CN114386868B

CN114386868B - Waste management system and method based on Internet

Info

Publication number: CN114386868B
Application number: CN202210051977.0A
Authority: CN
Inventors: 贺天川; 孙博; 侯小宾
Original assignee: Rongtong Real Estate Property Management Co ltd
Current assignee: Rongtong Real Estate Property Management Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-09-02
Anticipated expiration: 2042-01-18
Also published as: CN114386868A

Abstract

The invention provides a waste management system and method based on the Internet, wherein the method comprises the following steps: classifying the wastes according to types, and performing weight distribution on the classified wastes of each type according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding weight distribution sequences; inputting the type and the weight corresponding to each waste package into a waste management system according to the waste weight distribution sequence of each type, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package; sending the weight distribution sequence of each kind of waste and the weight of the waste to a waste removing and processing department; the waste clearing department sorts the waste packages in each type of waste according to the waste weight information contained in the bar code marks on each waste package and determines whether the waste is lost or not. The system comprises modules corresponding to the method steps.

Description

Waste management system and method based on Internet

Technical Field

The invention provides a waste management system and method based on the Internet, and belongs to the technical field of article management.

Background

In the existing social environment, hazardous wastes such as chemical, biological and medical wastes are various in types and complex in nature, and besides the characteristics of toxicity, corrosivity, inflammability and infectivity, the pollution hazard of the hazardous wastes has the characteristics of long-term property and concealment, so that the hazardous conditions of the hazardous wastes are easily caused, and the environmental safety and the health of people are seriously threatened. However, in the transportation process of the waste materials, the problem that the packages of the waste materials are lost in the transportation process and the tracing difficulty is high often occurs.

Disclosure of Invention

The invention provides a waste management system and method based on Internet, which is used for solving the problem that waste is lost frequently in the existing waste treatment and management process, and adopts the following technical scheme:

an internet-based waste management method, the waste removal method comprising:

classifying the wastes according to types, and performing weight distribution on each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding sequences of weight distribution in each type of wastes; wherein the weight distribution correspondence order is set to a first waste order;

taking the type of waste as a unit, inputting the type and the weight corresponding to each waste package into a waste management system according to the waste weight distribution sequence of each type, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package; the waste parcel weight distribution sequence and the waste clearing treatment sequence are determined by unique identification through the weight value of the waste parcel corresponding to each type of waste;

sending the weight distribution sequence of each kind of waste and the weight of the waste to a waste removing and processing department;

the waste removing and processing department sorts the waste packages in each type of waste according to waste weight information contained in the bar code marks on each waste package to obtain a second waste sequence; and determining whether there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence.

Further, the weight distribution rule includes:

judging whether each type of waste exceeds a preset initial weight of waste distribution by taking the type of the waste as a unit; if the waste does not exceed the waste dispensing starting weight, dividing a first waste package according to 55% of the waste dispensing starting weight, and dividing the remaining weight of medical waste into a second waste package;

if the waste exceeds the initial waste distribution weight, marking a first waste package by a weight value corresponding to 20% of the initial waste distribution weight, and sequentially forming waste packages by the rest waste except the first waste package according to the corresponding weight value of the initial waste distribution weight which is increased by 3% relative to the previously formed waste package; when the remaining waste weight is not sufficient to satisfy the corresponding weight value of the waste distribution starting weight increased by 3% relative to the previously formed waste parcel, comparing the remaining waste weight with all waste parcel weights previously formed, and if the remaining waste weight is different from all waste parcel weights previously formed, forming the remaining waste weight into a waste parcel; if the weight of the residual waste is the same as the weight of all the waste parcels formed before, splitting the weight of the residual waste into two waste parcels, and ensuring that the weight values of the two waste parcels are different from the weight values of all the waste parcels formed before in the splitting process;

wherein the initial weight of waste dispensing is set as: the total weight of each waste package is obtained and the initial weight of waste distribution is obtained according to the following formula:

ΔW _z ＝INT[0.5×(W _z -W _max )]

wherein, W represents the initial weight of the waste distribution, and n represents the number of the types of the waste to be treated currently; w _z Represents the total weight of all types of waste currently to be treated; w _min Representing the total weight value of the corresponding single category of the wastes in the waste with the weight less than the total weight of the wastes in the n types to be processed currently; w _max Represents the total weight value, Δ W, of the single category of the corresponding waste in the waste with the highest weight among the n types of waste currently to be treated _z Indicating the weight of the reference object.

