CN110288061B - Electronic tag generation method for dangerous waste management - Google Patents

Abstract

The invention relates to the technical field of industrial hazardous waste treatment, in particular to an electronic tag generation method for hazardous waste management. The invention solves the problem of dangerous waste management.

Description

Electronic tag generation method for dangerous waste management

Technical Field

The invention relates to the technical field of industrial hazardous waste treatment, in particular to an electronic tag generation method for hazardous waste management.

Background

Hazardous waste is a special waste with different production amount, complex components and various types, has the harm of toxicity, explosiveness, inflammability, corrosiveness, chemical reactivity, radioactivity and the like, can have harmful effects on the environment or human health, and has the characteristics of long-term property and latency. Hazardous waste is classified into solid hazardous waste and liquid hazardous waste, and at present, the hazardous waste treatment method comprises the methods of incineration, landfill, solidification, chemical treatment and the like. Before the dangerous waste is treated, the dangerous waste is required to be stored in a container for unified management, and then the dangerous waste is treated according to a related treatment method, so that the harmless aim is finally achieved.

In the prior art, there are a number of problems with the management of hazardous waste: 1. the container for containing the hazardous waste is easy to pollute or corrode due to the factor of the hazardous waste, so that workers can not know specific parameters of the hazardous waste contained in the container, and the hazardous waste is messy to manage, and can be treated by a wrong treatment method during treatment, so that unexpected reaction of the hazardous waste occurs, and safety accidents such as explosion and release of toxic gas are caused. 2. Dangerous waste material is difficult to realize whole course tracking, and the treatment process has great potential safety hazard.

Disclosure of Invention

The invention mainly aims to provide an electronic tag generation method for dangerous waste management, which can generate an electronic tag and solve the problem of dangerous waste management.

In order to achieve the above object, the present invention provides an electronic tag generation method for hazardous waste management, comprising the steps of:

s1, acquiring factory manufacturers and factory times of dangerous wastes through a data acquisition end, and generating factory records according to the factory manufacturers and the factory times;

s2, acquiring a detection report of the dangerous waste by the detection terminal through dangerous factors of the dangerous waste at the data acquisition end, and comparing and analyzing the acquired dangerous factors with the detection report; if the difference does not exist, generating a normal record, and if the difference exists, generating a difference record and reporting;

s3, evaluating the hazard type and hazard grade of the hazardous waste according to the normal record, and generating an evaluation record;

s4, acquiring storage mode information and disposal mode information of the hazardous waste according to the normal record and the evaluation record;

s5, acquiring a material circulation state of the hazardous waste in the disposal site, and generating a circulation state record.

S6, collecting and sorting factory records, normal records, evaluation records and circulation state records, and storing the records into the electronic tag.

S7, the electronic tag is arranged at a gate of the dangerous waste storage area.

The system used for the electronic tag generation method for dangerous waste management further comprises a read-write terminal used for reading and writing the electronic tag and an image identification terminal used for identifying dangerous waste.

The read-write terminal comprises the following modules:

the data statistics module is used for statistically sorting factory records and evaluation records in the electronic tag, arranging corresponding lists of parameters in the factory records and the evaluation records, and generating a data table; the parameters include factory manufacturer, risk factor, hazard class and hazard grade.

The form filling module is used for automatically generating forms, and the forms are used for filling in dangerous waste information for users.

The keyword reading module is used for reading keywords of the dangerous waste information when a user fills out the form, and searching the same or similar data in the data table according to the keywords.

The data pre-display module is used for pre-displaying the searched same or similar data in the table for the user to select.

The data preloading module is used for loading the selected data into the table when the data is selected from the same or similar data.

The data storage module is used for storing the filled form into the electronic tag.

The image recognition terminal comprises the following modules:

and the storage module is used for storing data.

And the photographing module is used for photographing the dangerous waste physical image through the camera.

And the identification module is used for identifying the hazardous wastes according to the shape and the color in the physical diagram.

And the manual modification module is used for manually modifying the identification result of the identification module when the identification is wrong, generating a dangerous waste identification record by the identification result and the modification information, and storing the dangerous waste identification record in the storage module.

The self-optimizing module is used for calling the dangerous waste identification record in the storage module and comparing the dangerous waste identification record with the identification result when the dangerous waste is identified according to the shape and the color in the physical diagram, acquiring the type information of the identified dangerous waste if the comparison result is true, and generating the dangerous waste identification record to be stored in the storage module; if the comparison result is false, the type information of the dangerous waste in the modification information is obtained from the manual modification module, and a dangerous waste identification record is generated and stored in the storage module.

The information sending module is used for sending the type information of the hazardous waste to the read-write terminal so that the read-write terminal can screen the hazardous factors, the hazardous types and the hazardous grade parameters from the data table through the type information of the hazardous waste to pre-display.

