CN112966993A - Storage warehouse safety control method, system and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention provides a method and a system for safely managing and controlling a storage warehouse and a computer readable storage medium, wherein the method comprises the following steps: inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises environmental monitoring parameters and a safety management and control system, and the safety management and control system comprises at least two levels; when the storage of the articles is finished, the information management system configures the environmental monitoring parameters into the corresponding monitoring modules; and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module. The monitoring information of the stored goods is generated through the information management system, the environment monitoring parameters in the monitoring information are configured into the monitoring module, the monitoring of the environment monitoring data of the storage warehouse is realized, the safety management and control system of the corresponding grade is executed according to the environment monitoring data, the automatic management and control of the safety of the storage warehouse are realized, and the potential safety hazard problem caused by negligence of managers is avoided.

Description

Storage warehouse safety control method, system and computer readable storage medium

Technical Field

The invention relates to the technical field of warehouse safety management, in particular to a method and a system for safely managing and controlling a storage warehouse and a computer readable storage medium.

Background

With the acceleration of urbanization, the number of industrial enterprises increases year by year, and the yield of hazardous wastes also shows a rapid growth trend. The dangerous waste storage warehouse has certain potential safety hazard, and if the dangerous waste storage warehouse is not strictly managed, a series of safety accidents are inevitably caused. The main hidden trouble points of the dangerous waste storage warehouse are: 1. leakage of toxic and harmful gases; 2. leakage of waste liquid; 3. illegal entry of personnel; 4. the wastes are not placed in a standard way; 5. a local temperature that is too high causes a fire. Therefore, the project provides an automatic safety control method for the storage warehouse aiming at the problems, and the main purpose is to help managers to strengthen the safety supervision capability of the warehouse and improve the emergency handling efficiency of accidents.

Disclosure of Invention

The invention aims to solve the technical problem that the existing storage warehouse management scheme has multiple potential safety hazards, and provides a storage warehouse safety control method, a storage warehouse safety control system and a computer readable storage medium.

In order to solve the technical problem, the invention provides a storage warehouse safety control method, which comprises the following steps:

the method comprises the steps of inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises environment monitoring parameters, and the safety management and control system comprises at least two levels;

when the storage articles are put in storage, the information management system configures the environmental monitoring parameters into corresponding monitoring modules;

and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module.

Optionally, the article information of the storage article includes: the source, number, variety, storage location, related personnel information and management plan of the stored goods;

the information management system determines the environmental monitoring parameters to be monitored and the corresponding safety management and control systems of each grade according to the variety and the number of the stored articles and generates the monitoring information

Optionally, the information management system further includes, when the storage article is put into storage: and updating the storage state of the storage warehouse, generating a plan view of the storage warehouse, and sending the plan view to a corresponding manager in the related personnel information according to the management plan.

Optionally, when the stored goods are put in storage, the stored goods are identified and counted by an RFID system, and the identification and counting results are sent to the informatization management system;

and the information management system confirms the identification and statistical result and the article information recorded into the stored article.

Optionally, after the storage of the stored goods is finished, the method further comprises the steps of identifying the visitor in the storage warehouse, comparing the identification result with the related personnel information, and determining whether the visitor is allowed to enter the storage warehouse according to the grade of the safety control system.

Optionally, the safety management and control system includes: the system comprises four levels of an early warning system, an alarm system, an emergency system and an automatic response system;

when the environmental monitoring data of the monitoring module is in a low risk range, the informatization management system starts the early warning system to perform safety control on the storage warehouse;

when the environment monitoring data of the monitoring module is within the risk range, the informatization management system starts the alarm system to carry out safety control on the storage warehouse;

when the environmental monitoring data of the monitoring module is in a high risk range, the informatization management system starts the emergency system to perform safety control on the storage warehouse;

and when the environmental monitoring data of the monitoring module is greater than the upper safety limit, the information management system starts the automatic response system to automatically execute danger elimination measures on the storage warehouse.