Further, the forming of the plurality of waste parcels in different weight and weight distribution corresponding sequences in each type of waste comprises:

setting the number of the packages of the wastes and the weight value of each package of the wastes according to the weight distribution rule by taking the types of the wastes as a unit;

wrapping and dividing wastes of each type according to the number of the packages of the wastes and the weight value of each package of the wastes to form a plurality of packages of the wastes; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process;

forming a first waste sequence according to a waste parcel dividing sequence, wherein the first waste sequence comprises weight values corresponding to waste parcels arranged from small to large.

Further, the waste removing and processing department sorts the waste packages in each type of waste according to the waste weight information contained in the bar code mark on each waste package to obtain a second waste sequence; and determining if there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence, comprising:

the waste removing and processing department acquires waste type information and waste weight information corresponding to each waste package through the bar code identifier on each waste package;

waste packages in each type of waste are sorted according to waste weight from small to large by waste type information and waste weight information to obtain a second waste sequence, wherein the second waste sequence is a weight value corresponding to the weight of each waste in sequence from front to back;

comparing the sequence position and value corresponding to each weight value in the second waste sequence with the sequence position and value corresponding to each weight value in the first waste sequence in a consistent manner, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost.

And when the situation that the waste is lost is determined, the waste transportation and treatment process before the waste removing and treating department is traced.

Further, the waste removing method further comprises the following steps:

after the waste is determined not to be lost, weighing each waste package in each waste species according to the sequence of the second waste by taking the type of the waste as a unit to obtain the weight information of each waste package, and taking the weight information of each waste package obtained at this time as the corresponding rechecking weight information of each waste package;

comparing the rechecked weight information of each waste package with the weight value corresponding to each waste package in the first waste sequence, if the weight difference between the rechecked weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence does not exceed a preset weight difference threshold value, indicating that the waste package meets the transportation processing standard, if the weight difference between the rechecked weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence exceeds a preset weight difference threshold value, determining that the waste package does not meet the transportation processing standard, and performing the tracing processing of the waste weight difference on the waste package which does not meet the transportation processing standard.

An internet based waste management system, the waste management system comprising:

the classification weighing module is used for classifying the wastes according to types and distributing the weight of each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding weight distribution sequences in each type of wastes; wherein the weight distribution correspondence order is set to a first waste order;

the input module is used for inputting the type and the weight corresponding to each waste package into the waste management system according to the waste weight distribution sequence of each type by taking the type of the waste as a unit, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package; the waste parcel weight distribution sequence and the waste clearing treatment sequence are determined by unique identification through the weight value of the waste parcel corresponding to each type of waste;

the sending module is used for sending the weight distribution sequence of each type of waste and the weight of the waste to a waste removing and processing department;

the determining module is used for sequencing the waste packages in each type of waste through waste weight information contained in the bar code identifier on each waste package by the waste removing and processing department to obtain a second waste sequence; and determining whether there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence.

Further, the weight distribution rule includes:

if the waste exceeds the waste distribution initial weight, dividing a first waste package by a weight value corresponding to 20% of the waste distribution initial weight, and sequentially forming waste packages according to the corresponding weight value of the waste distribution initial weight increased by 3% of each waste package relative to the previously formed waste package by the rest waste except the first waste package; comparing the remaining waste weight with all previously formed waste parcel weights when the remaining waste weight is not sufficient to satisfy a corresponding weight value of a waste allocation starting weight increased by 3% with respect to a previously formed waste parcel, and forming the remaining waste weight into one waste parcel if the remaining waste weight is different from all previously formed waste parcel weights; if the weight of the residual waste is the same as the weight values of all the waste parcels formed before, splitting the weight of the residual waste into two waste parcels, wherein the weight values of the two waste parcels are different from the weight values of all the waste parcels formed before in the splitting process;

ΔW _z ＝INT[0.5×(W _z -W _max )]

wherein, W represents the initial weight of the distribution of the waste, and n represents the number of types of the waste to be treated; w _z Represents the total weight of all types of waste currently to be treated; w _min Representing the total weight value of the corresponding single category of the wastes in the waste with the weight less than the total weight of the wastes in the n types to be processed currently; w _max Represents the total weight value, Δ W, of the single category of the corresponding waste in the waste with the highest weight among the n types of waste currently to be treated _z Indicating the weight of the reference object.