The working principle and the advantages of the invention are as follows:

this scheme can be to the management of danger useless, can do the production from the mill and manage to final overall process of handling, and through electronic tags, can manage the material circulation state of dangerous waste in the disposal site, the whole course tracking of being convenient for to the material. The method is convenient for technicians or managers to control the properties of dangerous waste materials, reasonably select the treatment mode and monitor the whole process.

Further, step S4 includes the steps of:

s401, collecting batch data of dangerous wastes through a data collecting end, and generating a corresponding batch number according to the batch data; and stored in the electronic tag.

The batch number is recorded so as to track the responsibility of the dangerous waste, and thus the confusion is avoided.

Further, step S4 includes the steps of:

s402, measuring the weight and the volume of dangerous waste through a weighing terminal, acquiring parameters of dangerous waste containers, selecting proper containers, and acquiring the number of the containers according to the weight, the volume and the dangerous factors; and the parameters and the quantity of the containers are stored in the electronic tag.

Avoiding the corrosion of the container or the overflow of the hazardous waste caused by improper storage of the hazardous waste, thereby causing the leakage of the hazardous waste.

Further, step S4 includes the steps of:

s403, acquiring information of each staff performing material circulation on the dangerous waste in the disposal site, and storing the information into the electronic tag.

The material circulation flow of the whole hazardous waste is conveniently and reasonably monitored.

Further, step S4 includes the steps of:

s405, acquiring information of a responsible person who manages the hazardous waste in the disposal site, and storing the information in the electronic tag.

The responsibility of the dangerous wastes can be tracked afterwards, so that the situation that the processor is mixed and unclear is avoided, and the responsibility is mutually released.

Further, the parameters include corrosion resistance, radiation protection, permeation protection, explosion protection, sealing, volume, quality, material, and precautions.

The dangerous waste has the properties of radiation, corrosion, inflammability, explosiveness and the like, and the dangerous waste is contained by selecting a containing container with reasonable parameters, so that dangerous accidents can be avoided.

Further, step S4 includes the steps of:

s406, acquiring the geographical position information of the dangerous waste storage area through the positioning terminal, generating a navigation chart of the dangerous waste storage area according to the geographical position information, and storing the navigation chart in the electronic tag.

The staff can conveniently find the area for storing the dangerous waste rapidly.

Further, step S4 includes the steps of:

s407, acquiring the access information of the dangerous waste storage area, and storing the access information into the electronic tag.

The method is convenient for managing the entering and exiting of the dangerous waste storage area, can track the responsibility of dangerous waste treatment errors afterwards, and avoids the confusion of treatment people or treatment processes and mutual deduction of the responsibility.

Further, the disposal mode information includes incineration information, landfill information, solidification information, and chemical treatment information.

The accident caused by the fact that the worker selects the wrong disposal mode to dispose the dangerous waste is avoided.

Detailed Description

The following is a further detailed description of the embodiments:

embodiment one:

an electronic tag generation method for dangerous waste management comprises the following steps:

s1, acquiring factory manufacturers and factory times of dangerous wastes through a data acquisition end, and generating factory records according to the factory manufacturers and the factory times;

s2, acquiring a detection report of the dangerous waste by the detection terminal through dangerous factors of the dangerous waste at the data acquisition end, and comparing and analyzing the acquired dangerous factors with the detection report; if the difference does not exist, generating a normal record, and if the difference exists, generating a difference record and reporting;

s3, evaluating the hazard type and hazard grade of the hazardous waste according to the normal record, and generating an evaluation record;

s4, acquiring storage mode information and disposal mode information of the hazardous waste according to the normal record and the evaluation record; the disposal mode information includes incineration information, landfill information, solidification information, and chemical treatment information.

S401, collecting batch data of dangerous wastes through a data collecting end, and generating a corresponding batch number according to the batch data; and stored in the electronic tag.

S402, measuring the weight and the volume of dangerous waste through a weighing terminal, acquiring parameters of dangerous waste containers, selecting proper containers, and acquiring the number of the containers according to the weight, the volume and the dangerous factors; and the parameters and the quantity of the containers are stored in the electronic tag. The parameters include corrosion resistance, radiation protection, permeation protection, explosion protection, sealing, volume, quality, material, and precautions.

S403, acquiring information of each staff performing material circulation on the dangerous waste in the disposal site, and storing the information into the electronic tag.

S404, acquiring information of a responsible person who manages the hazardous waste in the disposal site, and storing the information in the electronic tag.

S405, acquiring geographical position information of the dangerous waste storage area through the positioning terminal, generating a navigation chart of the dangerous waste storage area according to the geographical position information, and storing the navigation chart in the electronic tag.

S406, acquiring an access control electronic key of the hazardous waste storage area, and storing the access control electronic key into the electronic tag.

