the abnormal information, it calculates a better escape based on the location distribution map of the personnel in the factory And send an escape route map to the communication device; the monitoring screen of the central control host presents an alarm screen.

This creation can control the warehouse management system, the AI system, the car dispatch system, the maintenance system, the safety management system, the monitoring system, the equipment pipeline configuration system, the data collection system, and the The Blue Book system makes management very convenient. At the same time, various systems can be used for collaborative operation to produce maximum efficiency. For example, the monitoring system will form a collaborative operation with the safety management system. When the monitoring system determines that there is In an emergency, the safety management system can send a message to the communication device to remind the responsible personnel to proceed, and also to the central control host for reminding the management personnel to pay attention or dispatch personnel to handle it. When it is judged that the situation is serious, the escape route is quickly transmitted through the communication device to evacuate the personnel in the factory.

A: Central control host

A1: Monitor screen

A2: Communication device

A3: Control panel

A4: Input unit

A5: Siren

1: Warehouse Management System

2: AI system

3: Dispatch system

4: Maintenance system

5: Safety management system

51: Earthquake Alarm

52: Fire detection unit

53: Toxic gas detection unit

54: position detection unit

6: Monitoring system

61: Image detection unit

62: Sound detection unit

63: Vibration detection unit

8: Equipment pipeline configuration system

9: Data collection system

0: Blue Book System

G1: System interface schematic screen

G2: System interface schematic screen

G3: System interface schematic screen

Figure 1 is a schematic diagram of the connection of each component of this creation

Figure 2 is a schematic diagram of the creative monitoring screen display 1

Figure 3 is a schematic diagram of the creative monitoring screen display 2

With the aid of the diagrams, the structure, characteristics and embodiments of the new creation are explained below, so that your examiners can have a better understanding of the creation of the new model.

Please refer to Figure 1. This creation mainly includes a central control host A, and the information of the central control host A is linked to a warehouse management system 1, an AI (Artificial Intelligence) system 2, a car dispatch system 3, and a maintenance Maintenance system 4, a safety management system 5, a monitoring system 6, an equipment pipeline configuration system 8, a data collection system 9, and a blue book system 0 for the central control host A and the warehouse management system 1, the AI The system 2, the dispatching system 3, the maintenance system 4, the safety management system 5, the monitoring system 6, the equipment pipeline configuration system 8, the data collection system 9, and the blue book system 0 perform collaborative operations. The included subsystems are not limited by the above disclosure. The central control host A includes a monitoring screen A1, a communication device A2, a control panel A3 and other components, but it is not limited to this, so that the administrators who manage the central control host can monitor the system through the central control host. Actions to assist and manage plant personnel.

First, let’s introduce storage-related functions. The warehouse management system 1 will constantly detect the stock and output status of raw materials in the warehouse, and return the detection results to the central control host A, and make a chart for recording , And get a first inventory data and a raw material output data, so that the management personnel can grasp the storage status through the monitoring screen A1, so that the management personnel can mobilize and supplement the raw materials according to the storage status. In addition, the warehouse management system 1 can further estimate based on the first inventory data and the raw material output data to predict when the raw materials in the warehouse will be consumed, and when the consumed time is less than a first estimate When the time is set, the warehouse management system 1 will send a raw material warning message to the central control host A to remind the management personnel to pay attention. In addition, the warehouse management system 1 will also record various indicators in the warehouse, such as temperature, humidity, vibration, and consumable inventory (such as filters, filters) and other data, and send these data back to the central control host A and make it into Records for managers to judge whether they need to be controlled and processed. In addition, the warehouse management system 1 mentioned above can also be used in conjunction with the AI system. The AI system is mainly based on the The first inventory data and the raw material output data are learned, and the estimation of the raw material consumption rate of the warehouse management system 1 is adjusted, so that the warehouse management system 1 can more accurately estimate the time when the raw materials are consumed.

