CN116911833A - Hazardous waste operation management method, system, medium and equipment based on micro-service - Google Patents

Abstract

The application discloses a hazardous waste operation management method, system, medium and equipment based on micro-services, and belongs to the technical field of hazardous waste treatment. The method comprises the following steps: acquiring various dangerous waste information of the dangerous waste in the treatment process, and classifying according to different stages of the treatment process; according to different classified information of the hazardous waste, establishing a corresponding information management module so as to monitor and manage various classified information respectively; establishing communication among a plurality of information management modules so that hazardous waste information of other information management modules can be acquired through one information management module; the plurality of information management modules are integrated through the hazardous waste monitoring system, and the hazardous waste is monitored and managed through the hazardous waste monitoring map. When the method is used for processing the hazardous waste information, a plurality of different modules are used for processing the hazardous waste information of different categories, the processing modules are independent, the functions of the processing modules are not affected mutually, and the efficiency of monitoring the hazardous waste is improved.

Description

Hazardous waste operation management method, system, medium and equipment based on micro-service

Technical Field

The application relates to the technical field of hazardous waste treatment, in particular to a hazardous waste operation management method, system, medium and equipment based on micro-service.

Background

In the process of treating the hazardous waste, the information of the hazardous waste in each stage needs to be monitored, so that the hazard of the hazardous waste is avoided. The production, transportation, storage and subsequent treatment of the hazardous waste all need to be correspondingly monitored. In the current monitoring and management process of hazardous wastes, a single enterprise or staff can only monitor the state of the hazardous wastes in the current stage of the management of the single enterprise or staff, and the efficiency is low. In addition, when the hazardous waste is monitored by the software, the monitoring software can update the software, wherein the monitoring effect of the software on the hazardous waste cannot be realized in the process of updating the software. Even when only the software part of the hazardous waste transportation stage is updated, the state of other stages of the hazardous waste, such as the state of a storage bin, cannot be monitored, and the monitoring management efficiency of the hazardous waste is greatly reduced.

Disclosure of Invention

Aiming at the problems that the monitoring efficiency of the dangerous waste is low, and the monitoring software cannot work as a whole when the part of the monitoring software is updated, so that the dangerous waste cannot be effectively monitored and managed, the application provides a method, a system, a medium and equipment for managing the dangerous waste operation based on micro-service.

In a first aspect, the present application provides a method for managing hazardous waste operation based on micro-services, including: acquiring various dangerous waste information of the dangerous waste in the treatment process, and classifying according to different stages of the treatment process; according to different classified information of the hazardous waste, establishing a corresponding information management module so as to monitor and manage various classified information respectively; establishing communication among a plurality of information management modules so that hazardous waste information of other information management modules can be acquired through one information management module; the plurality of information management modules are integrated through the hazardous waste monitoring system, and the hazardous waste is monitored and managed through the hazardous waste monitoring map.

Optionally, various information of the hazardous waste in the disposal process is acquired and classified according to different stages of the disposal process, including: the hazardous waste information is classified according to a production stage, a transportation stage, a storage stage and a processing stage of the hazardous waste production, wherein the hazardous waste information of the production stage comprises hazardous waste production enterprise information, the hazardous waste information of the transportation stage comprises hazardous waste transportation information, the hazardous waste information of the storage stage comprises hazardous waste storage bin information, and the hazardous waste information of the processing stage comprises hazardous waste disposal enterprise information.

Optionally, a plurality of sensors are arranged in the hazardous waste storage bin, environmental information in the hazardous waste storage bin is acquired, and the information of delivering and warehousing of the hazardous waste is recorded, so that the information of the hazardous waste storage bin is obtained.

Optionally, according to different classified information of the hazardous waste, a corresponding information management module is established to monitor and manage various classified information respectively, including: the information of the hazardous waste output enterprises is managed through the hazardous waste output enterprise module; the dangerous waste transportation information is managed through a dangerous waste transportation module; the dangerous waste storage bin information is managed through a storage bin module; and managing the dangerous waste disposal enterprise information through a dangerous waste disposal enterprise module.