Optionally, when the system is in the early warning system, performing safety management according to the management plan;

when the system is in the alarm system or the emergency system, notifying corresponding managers in the related personnel information to perform safety investigation;

and when the system is in the automatic response system, notifying corresponding management personnel in the related personnel information, and starting a danger eliminating device of the storage warehouse.

Optionally, the method further includes: and when all the stored articles are delivered out of the warehouse, resetting the environment monitoring parameters of the monitoring module and deleting the monitoring information of the stored articles.

Further, the present invention also provides a storage warehouse safety control system, comprising: the system comprises an information management module and a monitoring module;

the system comprises an information management module, a safety management system and a monitoring module, wherein the information management module is internally provided with an information management system, the information management system is used for inputting article information of stored articles to obtain monitoring information of the stored articles, the monitoring information at least comprises an environment monitoring parameter and the safety management system, the safety management system comprises at least two levels, the environment monitoring parameter is sent to the monitoring module when the stored articles are put in a warehouse, and the safety management system of the corresponding level is started according to environment monitoring data of the monitoring module;

the monitoring module is used for receiving the environment monitoring parameters, carrying out local configuration and monitoring the current environment monitoring parameters.

Further, the present invention also provides a computer-readable storage medium storing one or more programs, the one or more programs being executable by one or more processors to implement the steps of the storage warehouse security management method of any one of the above.

The embodiment of the invention provides a method and a system for safely managing and controlling a storage warehouse and a computer readable storage medium, wherein the method for safely managing and controlling the storage warehouse comprises the following steps: inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises environmental monitoring parameters and a safety management and control system, and the safety management and control system comprises at least two levels; when the storage of the articles is finished, the information management system configures the environmental monitoring parameters into the corresponding monitoring modules; and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module. The monitoring information of the stored goods is generated through the information management system, the environment monitoring parameters in the monitoring information are configured into the monitoring module, the monitoring of the environment monitoring data of the storage warehouse is realized, the safety management and control system of the corresponding grade is executed according to the environment monitoring data, the automatic management and control of the safety of the storage warehouse are realized, and the potential safety hazard problem caused by negligence of managers is avoided.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a basic flowchart of a method for safely managing and controlling a storage warehouse according to a first embodiment of the present invention;

fig. 2 is a detailed flow chart of a method for safely managing and controlling a storage warehouse according to a second embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a safety control system for a storage warehouse according to a fourth embodiment of the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

The terminal may be implemented in various forms. For example, the terminal described in the present invention may include a mobile terminal such as a mobile phone, a tablet computer, a notebook computer, a palmtop computer, a Personal Digital Assistant (PDA), a Portable Media Player (PMP), a navigation device, a wearable device, a smart band, a pedometer, and the like, and a fixed terminal such as a Digital TV, a desktop computer, and the like.

The following description will be given by way of example of a mobile terminal, and it will be understood by those skilled in the art that the construction according to the embodiment of the present invention can be applied to a fixed type terminal, in addition to elements particularly used for mobile purposes.

First embodiment

In the existing scheme for managing the storage warehouse of the factory, managers are mainly used for regularly patrolling, and the existing scheme has many security holes and cannot timely and effectively find the security problem of the storage warehouse, so that the potential safety hazard of the storage warehouse is large. To solve the problem, an embodiment of the present invention provides a method for safely managing and controlling a storage warehouse, including: inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises an environment monitoring parameter, and the safety management system comprises at least two levels; when the storage articles are put in storage, the information management system configures the environmental monitoring parameters into corresponding monitoring modules; and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module. The information of the stored goods is input through the information management system to determine the monitoring information of the stored goods, the monitoring module is configured according to the environment monitoring parameters in the monitoring information to monitor the environment monitoring data of the current environment of the storage warehouse, the information management system starts the safety management system with the corresponding grade according to the environment monitoring data, the monitoring information is automatically configured through the information management system, the environment monitoring data of the storage warehouse can be monitored in real time through the monitoring module to determine the safety condition of the storage warehouse, the corresponding safety management system is started, the automatic management and control of the safety of the storage warehouse are realized, the safety grade of the storage warehouse is improved, and the potential safety hazard of the storage warehouse is reduced.