The warehousing-related functions also include supplementing and detecting the raw materials in the machine, but not as a limitation. This part is mainly to collect the working status of each machine through the data collection system 9 to obtain a The second inventory data and a working status data are sent to the central control host A for management personnel to determine how to deal with it. For example, when the management personnel determine that the raw material inventory in the machine is insufficient based on the second inventory data , You can control the dispatching system 3 to transport raw materials in the warehouse to the machine by operating the control panel A3, or you can contact related personnel through the communication device A2 to supplement the raw materials, and the AI system 2 can also be used, Use artificial intelligence to learn according to the work status data, learn a raw material digestion rate data, and then estimate the time when the raw materials in the machine are exhausted based on the raw material digestion rate data and the inventory data. When the exhausted time is less than a second preset time, the vehicle dispatching system 3 is automatically controlled to transport the raw materials to the machine in the warehouse to complete the automatic raw material replenishment function, and the dispatching time and the raw materials Information such as the replenishment amount, the machines to be replenished, etc. will be made into dispatch data and sent to the central control host A for storage. In addition, the management personnel can also control the movement route of the dispatch system 3 or related emergency dispatch through the remote control via the control panel A3 according to the on-site situation.

The manager can also determine whether the machine needs to be repaired and maintained in advance based on the work status data, and assign personnel to handle it. This part can use artificial intelligence to learn to determine the maintenance time. First of all, the data collection system 9 It can be used to collect machine maintenance data and machine maintenance data. The AI system 2 can learn from the machine maintenance data to adjust the machine maintenance cycle data, and then send the adjusted machine maintenance cycle data to the Maintenance system 4, when the maintenance system 4 judges the machine based on the machine maintenance data and the machine maintenance cycle data When the station should be repaired, it will send the repair information to the communication device A2 according to the information of the person in charge of the machine. Because every person in the factory will carry the communication device A2 with him in order to receive the messages from the components or communicate with Manager contact. The maintenance data can include: the location of the maintenance machine, the reason for the machine failure, the movement path data, and the maintenance audio-visual data, but this is not a limitation. These maintenance data can be displayed on the screen of the communication device A2. Those who form data transmission and voice communication with the central control host A are all communication devices referred to in this manual. In this manual, the communication device A2 may preferably be an AR (Augmented Reality, augmented reality) with communication function. In this way, through the advantages of the AR device, personnel can easily see the maintenance data during the maintenance process, or quickly move to a fixed point for maintenance processing based on the maintenance data.

In addition, the car dispatching system 3 will also send an abnormal status message to the central control host A when it encounters any problems during the dispatching process, so that the manager can assign personnel to deal with it through the communication device A2. The control host A preferably sends a dispatching route map and dispatching maintenance data to the communication device at the same time, so that the personnel can quickly grasp the situation. The above-mentioned repair and maintenance process, such as the type of damaged parts, the type or quantity of replacement parts, and other related data will also be sent to the central control host A for record and storage. When the manager is watching the information of each machine on the monitoring screen A1, the above-mentioned records and saved data will be displayed, and even the relevant information of the person in charge will be displayed together, so that the manager can better understand the condition of the machine , And when you need to assign personnel to the machine to understand the situation or perform maintenance, you can quickly find the relevant responsible personnel and their contact information.

Next, we will introduce the related functions of the Blue Book System 0. First, when the site wants to change the location of the equipment in the factory, add or remove equipment, add or remove pipelines, etc., the manager can use the input unit of the central control host A A4 Enter the equipment change instruction, and then enter the equipment change data. For example, when you want to change the location of the equipment in the factory, the equipment change data includes the equipment to be changed and the change Data such as the location after activation, but not as a restriction; when adding equipment, the equipment modification information includes the name of the equipment to be added, the size of the machine, the function, and the information of related lines (such as wires and pipelines), and The data that needs to be linked with those machines must be entered, but this is not a limitation. When the input is completed, the equipment pipeline configuration system 8 will connect the information to a database, and the database contains the plant equipment layout data and the plural equipment parameter data corresponding to each plant equipment (such as name, equipment function, size, Next, the equipment pipeline configuration system 8 analyzes the new equipment data and the plant equipment layout data, and displays a recommended equipment setting location data on the monitoring screen A1. As a result, The manager can decide how to change the device based on the suggested data for the device setting location. In addition, the content of the suggested data for the device setting location preferably has more than two options for the manager to make judgments and choices.