Optionally, communication is established between a plurality of information management modules, such that hazardous waste information of other information management modules can be acquired by one information management module, including: and establishing communication among the information management modules by using an RPC communication protocol to carry out communication among the information management modules.

Optionally, the system integrates a plurality of information management modules through the hazardous waste monitoring system, monitors and manages the hazardous waste through the hazardous waste monitoring map, includes: the method comprises the steps of respectively processing dangerous waste information corresponding to a plurality of information management modules through a dangerous waste monitoring system, and establishing a corresponding information layer; and selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information.

Optionally, selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information, including: clicking a hazardous waste mark corresponding to the hazardous waste information on the information layer; and acquiring other hazardous waste information associated with the hazardous waste mark according to the corresponding relation between the hazardous waste information.

In a second aspect, the present application proposes a hazardous waste operation management system based on micro-services, comprising: the module is used for acquiring various dangerous waste information of the dangerous waste in the treatment process and classifying the dangerous waste according to different stages of the treatment process; the module is used for establishing a corresponding information management module according to different classified information of the hazardous waste so as to respectively monitor and manage various classified information; a module for establishing communication between the plurality of information management modules such that hazardous waste information of the other information management modules can be acquired by one information management module; and the module is used for integrating the information management modules through the hazardous waste monitoring system and monitoring and managing the hazardous waste through the hazardous waste monitoring map.

In a third aspect, the present application proposes a computer-readable storage medium storing a computer program, wherein the computer program is operated to perform the microservice-based hazardous waste operation management method in scheme one.

In a fourth aspect, the present application proposes a computer device comprising a processor and a memory, the memory storing a computer program, wherein: the processor operates the computer program to perform the microservice-based hazardous waste operation management method in scenario one.

When the dangerous waste information is processed, a plurality of different modules are adopted to process the dangerous waste information of different categories, the processing modules are mutually independent, the functions of the processing modules are not mutually influenced, and when one side is updated, other modules can still work normally, so that the corresponding dangerous waste monitoring function is realized, the effect of monitoring and managing the dangerous waste is ensured, and meanwhile, the efficiency of monitoring the dangerous waste is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following description of the embodiments will briefly describe the drawings that are required to be used, and it is apparent that the drawings in the following description exemplarily show some embodiments of the present application.

FIG. 1 is a schematic diagram of one embodiment of a microservice-based hazardous waste operation management method of the present application;

FIG. 2 is a schematic illustration of the operational flow of the hazardous waste storage bin of the present application;

FIG. 3 is a schematic diagram of one example of a hazardous waste operation management method based on micro-services of the present application;

FIG. 4 is a schematic diagram of one embodiment of a microservice-based hazardous waste operation management system of the present application.

Specific embodiments of the present application have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

The preferred embodiments of the present application will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present application can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present application.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, 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 … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

In the process of treating the hazardous waste, the information of the hazardous waste in each stage needs to be monitored, so that the hazard of the hazardous waste is avoided. The production, transportation, storage and subsequent treatment of the hazardous waste all need to be correspondingly monitored. In the current monitoring and management process of hazardous wastes, a single enterprise or staff can only monitor the state of the hazardous wastes in the current stage of the management of the single enterprise or staff, and the efficiency is low. In addition, when the hazardous waste is monitored by the software, the monitoring software can update the software, wherein the monitoring effect of the software on the hazardous waste cannot be realized in the process of updating the software. Even when only the software part of the hazardous waste transportation stage is updated, the state of other stages of the hazardous waste, such as the state of a storage bin, cannot be monitored, resulting in a great reduction in the monitoring management efficiency of the hazardous waste.

Aiming at the problems, the application provides a hazardous waste operation management method, a system, a medium and equipment based on micro-services. The method comprises the following steps: acquiring various dangerous waste information of the dangerous waste in the treatment process, and classifying according to different stages of the treatment process; according to different classified information of the hazardous waste, establishing a corresponding information management module so as to monitor and manage various classified information respectively; establishing communication among a plurality of information management modules so that hazardous waste information of other information management modules can be acquired through one information management module; the plurality of information management modules are integrated through the hazardous waste monitoring system, and the hazardous waste is monitored and managed through the hazardous waste monitoring map.