Referring to fig. 1, fig. 1 is a basic flowchart of a method for safely managing and controlling a storage warehouse according to the embodiment. The basic flow of the storage warehouse safety control method comprises the following steps:

s101, recording article information of the stored articles in the information management system.

The method comprises the steps of recording the articles to be stored in a warehouse in an information management system in advance, directly calling the information in the storage records when the storage records exist in the stored articles so as to reduce the work of repeated recording, and monitoring the corresponding stored articles only by recording the information of the stored articles in the information management system.

S102, determining the monitoring information of the stored goods.

After the article information of the stored article is recorded, the monitoring information required to be monitored of the stored article can be determined, the monitoring information can be directly recorded information, or the corresponding monitoring information searched by the informatization management system through other ways, such as a local database or cloud data, according to the recorded article information, the environmental parameters required to be monitored of the stored article and the corresponding safety management and control system can be determined through the monitoring information, so that the monitoring information at least comprises the environmental monitoring parameters and the corresponding safety management and control systems of all levels, the safety management and control system has at least two levels, namely a safety management and control system level and a danger management and control system level, and the safety management and control system is specifically provided with a plurality of levels which can be adjusted according to actual conditions.

S103, judging whether the stored goods are put in storage.

The stored goods are not necessarily put in storage immediately after the entry is completed, and therefore it is necessary to determine whether the storage of the stored goods is completed.

And S104, when the stored goods are put in storage, configuring the environment monitoring parameters into the corresponding monitoring modules.

When the information management system determines that the stored goods are put in storage, the determined environmental monitoring parameters are configured to the corresponding monitoring modules, the monitoring modules are generally arranged in the storage warehouses corresponding to the stored goods, and the current states of the storage warehouses can be determined by acquiring the monitoring results of the monitoring modules. It should be noted that the setting number, the setting position, and the setting type of the monitoring module can be adjusted according to the actual situation, and the environment parameters that can be monitored by the monitoring module must meet the configuration requirements.

And S105, starting a safety control system of a corresponding grade according to the environment monitoring data of the monitoring module.

After receiving the environment monitoring data fed back by the monitoring module, the informatization management system can determine the safety level of the storage warehouse, so that the safety management and control system of the corresponding level is started, the plant warehouse is managed and controlled through different safety levels, the fine management of the safety management and control of the plant warehouse is realized, and the safety of the plant warehouse is improved.

Because different storage articles need different environmental parameters to be monitored, for example, stored natural gas needs to monitor environmental parameters such as environmental temperature and natural gas content, and coal needs to monitor environmental parameters such as environmental temperature, environmental humidity and combustible gas content, different safety control measures need to be taken for different storage articles, and different safety control systems need to be started correspondingly.

In some embodiments, the item information of the stored item includes: the source, number, variety, storage location, related personnel information and management plan of the stored goods; and the informatization management system determines environment monitoring parameters required to be monitored and corresponding safety management and control systems of various levels according to the varieties and the number of the stored articles and generates the monitoring information.

In order to facilitate management, simplify the process and reduce the operation difficulty, only basic article information of the stored articles is required to be recorded in the information management system, for example, the source, the number and the variety of the articles, the distributed storage positions, the personnel information of corresponding managers, the management plan and other necessary information, when the storage records exist in front of the stored articles, the records before the storage records can be directly called for recording, the environment monitoring parameters of the stored articles are automatically generated by the information management system according to the stored articles, the corresponding safety management and control systems of all levels are configured, and the safety hazards caused by unreasonable or wrong environment monitoring parameters recorded by the recorded personnel are avoided by the automatic generation of the information management system.

In some embodiments, the information management system further includes, when the storage item is completely put in storage: and updating the storage state of the storage warehouse, generating a plan view of the storage warehouse, and sending the plan view to a corresponding manager in the related personnel information according to the management plan.

Although the storage warehouse safety control method provided by the embodiment realizes automatic control of the storage warehouse safety, the method still needs corresponding management personnel to assist, confirm the actual situation and timely eliminate potential safety hazards when unsafe events occur, so that the storage state of the storage warehouse is updated after the stored goods are put in storage, a plan view of the storage warehouse is generated and sent to the corresponding management personnel according to the management plan, the management personnel can conveniently confirm the storage warehouse situation and troubleshoot the potential safety hazards, and the working efficiency of the management personnel is improved.