If the administrator inputs a device confirmation command through the input unit A4, the blue book system 0 can make the device setting location suggestion data into a blue book data for use in a meeting or when making relevant papers, such as the blue book The information can include the name of the equipment or pipeline, the type of equipment or pipeline, the department of the equipment or pipeline, the module of the equipment or pipeline, the material type of the equipment or pipeline, the location of the equipment or pipeline, the person in charge of the equipment or pipeline and their contact methods , Equipment or pipeline upstream and downstream equipment, etc., but not as a restriction; and the blue book data can be output or printed through pdf, word, excel, etc. In addition, the blue book system 0 can also integrate various related blue books. For example, when a first blue book data is the recommended data for the location of the above-mentioned equipment, and the second blue book data is about machine operation and maintenance. , Maintenance and other related data, the blue book system can integrate these data to produce the blue book data. In addition, the blue book system 0 can also cooperate with the equipment pipeline configuration system 8 for the disassembly and installation of machines and pipelines, mainly through positioning systems, such as RFID (Radio Frequency Identification), Barcode (barcode) ), image recognition system, etc. to locate each machine, pipeline, when the personnel according to the blue book The data is used to disassemble and assemble the machine or pipeline. The blue book system 0 and the equipment pipeline configuration system 8 can judge whether personnel have installed errors according to the detection results of the positioning system and the blue book data. Once an error occurs An alarm can be issued at any time, so that the management personnel can immediately notify the personnel to adjust and improve through the communication device A2.

Let me introduce the related functions of the monitoring system 6. The monitoring system 6 is mainly used to detect machines, pipelines and other functions. For example, the monitoring system 6 has an image detection unit 61, a sound detection unit 62, a vibration detection unit 63, etc. Equipment, it can collect an equipment pipeline image data, an equipment pipeline vibration data, and an equipment pipeline sound data. The equipment pipeline image data mainly includes the appearance image data of the machine or the pipeline appearance image data, but not With this as a limitation, in addition, the monitoring system 6 can also be an infrared detection unit, a flow detection unit, a temperature detection unit, a pressure detection unit, etc., for detecting various parameter data (pressure, Flow rate, etc.). Anyone who helps to grasp the relevant parameters of the plant equipment and the plant environment are all monitoring systems referred to in this creation6. As there may be noise when the pipeline is broken, the machine is damaged or about to be damaged, it is often accompanied by high-frequency vibration, and the internal mechanical components may wear out and cause noise. Therefore, the maintenance system 4 can be used according to the equipment pipeline. The image data, the equipment pipeline vibration data, and the equipment pipeline sound data are predicted and analyzed. Once it is determined whether the pipeline is broken, whether the machine is damaged or needs to be maintained in advance, the maintenance system 4 sends a maintenance signal to the The central control host A, then the central control host A will send a message to the communication device A2 of the person in charge of the machine to instruct to proceed to the inspection. This part can also be the monitoring Screen A1 displays the maintenance signal, and the maintenance message includes: The monitoring screen will display the cause of abnormal alarm (such as pipeline rupture, damaged parts, machine must be maintained in advance, etc.), which machine equipment is located on the map, and the related problems The affected machine equipment is prompted, but not as a restriction, and the communication device A2 is used to assign personnel through the management personnel. In addition, the image detection unit 61 can be a fixed-point type, a track type, or a mobile type to detect all the image detection unit 61, the sound detection unit 62, the vibration detection unit 63, and the image detection unit 61 in the factory. Unit 61, The detection results of the sound detection unit 62 and the vibration detection unit 63 are all transmitted to the central control host A and displayed through the monitoring screen A1. The monitoring system 6 can further produce report data based on the film shot by the image detection unit 61, the detection results of the sound detection unit 62, the vibration detection unit 63, and the maintenance status of personnel, and the AI system 2 can generate report data according to various The detection results of the detection unit and the maintenance status of personnel are learned to improve the accuracy of the detection judgment. The above-mentioned mobile image detection unit 61 can achieve an automatic inspection function by setting a detection route in advance, and can also perform detection in response to different needs by remote manual control.

The monitoring system 6 can also cooperate with the safety management system 5, so as to notify the evacuation of personnel in the factory as soon as a disaster occurs. First introduce the earthquake-related safety management: the safety management system 5 includes an earthquake alarm 51, but not as a limitation, the earthquake alarm 51 can be located in various places in the factory, when the safety management system 5 receives When an earthquake message is sent from a telecommunication service provider, the safety management system 5 not only activates the earthquake alarm 51 as soon as possible, but also controls the equipment in the factory to stop working, and sends an earthquake message to the communication device A2. The earthquake information can also include instructions on how to use the environment to create a better place for refuge, but not as a restriction. For example, those places are more suitable for hiding to avoid being crushed by heavy objects. In order to prevent subsequent aftershocks after the end, the safety management system 5 can draw up the best escape route for personnel in each district according to the distribution of personnel in the factory, and prepare the escape route map and transmit it to each personnel's communication device.