Further, the classifying and weighing module comprises:

the setting module is used for setting the number of the packages of the wastes and the weight value of each package of the wastes according to the weight distribution rule by taking the types of the wastes as a unit;

the dividing module is used for wrapping and dividing the wastes of each type according to the number of the packages of the wastes and the weight value of each package of the wastes to form a plurality of packages of the wastes; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process;

the first sequence forming module is used for forming a first waste sequence according to a waste parcel dividing sequence, wherein the first waste sequence comprises weight values corresponding to waste parcels arranged from small to large.

Further, the determining module includes:

the information acquisition module is used for the waste removing and processing department to acquire waste type information and waste weight information corresponding to each waste package through the bar code identifier on each waste package;

the second order acquisition module is used for wrapping wastes in each type of wastes through waste type information and waste weight information, sequencing the waste weights according to the waste weight from small to large to obtain a second waste order, wherein the second waste order is a weight value corresponding to the weight of each waste from front to back;

the consistency comparison module is used for carrying out consistency comparison on the sequence position and value corresponding to each weight value in the second waste sequence and the sequence position and value corresponding to each weight value in the first waste sequence, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost.

Further, the waste disposal system further comprises:

the rechecking module is used for respectively weighing each waste package in each waste species according to the sequence of the second waste by taking the type of the waste as a unit after determining that the waste is not lost, so as to obtain the weight information of each waste package, and taking the obtained weight information of each waste package as the rechecking weight information corresponding to each waste package;

and the comparison and tracing module is used for comparing the rechecking weight information of each waste package with the weight value corresponding to each waste package in the first waste sequence, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence does not exceed a preset weight difference threshold value, the waste package is indicated to accord with the transportation processing standard, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence exceeds a preset weight difference threshold value, the waste package is determined not to accord with the transportation processing standard, and the waste package which does not accord with the transportation processing standard is traced.

The invention has the beneficial effects that:

the waste management system and method based on the Internet determine whether the waste packages are lost or not by comparing the division of a plurality of waste packages with different weights for each type of waste with the sequence and weight consistency of each waste package in the sequence of the first waste and the sequence of the second waste, can verify the identity of each waste package only by comparing the consistency of the weight and the weight division sequence without performing unique identification authentication on each waste package, effectively reduce the setting amount of waste package identity authentication links and identity authentication corresponding components (two-dimensional codes, identity authentication chips or cards), and further reduce the cost of waste transportation and treatment. Meanwhile, the verification and authentication of the waste packages are carried out in a mode of comparing the consistency of the waste package sequence and the weight, so that the timeliness and the accuracy of the detection of the loss of the waste packages can be effectively improved.

Drawings

FIG. 1 is a first flow chart of the method of the present invention;

FIG. 2 is a second flow chart of the method of the present invention;

fig. 3 is a system block diagram of the system of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The invention provides a waste management system and method based on the Internet, which are used for solving the problems that waste is lost and cannot be traced in the existing waste treatment and management process, and adopt the following technical scheme:

the invention provides a waste management method based on the Internet, as shown in figure 1, the waste removing method comprises the following steps:

s1, classifying the wastes according to types, and distributing the weight of each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding weight distribution sequences in each type of wastes; wherein the weight distribution correspondence order is set to a first waste order;

s2, taking the type of the waste as a unit, recording the type and the weight corresponding to each waste package into a waste management system according to the weight distribution sequence of the waste of each type, forming a bar code identifier corresponding to the type and the weight, and printing the bar code identifier on the corresponding waste package; the waste parcel weight distribution sequence and the waste clearing treatment sequence are determined by unique identification through the weight value of the waste parcel corresponding to each type of waste;

s3, sending the weight distribution sequence of each type of waste and the weight of the waste to a waste removing and processing department;

s4, the waste removing department sorts the waste packages in each type of waste according to the waste weight information contained in the bar code mark on each waste package to obtain a second waste sequence; and determining whether there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence.