When the dangerous waste information is processed, a plurality of different modules are adopted to process the dangerous waste information of different categories, the processing modules are mutually independent, the functions of the processing modules are not mutually influenced, and when one side is updated, other modules can still work normally, so that the corresponding dangerous waste monitoring function is realized, the effect of monitoring and managing the dangerous waste is ensured, and meanwhile, the efficiency of monitoring the dangerous waste is improved. In addition, when the hazardous wastes are monitored and managed through the monitoring map, a plurality of different layers are arranged on the monitoring map, and different hazardous waste information is displayed according to the selection of staff. In addition, by clicking the hazardous waste mark on the monitoring map, other hazardous waste information with corresponding relation with the mark can be obtained, and the efficiency of monitoring and managing the hazardous waste is improved.

The following describes the technical scheme of the present application and how the technical scheme of the present application solves the above technical problems in detail with specific embodiments. The specific embodiments described below may be combined with one another to form new embodiments. The same or similar ideas or processes described in one embodiment may not be repeated in certain other embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of one embodiment of a hazardous waste operation management method based on micro-services of the present application.

In the embodiment shown in fig. 1, the microservice-based hazardous waste operation management method of the present application includes a process S101 of acquiring various hazardous waste information of hazardous waste in a disposal process and classifying according to different stages of the disposal process.

In the embodiment, in the process of monitoring and managing the hazardous waste, information of the hazardous waste in the process of disposal is acquired, wherein the information comprises various stages of production, transportation, treatment, storage and the like of the hazardous waste. The acquired hazardous waste information comprises information of the hazardous waste itself, and also comprises enterprise information of corresponding processing enterprises and the like. Therefore, in order to improve the efficiency of the hazardous waste monitoring process, the acquired hazardous waste information is classified according to a certain standard, and the hazardous waste is managed according to a corresponding class.

Optionally, various information of the hazardous waste in the disposal process is acquired and classified according to different stages of the disposal process, including: the hazardous waste information is classified according to a production stage, a transportation stage, a storage stage and a processing stage of the hazardous waste production, wherein the hazardous waste information of the production stage comprises hazardous waste production enterprise information, the hazardous waste information of the transportation stage comprises hazardous waste transportation information, the hazardous waste information of the storage stage comprises hazardous waste storage bin information, and the hazardous waste information of the processing stage comprises hazardous waste disposal enterprise information.

In this alternative embodiment, the monitoring of hazardous waste, i.e. the monitoring of different treatment stages of hazardous waste. The acquired hazardous waste information is classified according to the different hazardous waste disposal processes, and then a corresponding monitoring module is established to specially process the part of the hazardous waste information. The stages of hazardous waste can be broadly classified into a production stage, a transportation stage, a storage stage, and a treatment stage of hazardous waste. And thus can be classified according to the above-described procedure.

Specifically, in the production stage of the hazardous waste, the corresponding hazardous waste information includes information of a hazardous waste production enterprise and information of the hazardous waste itself. In the transportation stage, the hazardous waste transportation information includes transportation vehicle information, transportation enterprise information, transportation path information, and the like for carrying out hazardous waste transportation. In the storage stage, the hazardous waste information comprises hazardous waste storage bin information for storing the hazardous waste, and the hazardous waste storage bin environment information and the like. The hazardous waste information at the processing stage includes hazardous waste disposal business information including business addresses and the like.

In the information acquisition, the acquisition of the hazardous waste history information and the acquisition of the hazardous waste real-time disposal information are both included. Through classifying the hazardous waste information, be convenient for monitor the hazardous waste by stages, can grasp the condition of hazardous waste at different stages, improve the effect of control management.

Optionally, a plurality of sensors are arranged in the hazardous waste storage bin, environmental information in the hazardous waste storage bin is acquired, and the information of delivering and warehousing of the hazardous waste is recorded, so that the information of the hazardous waste storage bin is obtained.