Next, the fire management measures of the safety management system 5 are introduced: the safety management system 5 includes a fire detection unit 52, but not as a limitation. The fire detection unit 52 is mainly located in various places in the factory. Unit 52 can use image recognition to determine whether there is a fire alarm in the plant, temperature detection, or smoke detection, and can also use more than two judgment methods to increase the accuracy of judgment. Degree to reduce misjudgments The situation happened. When it is judged that a fire alarm has occurred in the plant, a fire alarm signal will be sent to the central control host A, so that the monitoring screen A1 and the alarm A5 can notify the management personnel by flashing, buzzing, etc., and the fire alarm signal contains the location of the fire alarm Then, the manager can use the monitoring screen A1 to watch the actual situation in the factory and then dispatch personnel to deal with it urgently. When dispatching personnel, the fire alarm location can be sent to the communication device A2 so that the personnel can quickly go to the destination. The fire extinguisher configuration diagram is also sent to the communication device A2 for personnel to quickly obtain for fire fighting; or the management personnel can control the action of the sprinkler system near the fire occurrence through the control panel A3 to perform sprinkling and extinguishing work. In addition, the fire detection unit 52 is preferably available for detecting fire types, so that personnel can choose better fire extinguishing tools or fire extinguishing methods for different types of fires. It is worth mentioning here that the safety management system 5 fire types , And the corresponding SOP (Standard Operating Procedures) movie for fire treatment is sent to the communication device A2, so that personnel can follow the SOP movie for quick fire treatment. When responding to the above-mentioned fire alarm, it is best to activate the fire alarm system in the factory at the same time to remind the staff in the factory to be more vigilant.

The above is the part about human operation when a fire alarm occurs. This part can also be automatically extinguished through the safety management system 5. When the safety management system 5 receives the fire alarm signal, it can automatically select the vicinity according to the location of the fire alarm. The sprinkler system is activated to quickly put out the fire in the shortest time. In addition, when the safety management system 5 judges that the fire is difficult to extinguish, it can also draw up the best escape route for people in each district according to the distribution of personnel in the factory, and make the escape route map and send it to the communication device of each person. Moreover, each area of the plant is preferably equipped with multiple oxygen masks, smoke masks and other equipment so that personnel can have sufficient equipment to cope with the fire scene. In this state, the safety management system 5 will also The placement position of the oxygen mask and smoke mask in each area is transmitted to the communication device of each person, and it is better to have emergency lighting equipment near the placement position of the oxygen mask and smoke mask to facilitate the personnel to find and access. Each time the detection result of the fire detection unit 52 is also transmitted to the AI system 2 for learning, so as to improve the fire alarm judgment. The accuracy of the break.

Now let’s introduce the management measures of the safety management system 5 in terms of poisonous gas. First of all, the safety management system 5 further includes a poisonous gas detection unit 53, but not as a limitation, the poisonous gas detection unit 53 can detect all kinds of harmful to the human body. Gas, such as carbon monoxide. The poison gas detection unit 53 is mainly arranged in various positions in the factory building, especially the factory has a plurality of chambers, and at least one poison gas detection unit 53 is provided in each chamber. When the poison gas detection unit 53 detects the poison gas, it sends a poison gas signal, a poison gas position signal, and a poison gas type signal to the central control host A. Here, the management staff can also be notified through the monitoring screen A1, alarm A5, flashing, buzzing, etc., so that the management staff can dispatch personnel to deal with. In addition, the safety management system 5 can disperse poison gas Type data, poison gas processing SOP data, and an emergency equipment location map are directly or indirectly transmitted to the communication device A2 through the central control host A, so that personnel can quickly perform poison gas treatment based on the information, and the safety management system 5 can be based on The poison gas type information provides the poison gas handling precautions to the communication device A2, so as to remind the personnel to strictly pay attention to those matters when handling the poison gas, so as to minimize the influence of the poison gas. In addition, in order to prevent the poisonous gas from overflowing in the chamber, a gate is provided at the exit of each chamber. Since every person in the factory wears an identification card, and the identification card is embedded with a positioning chip, the safety management system 5 has A position detection unit 54 which can determine whether there are people in the chamber according to the positioning chip. Once it is determined that the people in the chamber have been evacuated, the gate is activated to close the chamber to form a closed space , The gate can only be opened for personnel to enter processing after the relevant processing personnel have identified it according to the identification certificate. In order to improve the recognition rate, the safety management system 5 can cooperate with the image detection unit 61 of the monitoring system 6 to determine whether there is a person in the image. When both determine that no one exists, the safety management system 5 lowers the gate. In addition, the detection result of the poison gas detection unit 53 can also be learned through the AI system to improve the overall judgment accuracy. It is also worth mentioning that the safety management system 5 can not only detect poisonous gas, but also detect whether harmful liquids are flowing out of the factory. The method can be achieved through leak detectors, image recognition, etc. , To ensure the life safety of personnel in the plant.