The working principle of the technical scheme is as follows: firstly, classifying the wastes according to types, and performing weight distribution on each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding weight distribution sequences in each type of wastes; wherein the weight-distribution correspondence order is set to a first waste order; secondly, taking the type of waste as a unit, inputting the type and the weight corresponding to each waste package into a waste management system according to the weight distribution sequence of the waste of each type, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package; the waste parcel weight distribution sequence and the waste clearing treatment sequence are determined by unique identification through the weight value of the waste parcel corresponding to each type of waste; then, sending the weight distribution sequence of each kind of waste and the weight of the waste to a waste removing and processing department; finally, the waste removing and processing department sorts the waste packages in each type of waste through the waste weight information contained in the bar code mark on each waste package to obtain a second waste sequence; and determining whether there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence.

The effect of the above technical scheme is as follows: according to the waste management method based on the Internet, whether waste packages are lost or not is determined by comparing the division of a plurality of waste packages with different weights for each type of waste with the sequence and weight consistency of each waste package in the first waste sequence and the second waste sequence, the identity of each waste package can be verified only by comparing the consistency of the weight and the weight division sequence under the condition that unique identification authentication is not needed for each waste package, the setting amount of waste package identity authentication links and identity authentication corresponding components (two-dimensional codes, identity authentication chips or cards) is effectively reduced, and the cost of waste transportation and treatment is further reduced. Meanwhile, the verification and authentication of the waste packages are carried out in a mode of comparing the consistency of the waste package sequence and the weight, so that the timeliness and the accuracy of the detection of the loss of the waste packages can be effectively improved.

In one embodiment of the present invention, the weight distribution rule comprises:

if the waste exceeds the initial waste distribution weight, marking a first waste package by a weight value corresponding to 20% of the initial waste distribution weight, and sequentially forming waste packages by the rest waste except the first waste package according to the corresponding weight value of the initial waste distribution weight which is increased by 3% relative to the previously formed waste package; comparing the remaining waste weight with all previously formed waste parcel weights when the remaining waste weight is not sufficient to satisfy a corresponding weight value of a waste allocation starting weight increased by 3% with respect to a previously formed waste parcel, and forming the remaining waste weight into one waste parcel if the remaining waste weight is different from all previously formed waste parcel weights; if the weight of the residual waste is the same as the weight of all the waste parcels formed before, splitting the weight of the residual waste into two waste parcels, and ensuring that the weight values of the two waste parcels are different from the weight values of all the waste parcels formed before in the splitting process;

ΔW _z ＝INT[0.5×(W _z -W _max )]

wherein, W represents the initial weight of the waste distribution, and n represents the number of the types of the waste to be treated currently; w _z Represents the total weight of all kinds of waste currently to be treated; w _min Representing the total weight value of the corresponding single category of the wastes in the waste with the weight less than the total weight of the wastes in the n types to be processed currently; w is a group of _max Represents the total weight value, Δ W, of the single category of the corresponding waste in the waste with the highest weight among the n types of waste currently to be treated _z Indicating the weight of the reference object; INT () representsA rounding down function.

The effect of the above technical scheme is: carry out weight division to the discarded object through above-mentioned weight distribution rule, can carry out the rationality distribution of every discarded object parcel weight to hazardous waste, and simultaneously, when improving the rationality of discarded object parcel weight distribution, the quantity that can guarantee the discarded object parcel that contains in every kind discarded object carries out rational distribution according to the total weight of every kind discarded object, the problem that the discarded object parcel quantity of preventing single kind discarded object is too much to lead to the increase of discarded object parcel recheck process complexity takes place, and simultaneously, also can avoid leading to single discarded object parcel weight too little because of the discarded object parcel quantity of single kind discarded object too big, increase the danger coefficient in transportation and the processing procedure, the problem that increases the potential safety hazard takes place. On the other hand, the initial weight of the waste distribution obtained by the formula can effectively combine the package division of each type of waste with the total weight of the waste to be treated at present, effectively improve the balance between the treatment of each type of waste and the treatment of the whole waste at present, meanwhile, the reasonability and the balance among the parcel division of various types of wastes are further improved, the phenomenon that the parcel division of one or more types of wastes unreasonable causes that the corresponding types of wastes consume too long time in the treatment process and influence the overall efficiency of the current overall waste treatment is prevented, further, the initial weight of the waste distribution obtained by the formula can further improve the reasonability of the package division of the following types of waste, and the coordination between the single-type waste treatment and the overall waste treatment progress, and the efficiency of the current overall waste treatment can be effectively improved.