In this alternative embodiment, in the storage bin information acquisition of the hazardous waste storage stage, a plurality of sensors are arranged in the storage bin, and environmental information including temperature, humidity and the like in the storage bin is acquired and uploaded into a database through a wireless network. In addition, in the dangerous waste storage stage, the information of the warehouse entry and the warehouse exit of the dangerous waste is recorded and uploaded to a database for storage.

Specifically, when acquiring information of the hazardous waste storage bin, the hazardous waste storage bin can be detected by a sensor arranged inside the storage bin. For example, a hydrogen sulfide sensor for detecting the concentration of hydrogen sulfide in the storage bin; a carbon monoxide sensor for detecting the concentration of carbon monoxide in the storage bin; the EX combustible gas sensor is used for detecting the concentration of the combustible gas in the storage bin; an oxygen sensor for detecting the concentration of oxygen in the storage bin; a temperature sensor for detecting the temperature in the storage bin; humidity sensor for detecting humidity in the storage bin. Through setting up multiple sensor in danger waste storage storehouse, monitor the environmental information of storage storehouse to guarantee the security that storage storehouse used, in time early warning the dangerous condition that storage storehouse probably takes place. And uploading the monitored information to a database in real time through a wireless network, and simultaneously establishing an implementation environment information record and a history environment information record of the storage bin environment information, so that the environment information can be conveniently inquired.

Specifically, when the information of the dangerous waste storage bin is acquired, the method also comprises the steps of acquiring the information of the delivery and the storage of the dangerous waste in the storage bin, uploading the information to a database, and establishing a real-time ledger and a historical ledger of the delivery and the storage of the dangerous waste; and obtaining maintenance records of the storage bin, etc. In particular embodiments. And (3) carrying out dangerous waste ex-warehouse and warehouse-in through staff operation, and uploading registered information to a database for storage through a wireless network.

Specifically, FIG. 2 is a schematic illustration of the operational flow of the hazardous waste storage bin of the present application.

As shown in fig. 2, the hazardous waste storage bin is provided with a corresponding storage bin management system for management of storage bin operation. Wherein the operation of the storage bin mainly involves the warehousing and ex-warehouse of hazardous waste. In a specific flow, firstly, a storage bin management system is logged in, and when hazardous wastes enter a warehouse, relevant information of the hazardous wastes is supplemented or selected, including types, names, hazard grades and the like of the hazardous wastes. And then generating corresponding labels according to the information of the hazardous wastes, printing, pasting on a hazardous waste barrel, and warehousing the hazardous wastes. In the warehouse-in process, besides basic hazardous waste information selection, the weight of the hazardous waste needs to be weighed, and the hazardous waste can be weighed by a weighing device with Bluetooth communication. When the operation of delivering the dangerous wastes is carried out, the name of the chemical to be delivered is selected on the storage software, then the chemical name is manually selected or a label on a dangerous waste barrel is scanned by a code scanning gun, the label is added into a list to be delivered, and the delivery operation is carried out after the information verification is carried out by staff. In addition, an implementation ledger and a history ledger of the hazardous waste storage are reserved in the management system of the hazardous waste storage bin, so that the hazardous waste can be managed conveniently. Besides the operation of delivering and warehousing the hazardous wastes, the environmental information in the storage bin is recorded. Because the storage bin is a closed environment, temperature information, humidity information and the like in the storage bin need to be detected in time, and if the related measured value exceeds the corresponding threshold value, an alarm is given in time, so that the safety of dangerous waste storage is ensured.

Specifically, the storage bin management system is mainly oriented to staff of waste enterprises, and a user performs warehouse-out and warehouse-in operation through the storage bin display screen system to upload data to the cloud server. When dangerous waste is put in storage, firstly, dangerous waste information registration is carried out, a container manager is provided for registering dangerous waste in storage, chemical names are selected, and the system automatically acquires related information: factory date, main components, dangerous category, form, packaging mode, dangerous condition, safety measure, production unit, dangerous waste quantity, contact person and address. And then generating a label according to the selected information, and finally printing the label. Providing a dangerous waste information registration list display function, wherein the dangerous waste registration list can be repeatedly registered without exiting the current page during warehouse entry registration, and is displayed in a warehouse entry information list, single selection and multiple selection of list information are supported to be carried out when the dangerous waste is warehouse-in, a storage warehouse management system provides the current dangerous waste information and information to be warehouse-out display function, and the dangerous waste information display content comprises: chemical name, quantity (kg), principal ingredients, safety measures. The method comprises the steps of supporting hazardous waste screening, and screening hazardous waste ex-warehouse information through chemical names, hazardous categories and forms; the code scanning gun is supported to directly scan the two-dimensional code on the label to carry out dangerous waste delivery; displaying the quantity and weight information of the dangerous wastes of the current container and the dangerous wastes to be discharged. Meanwhile, the hazardous waste management system provides statistics of hazardous waste implementation ledgers and historical ledger information, and browsing and statistics of micro services are carried out.