Similarly, when the safety management system 5 judges that the poisonous gas situation is obviously difficult to handle, it can also draw up the best escape route for the personnel in each district according to the distribution of the personnel in the factory, and make the escape route map and send it to the communication device of each personnel. A2. Moreover, each area in the plant area is preferably equipped with multiple gas masks and other equipment so that personnel can have sufficient equipment to cope with them when they escape the poisonous gas scene. In this state, the safety management system 5 will also control the The placement position of the gas mask is transmitted to the communication device A2 of each person, and it is better to have a reminder device near the placement position of the gas mask, flashing, buzzing, etc., to facilitate the personnel to find and access. In the above, the poison gas detection unit 53 and the fire detection unit 52 are preferably set up in a fixed or track type, and the inspection robot can also be used to patrol the safety conditions in the factory by way of preset inspection routes. In addition, the inspection robot can also be equipped with fire extinguishing equipment or poison gas treatment equipment for automatic emergency treatment. In addition, the inspection robot can also be remotely controlled. The manager can manually control the movement of the inspection robot through the control panel A3, so that the monitoring system 6 can detect abnormalities or the safety management system 5 can detect abnormalities. In the event of a fire, leakage of poisonous gas, etc., first control the inspection robot through the remote control to understand the situation and do preliminary treatment.

As mentioned in the foregoing, when the fire alarm or poisonous gas cannot be controlled and the personnel in the factory need to be evacuated, the location detection unit 54 detects each positioning chip to obtain a personnel distribution map, and then the safety management system 5 according to the personnel distribution map , The location of the escape door, and the location signal of the poison gas or fire alarm. Start to draw up the best escape plan, and finally estimate a personnel escape distribution plan, and the personnel escape distribution plan includes each person’s escape route map or The escape route map of each person in each containment room, but not as a restriction. Finally, the safety management system 5 can send each person’s escape route map to each person’s communication device A2 according to the personnel escape distribution plan. Similarly, the escape route map will also mark the location of protective equipment such as oxygen masks, gas masks, etc., for the personnel to take when they escape, and the best escape route can also pass through the tube. According to the information displayed on the monitoring screen A1, the management personnel can manually adjust the plan of the escape route in real time according to the real-time situation of the scene (such as the flow of people on each route, the scope of the disaster) and their own professional judgments. In addition, the safety management system 5 will also activate the broadcast system and escape indicator lights in the plant. The broadcast system can guide the escape route of each person in each room by broadcasting according to the personnel escape distribution plan. In addition, the above is an introduction to the internal work flow of the safety management system 5 when a disaster occurs. Externally, the safety management system 5 can be connected to external resources, such as fire fighting systems, ambulance systems, search and rescue systems, etc., in this way, the use of external Combining resources with internal resources can effectively reduce the damage caused by disasters. In addition, when the above-mentioned fire alarm, poisonous gas, earthquake and other conditions are removed, the detection unit 6 will urgently detect the conditions of the machines and pipelines in the factory, and make the detection results into a recovery report data for the management personnel to follow the recovery The report data dispatch personnel to perform repairs, maintenance, and processing urgently. In addition to producing the recovery report data, the recovery report data can also contain repair parts, maintenance personnel, repair time, cause of the incident, and even Information such as improvement suggestions can also be recorded. It is worth mentioning here that when the communication device A2 displays the escape route map, it can highlight the oxygen mask, gas mask, escape door and other locations in a flashing way. The way of reminding and guidance is not limited to flashing, but also through Indicator lights, push broadcasts, voice, icons, etc., for all that can be used to achieve the reminder effect, are within the scope of this manual.