S5, acquiring a material circulation state of the hazardous waste in a disposal site, and generating a circulation state record;

s6, collecting and sorting factory records, normal records, evaluation records and circulation state records, and storing the records into the electronic tag.

S7, the electronic tag is arranged at a gate of the dangerous waste storage area.

The specific implementation process is as follows:

according to the scheme, the factory records, the batch numbers, the weight information and the volume information are managed, so that a warehouse manager can conveniently supervise the waste enterprises, the situation that materials are entrained, mixed and packaged or the packaging is not standard can be avoided, the waste enterprises can be traced according to the collected information, and the tracing management of the information is achieved.

According to the scheme, through the management of normal records, difference records, reports and evaluation records, technicians can conveniently control the properties of dangerous waste materials, the storage mode and the storage container are reasonably selected, for example, high pollution factor materials and highly toxic substances are required to be specially managed, the management cannot be carried out according to conventional materials, and proper containing containers are required to be selected for containing and storing.

According to the scheme, through the management of the information of each worker and the information of the responsible person in material circulation, after an accident, the accident can be traced back, the responsible person can be found conveniently, the confusion is avoided, and the responsibility is released mutually. The navigation chart, the disposal mode and other information can provide technical support for workers, so that the workers can conveniently find out dangerous waste storage areas quickly, can conveniently master the disposal modes of different dangerous waste materials, avoid the selection of wrong disposal methods for disposal, enable dangerous wastes to have unexpected reactions, and cause safety accidents such as explosion, release of toxic gases and the like. This scheme has solved the problem that dangers exist in the management through setting up electronic tags, sets up the gate in dangers deposit the region moreover, and not deposit on the splendid attire container, avoided the possibility with dangers direct contact, just also avoided leading to information incomplete under dangers' radiation or the effect of corruption to cause the safety problem.

Example two

The second embodiment differs from the first embodiment in that: the system also comprises a read-write terminal for reading and writing the electronic tag and an image recognition terminal for recognizing dangerous waste, wherein the read-write terminal comprises the following modules:

and a data statistics module: the method comprises the steps of carrying out statistics and arrangement on factory records and evaluation records in the electronic tag, carrying out corresponding list arrangement on parameters in the factory records and the evaluation records, and generating a data table; the parameters include factory manufacturer, risk factor, hazard class and hazard grade.

The form filling module: for automatically generating forms for the user to fill in hazardous waste information.

Keyword reading module: and the keyword is used for reading the dangerous waste information when the user fills out the form, and searching the same or similar data in the data table according to the keyword.

And a data pre-display module: the method is used for displaying the searched same or similar data in the table in advance for the user to select.

And a data preloading module: for loading selected data into a table when data is selected from the same or similar data.

And a data storage module: and the electronic tag is used for storing the filled-in form into the electronic tag.

The image recognition terminal comprises the following modules:

and a storage module: for storing data;

and a photographing module: the camera is used for shooting a dangerous waste object image;

and an identification module: the method is used for identifying dangerous wastes according to the shape and the color in the physical diagram;

manual modification module: the system is used for manually correcting the identification result of the identification module when the identification error is detected, generating a dangerous waste identification record by the identification result and correction information, and storing the dangerous waste identification record in the storage module;

and a self-optimizing module: when the dangerous waste is identified according to the shape and the color in the physical diagram, the dangerous waste identification record in the storage module is called and compared with the identification result, if the comparison result is true, the type information of the identified dangerous waste is obtained, and the dangerous waste identification record is generated and stored in the storage module; if the comparison result is false, the type information of the dangerous waste in the modification information is obtained from the manual modification module, and a dangerous waste identification record is generated and stored in the storage module.

An information sending module: and the system is used for sending the type information of the dangerous waste to the read-write terminal so that the read-write terminal can screen parameters such as dangerous factors, dangerous types, dangerous grades and the like from the data table through the type information of the dangerous waste for pre-display. The user can conveniently fill out the form, avoid manually inputting, detecting and consulting related data of dangerous waste, and save time.

The read-write terminal and the image recognition terminal can be arranged on the intelligent flat-panel device in a centralized mode, and integrated multifunctional mode is achieved.

The specific implementation process is as follows:

according to the scheme, when the data is written into the electronic tag through the read-write terminal, the form can be automatically generated, and when a user fills dangerous waste information into the form, the dangerous waste information can be rapidly filled into the form, so that the time for filling the information is saved.

In addition, the dangerous waste types are identified through the image identification terminal, so that when the user fills in the dangerous waste types, parameters such as dangerous factors, dangerous types, dangerous grades and the like corresponding to the dangerous waste types are pre-displayed, the user can directly select to fill in, filling time is saved, and danger is avoided due to the fact that the user is in close contact with the dangerous waste for a long time. In addition, the scheme adopts a self-optimizing mode, so that the more data are filled in and the more times are recognized, the recognition efficiency and filling efficiency of the form can be continuously improved, and the filling time of the form is saved to the greatest extent.