Environmental information in the hazardous waste storage bin is collected according to a preset time interval in the storage bin management system, and the monitoring types are as follows: hydrogen sulfide, humidity, temperature, combustible EX, oxygen, carbon monoxide, temperature inside the storage bin, humidity, and other environmental information. At the time of acquisition, for example, monitoring data is recorded from 00:00 hours a day, and monitoring data is recorded every 1.5 hours.

In the embodiment shown in fig. 1, the microservice-based hazardous waste operation management method of the present application includes a process S102, and corresponding information management modules are established according to different classified information of hazardous waste, so as to monitor and manage various classified information respectively.

In the embodiment, the corresponding information management modules are utilized to process the dangerous waste information of different classifications, so that the monitoring of the dangerous waste is realized. Wherein each module is mutually independent, and one module can not influence the processing procedure of the other module. The modules at each place are micro-services, and the processing of the hazardous waste information is performed through the independent micro-services, so that when one module is updated or a problem needs to be processed, the normal work of other modules is not affected, and the efficiency of monitoring and managing the hazardous waste is improved.

Optionally, according to different classified information of the hazardous waste, a corresponding information management module is established to monitor and manage various classified information respectively, including: the information of the hazardous waste output enterprises is managed through the hazardous waste output enterprise module; the dangerous waste transportation information is managed through a dangerous waste transportation module; the dangerous waste storage bin information is managed through a storage bin module; and managing the dangerous waste disposal enterprise information through a dangerous waste disposal enterprise module.

In the alternative embodiment, after the hazardous waste information is classified, the hazardous waste information is monitored and managed by a corresponding processing module, wherein the hazardous waste output enterprise information is managed by a hazardous waste output enterprise module; the dangerous waste transportation information is managed through a dangerous waste transportation module; the dangerous waste storage bin information is managed through a storage bin module; and managing the dangerous waste disposal enterprise information through a dangerous waste disposal enterprise module.

In the embodiment shown in fig. 1, the microservice-based hazardous waste operation management method of the present application includes a process S103 of establishing communication between a plurality of information management modules so that hazardous waste information of other information management modules can be acquired through one information management module.

In this embodiment, the information management modules are independent of each other and do not affect each other, but data communication is performed between the modules. The information management modules are communicated, and the hazardous waste information in other information management modules can be acquired by one information management module, so that the rapid exchange of data can be realized, and the data acquisition is carried out through a database differently.

Optionally, communication between the information management modules is performed by establishing communication between the information management modules using an RPC communication protocol.

In this alternative embodiment, the information management modules of the present application use the RPC communication protocol to establish communication between the modules, so that data exchange between the information management modules is enabled.

Specifically, a unique identification ID can be assigned to a hazardous waste output enterprise in the process of treating the hazardous waste, and accordingly, the hazardous waste output by the hazardous waste output enterprise also has a unique corresponding ID. Thus, hazardous waste information at different stages of hazardous waste can be linked using the ID. The ID is also used for realizing information exchange among the information management modules.

In the embodiment shown in fig. 1, the method for managing the operation of hazardous wastes based on the micro-service applied includes a process S104, integrating a plurality of information management modules through a hazardous waste monitoring system, and monitoring and managing the hazardous wastes through a hazardous waste monitoring map.