In some embodiments, the stored goods are identified and counted by an RFID (Radio Frequency Identification) system when being put in storage, and the Identification and counting results are sent to the informatization management system; and the informatization management system confirms the identification and statistical results and the input results.

The RFID system can realize automatic identification and statistics of stored goods, improve warehousing efficiency, reduce error risk, and simultaneously perform data intercommunication with the information management system, determine the identification result and the statistical result as well as the input result of the information management system, determine whether the stored goods are accurately transferred to the corresponding storage warehouse, and determine whether the number of the stored goods corresponds to the input result.

In some embodiments, after the storage of the stored article is finished, the method further comprises the steps of identifying a visitor, comparing the identification result with the related personnel information, and determining whether the visitor is allowed to enter the storage warehouse according to the grade of the safety control system.

In order to ensure the safety of the storage warehouse, the visitor in the storage warehouse needs to be identified, the information of the visitor can be collected through a camera, a fingerprint identification module and other devices, after the information of the visitor is collected, the collected result is compared with the recorded information of the relevant personnel, the identity and the authority of the visitor are determined through the comparison result, and therefore whether the visitor is allowed to enter the storage warehouse or not is determined.

In some embodiments, the safety management system comprises at least: the system comprises four levels of an early warning system, an alarm system, an emergency system and an automatic response system; when the environmental monitoring data of the monitoring module is in a low risk range, the informatization management system starts the early warning system to perform safety control on the storage warehouse; when the environment monitoring data of the monitoring module is within the risk range, the informatization management system starts the alarm system to carry out safety control on the storage warehouse; when the environmental monitoring data of the monitoring module is in a high risk range, the informatization management system starts the emergency system to perform safety control on the storage warehouse; and when the environmental monitoring data of the monitoring module is greater than the upper safety limit, the information management system starts the automatic response system to automatically execute danger elimination measures on the storage warehouse.

In some implementations, while in the early warning system, performing security management according to the management plan; when the system is in the alarm system or the emergency system, notifying corresponding managers in the related personnel information to perform safety investigation; and when the system is in the automatic response system, notifying corresponding management personnel in the related personnel information, and starting a danger eliminating device of the storage warehouse.

The early warning system is in a daily monitoring state, and the safety risk of the storage warehouse is low at the moment, and only the safety of the storage warehouse needs to be normally controlled according to a management plan; when the safety level is improved to an alarm system or an emergency system, the safety risk of the storage warehouse is increased, and corresponding managers need to be informed to go to the site for processing and troubleshooting so as to eliminate potential safety hazards; when the safety level is improved to an automatic response system, the environmental monitoring data exceed the safety upper limit, measures need to be taken immediately to reduce the numerical value of the environmental monitoring data, time is won for managers to carry out on-site processing, and meanwhile, the safety risk of the managers to carry out on-site processing can be reduced. It should be noted that the hazard removal device is a corresponding emergency safety removal device provided in the storage warehouse according to the stored goods, and is commonly, for example, a ventilation device, a spraying device, a fire extinguishing device, a cooling device, and the like.

In some embodiments, the storage warehouse security management method further comprises: and when all the stored articles are delivered out of the warehouse, resetting the environment monitoring parameters of the monitoring module and deleting the monitoring information of the stored articles.

The implementation provides a storage warehouse safety control method, which comprises the following steps: inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises environmental monitoring parameters and a safety management and control system, and the safety management and control system comprises at least two levels; when the storage of the articles is finished, the information management system configures the environmental monitoring parameters into the corresponding monitoring modules; and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module. The monitoring information of the stored goods is generated through the information management system, the environment monitoring parameters in the monitoring information are configured into the monitoring module, the monitoring of the environment monitoring data of the storage warehouse is realized, the safety management and control system of the corresponding grade is executed according to the environment monitoring data, the automatic management and control of the safety of the storage warehouse are realized, and the potential safety hazard problem caused by negligence of managers is avoided.