Please refer to Figure 2 and Figure 3, which are schematic diagrams 1 and 2 of the display screen of the creative monitoring screen. Now let's introduce the related operations of the central control host A: First, the monitoring screen A1 can display a floor profile interface and a floor plan. Interface, an indicator light interface and factory personnel data, as shown in the system interface schematic screen G3 in Figure 3, is a schematic diagram of each floor profile screen interface. The manager can select a floor from it through the input unit, and it will appear after the selection is completed. The floor plan interface, and the floor plan interface shows the configuration position of each machine and pipeline. The configuration position can be shown in the system interface schematic screen G1 and the system interface schematic screen G2 in Figure 2, in 2D, 3D or 5D When the manager selects one of the machines or pipelines, the Information about the machine or pipeline, such as the person in charge, contact information of the person in charge, maintenance time, working conditions, various parameters (such as temperature, flow, pressure), suppliers, and related upstream and downstream connected equipment (for example, when selecting A When equipment, it will present information such as the upstream equipment of equipment A and equipment B, and the information of downstream equipment (equipment C). The input unit A4 may include a hand detection device, but is not limited to this. The hand detection device can detect human gestures to obtain a gesture command, and the central control host A can be used according to the gesture command Operate each interface, the gesture command can be detected by the hand detection device indicating the direction, sliding direction, and moving direction of the human finger, or by detecting the overall posture of the human hand to determine the gesture command, and the input Unit A4 can also project a virtual keyboard image in space through image projection, etc., so that the human body can input instructions according to the virtual keyboard image. In addition, when there are various conditions in the plant, in addition to the indicator light interface flashing, each floor profile interface and the floor plan interface will also display the location of the situation, and the monitoring screen A1 will also pop up the location of the situation in the corner. The nearby monitor screen shows the relevant parameters measured by the monitoring system 6, or shows the related upstream and downstream equipment data, equipment data in the neighboring area, etc., so that the manager can quickly grasp the situation, even the neighboring area There are important equipment, or high-risk equipment, etc., which will also be specially displayed here, so that relevant response and disposal can be carried out early. For example, when the central control host A receives the poison gas signal or the fire alarm message, the indicator light interface will continue to flash, and the floor profile interface and the floor plan will also be displayed in a specific color (such as red ) And other methods to mark the occurrence location B to remind management staff to pay attention and respond, and also present relevant upstream and downstream equipment, important equipment in the nearby area and other information, so that the management staff can deal with it earlier. In addition to the continuous flashing of the indicator light interface, it can also be used with buzzers, ringtones, and system voice notifications to enhance the prompt effect. In addition, in the event of fire, poisonous gas, etc., the cross-sectional interface of each floor and the floor plan will also be distinguished by different colors to distinguish hot and cold areas at different locations, so that the manager can use this to determine the sequence of treatment. In addition, since the aforementioned monitoring screen will present relevant information on A1, the manager can also manually adjust the hot and cold zones based on the relevant information plus his own professional judgment. Also, the central control host A will also use the monitoring screen A1 to present the connection relationship between the devices in a tree-like manner, so that managers can clearly control the status of each device and the corresponding relationship at a glance. The system interface schematic screen G1, the system interface schematic screen G2, and the system interface schematic screen G3 are only schematic screens of the system, which means that the system interface can be presented visually.

In summary, this case complies with the requirements set by the Patent Law, and a patent application was filed in accordance with the law. The above description only lists the preferred embodiments of the new creation. The scope of rights in this case is still mainly listed in the claims.

A: Central control host

A1: Monitor screen

A2: Communication device

A3: Control panel

A4: Input unit

A5: Siren

1: Warehouse Management System

2: AI system

3: Dispatch system

4: Maintenance system

5: Safety management system

51: Earthquake Alarm

52: Fire detection unit

53: Toxic gas detection unit

54: position detection unit

6: Monitoring system

61: Image detection unit

62: Sound detection unit

63: Vibration detection unit

8: Equipment pipeline configuration system

9: Data collection system

0: Blue Book System

Claims (10)