In the embodiment, in order to more intuitively monitor and manage the hazardous wastes, the application processes the information of the hazardous wastes through each information management module, integrates a plurality of information management modules through a hazardous waste monitoring system, maps the hazardous waste information, monitors and manages the hazardous wastes by using a monitoring map, and improves the efficiency of monitoring the hazardous wastes.

Optionally, the system integrates a plurality of information management modules through the hazardous waste monitoring system, monitors and manages the hazardous waste through the hazardous waste monitoring map, includes: the method comprises the steps of respectively processing dangerous waste information corresponding to a plurality of information management modules through a dangerous waste monitoring system, and establishing a corresponding information layer; and selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information.

In the alternative embodiment, the hazardous waste information corresponding to each information management module is respectively processed in a hazardous waste monitoring system, and a corresponding information layer is established on a monitoring map. And displaying the hazardous waste information on each information layer to realize the visualization of hazardous waste monitoring.

Specifically, in the process of mapping the hazardous waste information, mapping is performed on spatial data including geographical position information in the hazardous waste information according to a map falling chart of the spatial position, for example, address information of a hazardous waste output enterprise, transportation route information in the hazardous waste transportation process, storage bin position information during hazardous waste storage and the like. In the monitoring map, staff can select the layer of the map that shows on the map, conveniently carries out the control of danger wastes. For example, on the monitoring map, only the position of the storage bin, or only the hazardous waste transportation route, etc. are displayed. The layers are independent from each other, and the use of other layers is not affected in the process of updating and maintaining one layer.

Optionally, clicking a hazardous waste mark corresponding to the hazardous waste information on the information layer; and acquiring other hazardous waste information associated with the hazardous waste mark according to the corresponding relation between the hazardous waste information.

In this alternative embodiment, the spatial data including the geographical location information in the hazardous waste information is displayed on the map according to its corresponding spatial location. Wherein for non-spatial data in the hazardous waste information, the spatial data is associated with the non-spatial data using the same hazardous waste having the same hazardous waste ID. For example, when the hazardous waste is stored, the position of the storage bin can be displayed in the monitoring map, and environment information and the like in the storage bin are related to the position of the storage bin, and when a worker clicks the storage bin mark on the map, the environment information corresponding to the storage bin can be obtained.

Fig. 3 is a schematic diagram of one example of a hazardous waste operation management method based on micro-services of the present application.

As shown in fig. 3, the present application utilizes the principle of micro-services to monitor and manage hazardous waste. In the hazardous waste information management, the acquired hazardous waste information is classified, as shown in fig. 3, and can be classified according to a production stage, a transportation stage, a storage stage, a processing stage and the like, and the acquired hazardous waste information is uploaded to a database for storage. When the hazardous waste information is processed, the corresponding processing module is utilized to process the corresponding classified data. For example, as shown in fig. 3, hazardous waste information in the output stage is processed by a hazardous waste output module, and hazardous waste information in the transportation stage is processed by a hazardous waste transportation module. By adopting the independent modules to process information, the mutual influence between the modules is avoided. In addition, the mutually independent modules establish communication through an RPC communication protocol to carry out data transmission. In the application, the hazardous wastes are monitored and managed by adopting a monitoring map. In the monitoring map, spatial data including the geographical position in the hazardous waste information is displayed on the monitoring map. For other dangerous waste information which does not contain geographic position information, the other dangerous waste information can be associated through unique IDs corresponding to dangerous waste or waste enterprises, and other information can be acquired through clicking corresponding marks on a monitoring map. In the monitoring map, different data adopt different layers, wherein according to data classification, can set up useless output layer of danger, useless transportation layer of danger, useless storage layer of danger, useless handling layer of danger and other. The layers are also independent from each other, and the corresponding display is performed on the monitoring map through the selection of staff.

When the dangerous waste information is processed, a plurality of different modules are adopted to process the dangerous waste information of different categories, the processing modules are mutually independent, the functions of the processing modules are not mutually influenced, and when one side is updated, other modules can still work normally, so that the corresponding dangerous waste monitoring function is realized, the effect of monitoring and managing the dangerous waste is ensured, and meanwhile, the efficiency of monitoring the dangerous waste is improved.

FIG. 4 is a schematic diagram of one embodiment of a microservice-based hazardous waste operation management system of the present application.