In one embodiment of the invention, the forming of the plurality of waste parcels of different weight and weight distribution corresponding to the order in each type of waste comprises:

s101, setting the number of packages of the wastes and the weight value of each package of the wastes according to a weight distribution rule by taking the types of the wastes as a unit;

s102, wrapping and dividing wastes of each type according to the number of the waste packages and the weight value of each waste package to form a plurality of waste packages; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process;

s103, forming a first waste sequence according to a waste parcel dividing sequence, wherein the first waste sequence comprises weight values corresponding to waste parcels arranged from small to large.

The working principle of the technical scheme is as follows: firstly, setting the number of packages of wastes and the weight value of each package of wastes according to a weight distribution rule by taking the type of the wastes as a unit; then, wrapping and dividing the wastes of each type according to the number of the packages of the wastes and the weight value of each package of the wastes to form a plurality of packages of the wastes; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process; and finally, forming a first waste sequence according to the waste parcel dividing sequence, wherein the first waste sequence comprises the weight values corresponding to the waste parcels arranged from small to large.

The effect of the above technical scheme is as follows: carry out weight division to the discarded object through above-mentioned weight distribution rule, can carry out the rationality distribution of every discarded object parcel weight to hazardous waste, and simultaneously, when improving the rationality of discarded object parcel weight distribution, the quantity that can guarantee the discarded object parcel that contains in every kind discarded object carries out rational distribution according to the total weight of every kind discarded object, the problem that the discarded object parcel quantity of preventing single kind discarded object is too much to lead to the increase of discarded object parcel recheck process complexity takes place, and simultaneously, also can avoid leading to single discarded object parcel weight too little because of the discarded object parcel quantity of single kind discarded object too big, increase the danger coefficient in transportation and the processing procedure, the problem that increases the potential safety hazard takes place.

In one embodiment of the invention, the waste removing and processing department sorts the waste packages in each type of waste according to the waste weight information contained in the bar code mark on each waste package to obtain a second waste sequence; and determining if there is a loss of waste by a consistent comparison between the second sequence of waste and the first sequence of waste, comprising:

s401, the waste removing department acquires waste type information and waste weight information corresponding to each waste package through the bar code identifier on each waste package;

s402, wrapping the wastes in each type of wastes through waste type information and waste weight information, and sequencing the waste weights in a descending order according to the waste weights to obtain a second waste sequence, wherein the second waste sequence is a weight value corresponding to each waste weight from front to back;

s403, consistently comparing the sequence position and value corresponding to each weight value in the second waste sequence with the sequence position and value corresponding to each weight value in the first waste sequence, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost.

And S404, when the situation that the waste is lost is determined, tracing the waste transportation and treatment process before the waste removing and treating department.

The working principle of the technical scheme is as follows: firstly, the waste removing and processing department acquires waste type information and waste weight information corresponding to each waste package through a bar code mark on each waste package; then, wrapping the wastes in each type of wastes through waste type information and waste weight information, and sequencing the waste weights in a descending order according to the waste weights to obtain a second waste sequence, wherein the second waste sequence is a weight value corresponding to the weight of each waste in sequence from front to back; then, carrying out consistent comparison on the sequence position and value corresponding to each weight value in the second waste sequence and the sequence position and value corresponding to each weight value in the first waste sequence, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost. And finally, when the situation that the waste is lost is determined, the transportation and treatment processes of the waste before the waste removing and treating department are traced.

The effect of the above technical scheme is: whether the waste packages are in a lost state or not is determined by comparing the division of a plurality of waste packages with different weights for each type of waste with the sequence and weight consistency of each waste package in the first waste sequence and the second waste sequence, the identity of each waste package can be verified only by comparing the consistency of the weight and the weight division sequence under the condition that unique identification authentication is not required for each waste package, the setting amount of waste package identity authentication links and identity authentication corresponding parts (two-dimensional codes, identity authentication chips or cards) is effectively reduced, and the cost of waste transportation treatment is further reduced. Meanwhile, the verification and authentication of the waste packages are carried out in a mode of comparing the consistency of the waste package sequence and the weight, so that the timeliness and the accuracy of the detection of the loss of the waste packages can be effectively improved.

In one embodiment of the present invention, as shown in fig. 2, the waste removing method further includes:

firstly, after the situation that the waste is not lost is determined, weighing each waste package in each waste species according to a second waste sequence by taking the type of the waste as a unit to obtain weight information of each waste package, and taking the obtained weight information of each waste package as rechecking weight information corresponding to each waste package;

and secondly, comparing the rechecking weight information of each waste package with the weight value corresponding to each waste package in the first waste sequence, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence does not exceed a preset weight difference threshold value, indicating that the waste package meets the transportation processing standard, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence exceeds a preset weight difference threshold value, determining that the waste package does not meet the transportation processing standard, and performing tracing processing on the waste packages which are transported and do not meet the processing standard.