Second embodiment

The embodiment provides a detailed flow schematic of a storage warehouse safety control method, and referring to fig. 2, the detailed steps of the storage warehouse safety control method include:

s201, entering article information of the stored articles into the information management system.

After the entry of the article information of the stored article is finished, secondary confirmation of the entered information can be further included so as to improve the accuracy of the information.

S202, determining the monitoring information of the stored goods.

And S203, judging whether the stored goods are put in storage.

And S204, when the stored goods are put in storage, configuring the environment monitoring parameters into the corresponding monitoring modules.

And S205, starting a safety control system of a corresponding grade according to the environment monitoring data of the monitoring module.

S206, the safety management and control system comprises: the system comprises an early warning system, an alarm system, an emergency system and an automatic response system, wherein the information management system starts a corresponding safety management and control system to manage and control the safety of the storage warehouse according to the environment monitoring data of the monitoring module.

Different safety control measures are adopted at different safety control levels, for example, when the system is at an early warning system level, a storage warehouse is normally managed according to a management plan, personnel control can be properly relaxed, and part of irrelevant personnel is allowed to enter; when the alarm system is in the grade, a current corresponding manager needs to be informed to strengthen the patrol of the plant and the warehouse, increase the patrol frequency and search and analyze the reason of the risk increase; when the emergency system level is reached, the current corresponding management personnel and personnel with higher management authority need to be informed to the site for processing, the root of the problem is found out, and the potential safety hazard is eliminated; at the level of the automatic response system, the manager is informed and at the same time the danger eliminating device of the storage warehouse is started to assist in controlling the current dangerous case.

And S207, identifying the visitor and determining whether the visitor is allowed to enter the storage warehouse.

In the process of safety control, each visitor needs to be identified and recorded, and whether the visitor is allowed to enter is determined according to the safety level of the current safety control system, so that the aim of visitor control is fulfilled.

S208, when all the stored goods are delivered out of the warehouse, the environment monitoring parameters of the monitoring module are reset, and the monitoring information of the stored goods is deleted.

When all the stored articles are delivered from the warehouse, the environment monitoring parameters in the monitoring module need to be reset to prepare for subsequent stored articles, and meanwhile, the monitoring information in the information management system is deleted, the monitoring information is only valid at this time, and the monitoring information needs to be determined again when the articles are delivered into the warehouse every time, so that the real-time updating of the monitoring information is guaranteed.

Third embodiment

In this embodiment, a storage warehouse of hazardous waste of an industrial enterprise is taken as an example to describe the storage warehouse safety control method of the embodiment of the present invention.

The method for safely managing and controlling the storage warehouse comprises the following steps: the system comprises an information management system, an in-out management system, an event early warning system, an event emergency system and an event automatic response system; the information management system determines the ex-warehouse and in-warehouse states of the stored goods through the in-warehouse and out-warehouse management system, and determines to start one of an event early warning system, an event emergency system and an event automatic response system to operate according to the environment monitoring result.

1. An information management system:

(1) the system mainly aims at the problem that electronic management is synchronously carried out after relevant information of hazardous wastes of industrial enterprises is acquired online. The main data types are: basic information of an industrial enterprise, information of related management personnel, emergency plans, hazardous waste generation information, basic information of a warehouse, video information of the warehouse and environmental information of the warehouse; the main acquisition paths are as follows: collecting offline data, monitoring online and uploading manually;

(2) by acquiring the data in the step (1), real-time management is carried out on the relevant information of the storage of the hazardous wastes of the industrial enterprises, and threshold value limitation is carried out on each monitoring data, so that when the monitoring data is within the threshold value range, no adverse effect is caused on the environment or human body;

(3) and (3) carrying out classification management on the data in the step (1), and carrying out threshold value division according to different accident grades.