In the embodiment shown in fig. 4, the microservice-based hazardous waste operation management system of the present application includes: a module 401 for acquiring various hazardous waste information of the hazardous waste in the disposal process and classifying according to different stages of the disposal process; the module 402 is used for establishing a corresponding information management module according to different classified information of the hazardous waste so as to respectively monitor and manage various classified information; a module 403 for establishing communication between the plurality of information management modules such that hazardous waste information of other information management modules can be acquired by one information management module; and a module 404 for integrating the plurality of information management modules through a hazardous waste monitoring system and monitoring and managing hazardous waste through a hazardous waste monitoring map.

Optionally, various information of the hazardous waste in the disposal process is acquired and classified according to different stages of the disposal process, including: the hazardous waste information is classified according to a production stage, a transportation stage, a storage stage and a processing stage of the hazardous waste production, wherein the hazardous waste information of the production stage comprises hazardous waste production enterprise information, the hazardous waste information of the transportation stage comprises hazardous waste transportation information, the hazardous waste information of the storage stage comprises hazardous waste storage bin information, and the hazardous waste information of the processing stage comprises hazardous waste disposal enterprise information.

Optionally, a plurality of sensors are arranged in the hazardous waste storage bin, environmental information in the hazardous waste storage bin is acquired, and the information of delivering and warehousing of the hazardous waste is recorded, so that the information of the hazardous waste storage bin is obtained.

Optionally, according to different classified information of the hazardous waste, a corresponding information management module is established to monitor and manage various classified information respectively, including: the information of the hazardous waste output enterprises is managed through the hazardous waste output enterprise module; the dangerous waste transportation information is managed through a dangerous waste transportation module; the dangerous waste storage bin information is managed through a storage bin module; and managing the dangerous waste disposal enterprise information through a dangerous waste disposal enterprise module.

Optionally, communication is established between a plurality of information management modules, such that hazardous waste information of other information management modules can be acquired by one information management module, including: and establishing communication among the information management modules by using an RPC communication protocol to carry out communication among the information management modules.

Optionally, the system integrates a plurality of information management modules through the hazardous waste monitoring system, monitors and manages the hazardous waste through the hazardous waste monitoring map, includes: processing the hazardous waste information corresponding to the information management modules through the hazardous waste monitoring system respectively, and establishing a corresponding information layer; and selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information.

Optionally, selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information, including: clicking a hazardous waste mark corresponding to the hazardous waste information on the information layer; and acquiring other hazardous waste information associated with the hazardous waste mark according to the corresponding relation between the hazardous waste information.

When the dangerous waste information is processed, a plurality of different modules are adopted to process the dangerous waste information of different categories, the processing modules are mutually independent, the functions of the processing modules are not mutually influenced, and when one side is updated, other modules can still work normally, so that the corresponding dangerous waste monitoring function is realized, the effect of monitoring and managing the dangerous waste is ensured, and meanwhile, the efficiency of monitoring the dangerous waste is improved.

In one embodiment of the application, a computer readable storage medium stores computer instructions, wherein the computer instructions are operable to perform the microservice-based hazardous waste operation management method described in any of the embodiments. Wherein the storage medium may be directly in hardware, in a software module executed by a processor, or in a combination of the two.

A software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium.

The processor may be a central processing unit (English: central Processing Unit; CPU; for short), or other general purpose processor, digital signal processor (English: digital Signal Processor; for short DSP), application specific integrated circuit (English: application Specific Integrated Circuit; ASIC; for short), field programmable gate array (English: field Programmable Gate Array; FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or any combination thereof, etc. A general purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine. A processor may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an ASIC. The ASIC may reside in a user terminal. In the alternative, the processor and the storage medium may reside as discrete components in a user terminal.

In one embodiment of the application, a computer device includes a processor and a memory storing computer instructions, wherein: the processor operates the computer instructions to perform the microservice-based hazardous waste operation management method described in any of the embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of elements is merely a logical functional division, and there may be additional divisions of actual implementation, e.g., multiple elements or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

The foregoing is only illustrative of the present application and is not to be construed as limiting the scope of the application, and all equivalent structural changes made by the present application and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present application.