The working principle of the technical scheme is as follows: firstly, after the waste is determined not to be lost, weighing each waste package in each waste category according to the sequence of second waste by taking the type of the waste as a unit to obtain the weight information of each waste package, and taking the weight information of each waste package obtained at this time as the rechecking weight information corresponding to each waste package; then, the rechecking weight information of each waste parcel is compared with the weight value corresponding to each waste parcel in the first waste sequence, if the weight difference between the rechecking weight information of each waste parcel and the weight value corresponding to each waste parcel in the first waste sequence does not exceed a preset weight difference threshold value, the waste parcel is indicated to meet the transportation processing standard, if the weight difference between the rechecking weight information of each waste parcel and the weight value corresponding to each waste parcel in the first waste sequence exceeds a preset weight difference threshold value, the waste parcel is determined not to meet the transportation processing standard, and the waste parcel which does not meet the transportation processing standard is subjected to the tracing processing of the weight difference of the waste.

The effect of the above technical scheme is as follows: by the weight contrast check and recheck of each waste package, the safety and the monitoring tightness in the transportation process of the dangerous waste are effectively improved.

An internet-based waste management system according to an embodiment of the present invention is, as shown in fig. 3, a waste management system including:

the classification weighing module is used for classifying the wastes according to types, and distributing the weight of each classified waste according to a weight distribution rule to form a plurality of waste packages in a corresponding sequence with different weights and weight distribution in each type of waste; wherein the weight distribution correspondence order is set to a first waste order;

The working principle of the technical scheme is as follows: firstly, classifying the wastes according to types through a classifying and weighing module, and performing weight distribution on each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding sequences of weight distribution in each type of wastes; wherein the weight distribution correspondence order is set to a first waste order; secondly, inputting the type and the weight corresponding to each waste package into a waste management system according to the waste weight distribution sequence of each type by adopting an input module by taking the type of the waste as a unit, forming a bar code identifier corresponding to the type and the weight, and printing the bar code identifier on the corresponding waste package; the waste parcel weight distribution sequence and the waste clearing treatment sequence are determined by unique identification through the weight value of the waste parcel corresponding to each type of waste; then, the weight distribution sequence of each kind of waste and the weight of the waste are sent to a waste removing and processing department through a sending module; finally, the waste removing department sorts the waste packages in each type of waste by using a determining module according to the waste weight information contained in the bar code identifier on each waste package to obtain a second waste sequence; and determining whether there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence.

The effect of the above technical scheme is: the waste management system based on the internet determines whether the waste packages are lost or not by comparing the division of a plurality of waste packages with different weights for each type of waste with the sequence and weight consistency of each waste package in the first waste sequence and the second waste sequence, can verify the identity of each waste package only by comparing the consistency of the weight and the weight division sequence under the condition of not performing unique identification authentication on each waste package, effectively reduces the setting amount of waste package identity authentication links and identity authentication corresponding parts (two-dimensional codes, identity authentication chips or cards), and further reduces the cost of waste transportation and treatment. Meanwhile, the verification and authentication of the waste packages are carried out in a mode of comparing the consistency of the waste package sequence and the weight, so that the timeliness and the accuracy of the detection of the loss of the waste packages can be effectively improved.

In one embodiment of the invention, the weight distribution rule comprises:

wherein the initial weight of waste dispensing is set as: the total weight of each waste package is obtained and the waste distribution starting weight is obtained according to the following formula:

ΔW _z ＝INT[0.5×(W _z -W _max )]