2. An in-out library management system:

(1) the automatic weighing system comprises an electronic forklift and a Bluetooth communication module, wherein an automatic metering unit initializes a communication module and a weight sensor after being started, the sensor enters a measuring mode after detecting that the weight of the forklift changes, weight information is automatically transmitted to an RFID terminal after weight data are stable, and meanwhile, the RFID terminal can also identify measured objects;

(2) and the RFID terminal transmits the measurement statistical result and the identification result to the information management system through the local area network.

3. An event early warning system:

(1) early warning factors: the early warning event carries out early warning according to data conditions of environmental monitoring factors (temperature, humidity, combustible gas, toxic and harmful gas), waste storage time, personnel entry and waste storage positions;

(2) early warning rules are as follows: temperature: 38 ℃ to 50 ℃, humidity: not less than 80%, combustible gas: (30-50%) standard value, toxic and harmful gas: (30-50%) standard value, waste storage time: and (3) in 10-11 months, illegal intrusion of personnel: non-system-inside admission of personnel;

(3) the early warning principle is as follows: if any one of the conditions described in the step (2) occurs, the system automatically carries out early warning prompt, and the prompt can be pushed in the modes of mobile phone short messages, APP, PC end built-in reminding and the like;

(4) early warning content: the early warning content comprises an early warning occurrence place, time, details, responsible persons, contact information and the like;

(5) early warning process: after the early warning occurs, the event state is 'to be responded', the system can push the event (4) in the mode described in the step (3), the first responsible person is an enterprise environment-friendly responsible person and a warehouse manager, and the system can synchronously push the early warning; after receiving the warning prompt, the warehouse management personnel need to perform response operation, and the system can automatically switch the state to be 'to be processed'; the warehouse management personnel need to check and process the early warning event on site in time, and the enterprise environment-friendly responsible personnel are mainly responsible for monitoring and verifying the processing process;

(6) an early warning processing mechanism: in case the early warning incident takes place, warehouse management personnel will look over at the very first time on-the-spot, and the video monitoring system can carry out personnel's discernment, if relevant managers do not reach the useless room of danger within the stipulated time, the system can carry out repeated early warning and remind, and can regard this as the basis that the enterprise scored.

4. An event warning system:

(1) alarm factors are as follows: the alarm event carries out early warning according to data conditions of environmental monitoring factors (temperature, humidity, combustible gas, toxic and harmful gas), waste storage time and waste storage position;

(2) and (3) alarm rules: temperature: 50-60 ℃ and combustible gas: (50-100%) standard value, toxic and harmful gas: (50% -100%) standard value, waste storage time: 11-12 months

(3) And (3) alarm principle: if any one of the conditions described in the step (2) occurs, the system automatically gives an alarm prompt, and the prompt is pushed in a mode of mobile phone short message, APP, PC end built-in reminding and the like;

(4) early warning content: the alarm content comprises the alarm occurrence place, time, details, responsible person, contact way and the like;

(5) and (3) warning process: after an alarm event occurs, firstly, pushing alarm information to a first responsible person, namely a warehouse manager/enterprise environment protection responsible person/enterprise legal person, and after the first responsible person is solved, removing the alarm of the event; if not, pushing the alarm event to a second person in charge, namely an environment-friendly manager, wherein the environment-friendly manager processes the alarm event within a certain time, uploads a processing result, releases the alarm state and completes the event processing;

(6) an alarm processing mechanism comprises: after the alarm occurs, the event state is 'to be responded', the system can push the event state (4) in the mode described in the step (3), the first responsible person is an enterprise environment-friendly responsible person and a warehouse manager, and the system can synchronously push the alarm content; after receiving the warning prompt, the warehouse management personnel need to perform response operation, and the system can automatically switch the state to be 'to be processed'; the warehouse management personnel need to check the alarm event on site within a specified time (30min) and submit the processing result in time, the system can automatically switch the event state to processed, and the enterprise environment-friendly responsible personnel are mainly responsible for monitoring and verifying the processing process; on the contrary, if the relevant responsible person does not upload the processing result within the specified time and releases the alarm information, the system switches the event state into 'enterprise unprocessed' and synchronously pushes the alarm event information to the relevant management personnel of the environmental protection agency; after receiving the alarm information, the environment-friendly related responsible person needs to respond in time, after responding, the event state is switched to be 'environment-friendly to be processed', the responsible person can select to remotely command or check the alarm information through warehouse video monitoring, find out the reason of the alarm, upload the processing result in time through a mobile phone APP, submit the result after confirming that the result is correct, and synchronously switch the event state to be 'processed'; the whole event processing is completed.