Claims (10)

1. A hazardous waste operation management method based on micro-services, comprising:

acquiring various dangerous waste information of the dangerous waste in the treatment process, and classifying according to different stages of the treatment process;

according to different classified information of the hazardous waste, establishing a corresponding information management module so as to monitor and manage various classified information respectively;

establishing communication among a plurality of information management modules, so that hazardous waste information of other information management modules is acquired through one information management module;

and integrating a plurality of information management modules through a hazardous waste monitoring system, and monitoring and managing the hazardous waste through a hazardous waste monitoring map.

2. The microservice-based hazardous waste operation management method of claim 1 wherein the acquiring various hazardous waste information of the hazardous waste in the disposal process and classifying according to different stages of the disposal process comprises:

the hazardous waste information is classified according to a production stage, a transportation stage, a storage stage and a processing stage of the hazardous waste production, wherein the hazardous waste information of the production stage comprises hazardous waste production enterprise information, the hazardous waste information of the transportation stage comprises hazardous waste transportation information, the hazardous waste information of the storage stage comprises hazardous waste storage bin information, and the hazardous waste information of the processing stage comprises hazardous waste disposal enterprise information.

3. The microservice-based hazardous waste operation management method according to claim 2, wherein a plurality of sensors are arranged in a hazardous waste storage bin, environmental information in the hazardous waste storage bin is acquired, and warehouse-out and warehouse-in information of hazardous waste is recorded, so that the hazardous waste storage bin information is obtained.

4. The microservice-based hazardous waste operation management method of claim 2, wherein the establishing a corresponding information management module according to different classified information of hazardous waste to monitor and manage multiple classified information respectively includes:

the dangerous waste output enterprise information is managed through a dangerous waste output enterprise module;

the dangerous waste transportation information is managed through a dangerous waste transportation module;

the dangerous waste storage bin information is managed through a storage bin module;

and managing the dangerous waste disposal enterprise information through a dangerous waste disposal enterprise module.

5. The microservice-based hazardous waste operation management method of claim 1 wherein the establishing communication between the plurality of information management modules such that hazardous waste information of other information management modules is acquired by one of the information management modules comprises:

and establishing communication among the information management modules by using an RPC communication protocol, and carrying out communication among the information management modules.

6. The microservice-based hazardous waste operation management method of claim 1 wherein the integrating of the plurality of information management modules by the hazardous waste monitoring system, the monitoring and management of the hazardous waste by the hazardous waste monitoring map, comprises:

the hazardous waste monitoring system is used for respectively processing the hazardous waste information corresponding to the information management modules and establishing a corresponding information layer;

and selecting a corresponding information layer on the hazardous waste monitoring map, and monitoring and managing the displayed hazardous waste information.

7. The microservice-based hazardous waste operation management method of claim 6, wherein the selecting a corresponding information layer on the hazardous waste monitoring map, monitoring and managing the displayed hazardous waste information, comprises:

clicking a hazardous waste mark corresponding to the hazardous waste information on the information layer;

and acquiring other hazardous waste information associated with the hazardous waste mark according to the corresponding relation between the hazardous waste information.

8. A microservice-based hazardous waste operation management system, comprising:

the module is used for acquiring various dangerous waste information of the dangerous waste in the treatment process and classifying the dangerous waste according to different stages of the treatment process;

the module is used for establishing a corresponding information management module according to different classified information of the hazardous waste so as to respectively monitor and manage various classified information;

means for establishing communication between a plurality of said information management modules such that hazardous waste information of other said information management modules is acquired by one of said information management modules;

and the module is used for integrating a plurality of information management modules through a hazardous waste monitoring system and monitoring and managing the hazardous waste through a hazardous waste monitoring map.

9. A computer readable storage medium storing a computer program, wherein the computer program is operative to perform the microservice-based hazardous waste operation management method of any one of claims 1-7.

10. A computer device comprising a processor and a memory, the memory storing a computer program, wherein: the processor operates the computer program to perform the microservice-based hazardous waste operation management method of any one of claims 1-7.