The effect of the above technical scheme is as follows: carry out weight division to the discarded object through above-mentioned weight distribution rule, can carry out the rationality distribution of every discarded object parcel weight to hazardous waste, and simultaneously, when improving the rationality of discarded object parcel weight distribution, the quantity that can guarantee the discarded object parcel that contains in every kind discarded object carries out rational distribution according to the total weight of every kind discarded object, the problem that the discarded object parcel quantity of preventing single kind discarded object is too much to lead to the increase of discarded object parcel recheck process complexity takes place, and simultaneously, also can avoid leading to single discarded object parcel weight too little because of the discarded object parcel quantity of single kind discarded object too big, increase the danger coefficient in transportation and the processing procedure, the problem that increases the potential safety hazard takes place. On the other hand, the initial weight of the waste distribution obtained by the formula can effectively combine the wrapping division of each type of waste with the total weight of the waste to be treated at present, effectively improve the balance between the treatment of each type of waste and the treatment of the whole waste at present, meanwhile, the reasonability and the balance among the parcel division of various types of wastes are further improved, the phenomenon that the parcel division of one or more types of wastes unreasonable causes that the corresponding types of wastes consume too long time in the treatment process and influence the overall efficiency of the current overall waste treatment is prevented, further, the initial weight of the waste distribution obtained by the formula can further improve the reasonability of the package division of the following types of waste, and the coordination between the single-type waste treatment and the overall waste treatment progress, and the efficiency of the current overall waste treatment can be effectively improved.

In one embodiment of the present invention, the classifying and weighing module includes:

the dividing module is used for wrapping and dividing the wastes of each type according to the number of the packages of the wastes and the weight value of each package of the wastes to form a plurality of packages of the wastes; wherein, the weight division process is carried out on the parcel division of the wastes according to the sequence of the weight values from small to large;

The working principle of the technical scheme is as follows: firstly, setting the number of packages of wastes and the weight value of each package of wastes for each type of wastes according to a weight distribution rule by using the type of the wastes as a unit through a setting module; then, wrapping and dividing the wastes of each type through a dividing module according to the number of the waste packages and the weight value of each waste package to form a plurality of waste packages; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process; and finally, forming a first waste sequence by adopting a first sequence forming module according to a waste package dividing sequence, wherein the first waste sequence comprises weight values corresponding to the waste packages which are arranged from small to large.

The effect of the above technical scheme is as follows: the wastes are subjected to weight division through the weight distribution rule, the reasonable distribution of the parcel weight of each waste can be carried out on the hazardous wastes, meanwhile, the reasonability of the parcel weight distribution of the wastes is improved, the quantity of the parcels of the wastes contained in each kind of wastes can be guaranteed to be reasonably distributed according to the total weight of each kind of wastes, the problem that the parcel quantity of the wastes of a single kind of wastes is too large to cause the increase of the complexity of the parcel rechecking process of the wastes is prevented, meanwhile, the problem that the parcel quantity of the wastes of a single kind of wastes is too small to cause the overlarge weight of the parcels of the single wastes is also avoided, the danger coefficient in the transportation and treatment processes is increased, and the problem of potential safety hazards is increased.

In one embodiment of the present invention, the determining module includes:

the second order acquisition module is used for wrapping wastes in each type of wastes through waste type information and waste weight information, sorting the waste weights according to the waste weight from small to large, and acquiring a second waste order, wherein the second waste order is a weight value corresponding to the weight of each waste from front to back;

The working principle of the technical scheme is as follows: firstly, the waste removing and processing department utilizes an information acquisition module to acquire waste type information and waste weight information corresponding to each waste package through a bar code mark on each waste package; secondly, wrapping the wastes in each type of wastes by using a second sequence acquisition module through waste type information and waste weight information, and sequencing the waste weights in a descending order according to the waste weight to obtain a second waste sequence, wherein the second waste sequence is sequentially provided with a weight value corresponding to the weight of each waste from front to back; then, carrying out consistency comparison on the sequence position and value corresponding to each weight value in the second waste sequence and the sequence position and value corresponding to each weight value in the first waste sequence through a consistency comparison module, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost.

And when the waste is determined to be lost, tracing the transportation and treatment process of the waste before a waste removing and treating department.

The effect of the above technical scheme is as follows: whether the waste packages are in a lost state or not is determined by comparing the division of a plurality of waste packages with different weights for each type of waste with the sequence and weight consistency of each waste package in the first waste sequence and the second waste sequence, the identity of each waste package can be verified only by comparing the consistency of the weight and the weight division sequence under the condition that unique identification authentication is not required for each waste package, the setting amount of waste package identity authentication links and identity authentication corresponding parts (two-dimensional codes, identity authentication chips or cards) is effectively reduced, and the cost of waste transportation treatment is further reduced. Meanwhile, the verification and authentication of the waste packages are carried out in a mode of comparing the consistency of the waste package sequence and the weight, so that the timeliness and the accuracy of the detection of the loss of the waste packages can be effectively improved.