A plant management system, including: a central control host, the central control host information links a warehouse management system, an AI system, a vehicle dispatching system, a maintenance system, a safety management system, a monitoring system, and an equipment pipeline configuration system , A data collection system, a communication device, and a blue book system for the central control host and the warehouse management system, the AI system, the vehicle dispatch system, the maintenance system, the safety management system, the monitoring system, The equipment pipeline configuration system, the data collection system, the communication device, and the blue book system perform cooperative operations, and the central control host can display the operating status of each system, and the communication device can be worn by the staff; the monitoring The system includes a detection unit that can be installed in the factory building. When the detection unit determines that an abnormal situation occurs in the factory building, it sends an abnormal signal to the safety management system; the safety management system sends an abnormality signal according to the abnormal message. Abnormal location information and an abnormal type information are sent to the communication device; when the safety management system judges that it is difficult to deal with it in a timely manner based on the abnormal information, it calculates a better escape route based on a factory personnel location distribution map, and sends an escape route The picture shows the communication device; the monitoring screen of the central control host presents an alarm screen. The plant management system according to claim 1, wherein the safety management system includes an earthquake alarm which can be installed in the workshop; the safety management system can be used for information connection with a telecommunication service provider for receiving earthquakes In a short message, when the safety management system receives the earthquake message, it controls the earthquake alarm to operate, and controls the equipment in the plant to stop operating, and sends an earthquake message to the communication device. The plant management system according to claim 2, wherein the detection unit includes a fire detection unit, the fire detection unit can be installed in the plant, and when the fire detection unit determines that a fire alarm has occurred, a fire alarm signal is sent to the Safety management system; the safety management system includes a sprinkler system and A fire alarm system, the sprinkler system and the fire alarm system can be installed in the factory building, when the safety management system receives the fire alarm signal, the sprinkler system is controlled to act, and the fire alarm system is controlled to act, And send a fire alarm message to the communication device. The plant management system according to claim 3, wherein the sprinkler system includes a plurality of sprinklers, and each sprinkler is arranged in the plant; the fire alarm signal includes a fire alarm position signal; the safety management system can be used according to the The fire alarm position signal activates the sprinkler at the corresponding position, and transmits the fire alarm position signal to the communication device. The plant management system according to claim 4, wherein when the safety management system receives the fire alarm location signal, it sends an oxygen mask configuration diagram and a fire extinguisher configuration diagram to the communication device. The plant management system according to claim 5, wherein the detection unit includes a poison gas detection unit, the poison gas detection unit can be installed in the plant, and when the poison gas detection unit detects poison gas, a poison gas signal and a poison gas are emitted Position signal; the safety management system includes a poisonous gas alarm, which can be installed in the plant, when the safety management system receives the poisonous gas signal, it sends a poisonous gas message and the poisonous gas position signal to the communication Device. The factory building management system described in claim 6, wherein the factory building includes a chamber and an airtight gate set in the chamber; an identification card is provided, and there is a positioning chip in the identification card, and the identification card can For workers to wear; the monitoring system includes an image detection unit, the image detection unit can be installed in the chamber for judging the staff in the chamber; a position detection unit for detecting the positioning chip A positioning data; after the poison gas alarm is activated, if the position detection unit and the image detection unit determine that there is no staff in the containment room, the safety management system controls the airtight gate to operate to make the containment room Form a confined space. The plant management system according to claim 7, wherein the poison gas detection unit can detect the type of poison gas to obtain a poison gas type data; the safety management system can be used for the poison gas type data, an emergency equipment location map and a poison gas treatment The SOP data is sent to the communication device, and the poison gas processing SOP data corresponds to the type of poison gas. The plant management system according to claim 8, wherein the plant includes a plurality of escape doors; the number of the identification card is plural; the position detection unit can detect each positioning chip to obtain a personnel distribution map; the safety management system Including the broadcast system and escape indicator lights installed in the plant, the safety management system can be used to estimate a personnel escape distribution plan based on the personnel distribution map, the location of the escape door, and the poison gas location signal or fire alarm location signal. The broadcasting system can be used for broadcasting according to the personnel escape distribution plan, and the escape indicator can be used for instructions according to the personnel escape distribution plan. The plant management system described in claim 9, wherein the central control host can display a floor profile interface, a floor plan interface, and an indicator light interface; when the central control host receives the poison gas signal or the fire alarm When sending a message, the position of the warning signal is displayed on the floor profile interface or the floor plan interface according to the poison gas location signal or the fire alarm location signal, and the indicator light interface is controlled to act.

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