The foregoing is merely an embodiment of the present invention, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present invention, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent. The protection scope of the present application should be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the claims.

Claims (8)

1. The electronic tag generation method for dangerous waste management is characterized by comprising the following steps of: the method comprises the following steps:

s1, acquiring factory manufacturers and factory times of dangerous wastes through a data acquisition end, and generating factory records according to the factory manufacturers and the factory times;

s2, acquiring a detection report of the dangerous waste by the detection terminal through dangerous factors of the dangerous waste at the data acquisition end, and comparing and analyzing the acquired dangerous factors with the detection report; if the difference does not exist, generating a normal record, and if the difference exists, generating a difference record and reporting;

s3, evaluating the hazard type and hazard grade of the hazardous waste according to the normal record, and generating an evaluation record;

s4, acquiring storage mode information and disposal mode information of the hazardous waste according to the normal record and the evaluation record;

step S4 further comprises the steps of: s406, acquiring geographical position information of the hazardous waste storage area through the positioning terminal, generating a navigation chart of the hazardous waste storage area according to the geographical position information, and storing the navigation chart in the electronic tag;

s5, acquiring a material circulation state of the hazardous waste in a disposal site, and generating a circulation state record;

s6, collecting and sorting factory records, normal records, evaluation records and circulation state records, and storing the records into an electronic tag;

s7, arranging the electronic tag at a gate of the dangerous waste storage area;

the system for generating the electronic tag for dangerous waste management further comprises a read-write terminal for reading and writing the electronic tag and an image recognition terminal for recognizing dangerous waste;

the read-write terminal comprises the following modules:

the data statistics module is used for statistically sorting the factory records and the evaluation records in the electronic tag, arranging the parameters in the factory records and the evaluation records into corresponding lists, and generating a data table; the parameters comprise factory manufacturers, risk factors, hazard categories and hazard grades;

the form filling module is used for automatically generating a form, and the form is used for filling dangerous waste information by a user;

the keyword reading module is used for reading keywords of the dangerous waste information when a user fills out a form and searching the same or similar data in the data table according to the keywords;

the data pre-display module is used for pre-displaying the searched same or similar data in the table for the user to select;

the data preloading module is used for loading the selected data into the table when the data is selected from the same or similar data;

the data storage module is used for storing the filled form into the electronic tag;

the image recognition terminal comprises the following modules:

the storage module is used for storing data;

the photographing module is used for photographing a dangerous waste object image through the camera;

the identification module is used for identifying dangerous wastes according to the shape and the color in the physical diagram;

the manual modification module is used for manually modifying the identification result of the identification module when the identification is wrong, generating a dangerous waste identification record by the identification result and the modification information, and storing the dangerous waste identification record in the storage module;

the self-optimizing module is used for calling the dangerous waste identification record in the storage module and comparing the dangerous waste identification record with the identification result when the dangerous waste is identified according to the shape and the color in the physical diagram, and if the comparison result is true, acquiring the type information of the identified dangerous waste, generating the dangerous waste identification record and storing the dangerous waste identification record in the storage module; if the comparison result is false, acquiring the type information of the dangerous waste in the modification information from the manual modification module, and generating a dangerous waste identification record to be stored in the storage module;

the information sending module is used for sending the type information of the hazardous waste to the read-write terminal so that the read-write terminal can screen the hazardous factors, the hazardous types and the hazardous grade parameters from the data table through the type information of the hazardous waste to pre-display.

2. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the step S4 further includes the steps of:

s401, collecting batch data of dangerous wastes through a data collecting end, and generating a corresponding batch number according to the batch data; and stored in the electronic tag.

3. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the step S4 further includes the steps of:

s402, measuring the weight and the volume of dangerous waste through a weighing terminal, acquiring parameters of dangerous waste containers, selecting proper containers, and acquiring the number of the containers according to the weight, the volume and the dangerous factors; and the parameters and the quantity of the containers are stored in the electronic tag.

4. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the step S4 further includes the steps of:

s403, acquiring information of each staff performing material circulation on the dangerous waste in the disposal site, and storing the information into the electronic tag.

5. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the step S4 further includes the steps of:

s405, acquiring information of a responsible person who manages the hazardous waste in the disposal site, and storing the information in the electronic tag.

6. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the parameters include corrosion resistance, radiation protection, permeation protection, explosion protection, sealing, volume, quality, material, and precautions.

7. The electronic tag generation method for hazardous waste management according to claim 1, wherein:

the step S4 further includes the steps of:

s407, acquiring the access information of the dangerous waste storage area, and storing the access information into the electronic tag.

8. The electronic tag generation method for hazardous waste management according to claim 1, wherein: the disposal mode information includes incineration information, landfill information, solidification information, and chemical treatment information.