5. Event emergency system

(1) Emergency factors: the emergency event carries out early warning according to data conditions of environmental monitoring factors (temperature, humidity, combustible gas, toxic and harmful gas), waste storage time and waste storage positions;

(2) emergency rules: temperature: at a temperature of more than or equal to 60 ℃, combustible gas: more than or equal to 100% of standard value, toxic and harmful gas: more than or equal to 100% standard value, waste storage time: more than or equal to 12 months

(3) Emergency principle: if any one of the conditions described in the step (2) occurs, the system automatically gives an alarm prompt, and the prompt is pushed in a mode of mobile phone short message, APP, PC end built-in reminding and the like;

(4) emergency content: the alarm content comprises the alarm occurrence place, time, details, responsible person, contact way and the like;

(5) emergency flow: after an emergency event occurs, firstly, the emergency information is pushed to a first responsible person, namely a warehouse manager/enterprise environment protection responsible person/enterprise legal person, and after the first responsible person is solved, the event state is relieved; if the alarm is not solved, the alarm is pushed to a second person in charge, namely an environment-friendly administrator, and the environment-friendly administrator processes the alarm event within a certain time, uploads a processing result, relieves the emergency state and completes the event processing;

(6) an emergency processing mechanism: after an emergency event occurs, the event state is 'to be responded', the system can push the data in the step (4) in the mode described in the step (3), a first responsible person is an enterprise environment-friendly responsible person and a warehouse manager, and the system can synchronously push emergency contents; after receiving the emergency prompt, the warehouse management personnel needs to perform response operation, and the system can automatically switch the state to be 'to be processed'; the warehouse management personnel need to check the emergency event on site within a specified time (15min) and submit the processing result in time, the system can automatically switch the event state to processed, and the enterprise environment-friendly responsible personnel are mainly responsible for monitoring and verifying the processing process; on the contrary, if the relevant responsible person does not upload the processing result within the specified time and releases the emergency information, the system switches the event state into 'enterprise unprocessed' and synchronously pushes the emergency information to the relevant management personnel of the environmental protection agency; after receiving the emergency information, the environment-friendly related responsible person needs to respond in time, after responding, the event state is switched to be 'environment-friendly to be processed', the responsible person can select to remotely command or check the emergency information through warehouse video monitoring, find out the reason of the emergency event, upload the processing result in time through a mobile phone APP, submit the emergency information after confirming the failure, and synchronously switch the event state to be 'processed'; the whole event processing is completed.

6. Automatic event response processing system

(1) If the environmental monitoring factor exceeds the standard in the dangerous waste storage process, the system automatically starts an exhaust system in the warehouse; abnormal gas in the warehouse can enter a gas collecting pipeline through an exhaust system and then enter a small gas purification device, and after purification, the abnormal gas can be discharged after being monitored to reach the standard;

(2) the exhaust system is normally in a shutdown state, whether the environmental factor monitoring data reaches a threshold value is used for controlling, the fan is started, the gas purification facilities are started at the same time, and the fan is closed; and the tail gas is discharged after reaching the standard, and the gas purification facility is closed;

(3) the gas purification facility capacity is estimated based on the amount of gas that may be generated from the stored waste in the warehouse.

Fourth embodiment

The embodiment further provides a storage warehouse safety control system, as shown in fig. 3, the storage warehouse safety control system includes: the system comprises an information management module and a monitoring module;

the information management module is internally provided with an information management system, the information management system is used for inputting article information of stored articles to obtain monitoring information of the stored articles, the monitoring information at least comprises environment monitoring parameters and corresponding safety management and control systems of various levels, the environment monitoring parameters are sent to the monitoring module when the stored articles are put in storage, and the safety management and control systems of corresponding levels are started according to the environment monitoring data of the monitoring module;

the monitoring module is used for receiving the environment monitoring parameters, carrying out local configuration and monitoring the current environment monitoring parameters.

Embodiments of the present invention also provide a computer-readable storage medium in which one or more programs are stored, the one or more programs being executable by one or more processors to perform the steps of the 3D image display method in the first to second embodiments of the present invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method for safely managing and controlling a storage warehouse, comprising:

the method comprises the steps of inputting article information of stored articles in an information management system, and determining monitoring information of the stored articles, wherein the monitoring information at least comprises environment monitoring parameters, and the safety management and control system comprises at least two levels;

when the storage articles are put in storage, the information management system configures the environmental monitoring parameters into corresponding monitoring modules;

and the informatization management system starts a safety management and control system of a corresponding grade according to the environment monitoring data of the monitoring module.

2. The storage warehouse security management method of claim 1, wherein the item information of the stored item includes: the source, number, variety, storage location, related personnel information and management plan of the stored goods;

and the informatization management system determines environment monitoring parameters required to be monitored and a corresponding safety management and control system according to the variety and the number of the stored articles and generates the monitoring information.

3. The method for safely managing and controlling a storage warehouse according to claim 2, wherein the information management system further includes, when the storage items are put into the warehouse: and updating the storage state of the storage warehouse, generating a plan view of the storage warehouse, and sending the plan view to a corresponding manager in the related personnel information according to the management plan.

4. The storage warehouse security management method according to claim 1, wherein the stored goods are identified and counted by an RFID system when being put in storage, and the identification and counting results are transmitted to the informatization management system;

and the information management system confirms the identification and statistical result and the article information recorded into the stored article.

5. A storage warehouse safety control method as claimed in any one of claims 1 to 4, characterized in that, after the storage goods are put into the warehouse, the method further comprises identifying the visitor in the storage warehouse, comparing the identification result with the related personnel information, and determining whether to allow the visitor to enter the storage warehouse according to the grade of the safety control system.

6. The storage warehouse security management method according to any one of claims 1 to 4, wherein the security management system includes: the system comprises four levels of an early warning system, an alarm system, an emergency system and an automatic response system;

when the environmental monitoring data of the monitoring module is in a low risk range, the informatization management system starts the early warning system to perform safety control on the storage warehouse;

when the environment monitoring data of the monitoring module is within the risk range, the informatization management system starts the alarm system to carry out safety control on the storage warehouse;

when the environmental monitoring data of the monitoring module is in a high risk range, the informatization management system starts the emergency system to perform safety control on the storage warehouse;

and when the environmental monitoring data of the monitoring module is greater than the upper safety limit, the information management system starts the automatic response system to automatically execute danger elimination measures on the storage warehouse.

7. A storage warehouse security management method according to claim 6, wherein when in the early warning system, security management is performed according to the management plan;

when the system is in the alarm system or the emergency system, notifying corresponding managers in the related personnel information to perform safety investigation;

and when the system is in the automatic response system, notifying corresponding management personnel in the related personnel information, and starting a danger eliminating device of the storage warehouse.

8. The method for safely managing a storage facility of claim 1 further comprising: and when all the stored articles are delivered out of the warehouse, resetting the environment monitoring parameters of the monitoring module and deleting the monitoring information of the stored articles.

9. A storage warehouse safety management and control system is characterized by comprising: the system comprises an information management module and a monitoring module;

the system comprises an information management module, a safety management system and a monitoring module, wherein the information management module is internally provided with an information management system, the information management system is used for inputting article information of stored articles to obtain monitoring information of the stored articles, the monitoring information at least comprises an environment monitoring parameter and the safety management system, the safety management system comprises at least two levels, the environment monitoring parameter is sent to the monitoring module when the stored articles are put in a warehouse, and the safety management system of the corresponding level is started according to environment monitoring data of the monitoring module;

the monitoring module is used for receiving the environment monitoring parameters, carrying out local configuration and monitoring the current environment monitoring parameters.

10. A computer readable storage medium, storing one or more programs, which are executable by one or more processors to implement the steps of the storage vault security management method of any of claims 1 to 8.

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