In one embodiment of the invention, the waste disposal system further comprises:

The working principle of the technical scheme is as follows: firstly, after determining that the waste is not lost, weighing each waste package in each waste species according to a second waste sequence by taking the type of the waste as a unit through a rechecking module to obtain weight information of each waste package, and taking the obtained weight information of each waste package as rechecking weight information corresponding to each waste package; then, the comparison and tracing module is used for comparing the rechecking weight information of each waste package with the weight value corresponding to each waste package in the first waste sequence, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence does not exceed a preset weight difference threshold value, the waste package is indicated to meet the transportation processing standard, if the weight difference between the rechecking weight information of each waste package and the weight value corresponding to each waste package in the first waste sequence exceeds a preset weight difference threshold value, the waste package is determined not to meet the transportation processing standard, and the waste package which does not meet the transportation processing standard is traced.

The effect of the above technical scheme is as follows: by the weight contrast check and rechecking of each waste package, the safety and the monitoring tightness in the transportation process of the dangerous waste are effectively improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. An internet-based waste management method, the waste removal method comprising:

classifying the wastes according to types, and performing weight distribution on each classified type of wastes according to a weight distribution rule to form a plurality of waste packages with different weights and corresponding weight distribution sequences in each type of wastes; wherein the weight distribution correspondence order is set to a first waste order; the weight distribution rule comprises: judging whether each type of waste exceeds a preset initial weight of waste distribution by taking the type of the waste as a unit; if the waste does not exceed the waste distribution starting weight, dividing a first waste package according to 55% of the waste distribution starting weight, and dividing the rest waste into a second waste package; if the waste exceeds the initial waste distribution weight, marking a first waste package by a weight value corresponding to 20% of the initial waste distribution weight, and sequentially forming waste packages by the rest waste except the first waste package according to the corresponding weight value of the initial waste distribution weight which is increased by 3% relative to the previously formed waste package; comparing the remaining waste weight with all previously formed waste parcel weights when the remaining waste weight is not sufficient to satisfy a corresponding weight value of a waste allocation starting weight increased by 3% with respect to a previously formed waste parcel, and forming the remaining waste weight into one waste parcel if the remaining waste weight is different from all previously formed waste parcel weights; if the weight of the residual waste is the same as the weight values of all the waste parcels formed before, splitting the weight of the residual waste into two waste parcels, and ensuring that the weight values of the two waste parcels are different from the weight values of all the waste parcels formed before in the splitting process;

taking the type of waste as a unit, inputting the type and the weight corresponding to each waste package into a waste management system according to the waste weight distribution corresponding sequence of each type, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package;

sending the corresponding sequence of the weight distribution of each type of waste and the weight of the waste to a waste removing and processing department;

2. The method of claim 1, wherein forming a plurality of waste parcels of different weight and weight distribution corresponding sequences in each type of waste comprises:

3. The method of claim 1, wherein the waste removal processing department sorts the waste parcels in each waste category by waste weight information contained in the barcode label on each waste parcel to obtain a second waste order; and determining if there is a loss of waste by a consistent comparison between the second waste sequence and the first waste sequence, comprising:

4. The method of claim 1, wherein the waste removal method further comprises:

after the situation that the waste is not lost is determined, weighing each waste package in each waste species according to the sequence of the second waste by taking the type of the waste as a unit to obtain the weight information of each waste package, and taking the weight information of each waste package obtained at this time as the rechecking weight information corresponding to each waste package;

5. An internet-based waste management system, the waste management system comprising:

the classification weighing module is used for classifying the wastes according to types, distributing the weight of each classified waste according to a weight distribution rule, and forming a plurality of waste packages with different weights and corresponding weight distribution sequences in each waste; wherein the weight-distribution correspondence order is set to a first waste order; the weight distribution rule comprises: judging whether each type of waste exceeds a preset initial weight of waste distribution by taking the type of the waste as a unit; if the waste does not exceed the waste distribution starting weight, dividing a first waste package according to 55% of the waste distribution starting weight, and dividing the rest waste into a second waste package; if the waste exceeds the initial waste distribution weight, marking a first waste package by a weight value corresponding to 20% of the initial waste distribution weight, and sequentially forming waste packages by the rest waste except the first waste package according to the corresponding weight value of the initial waste distribution weight which is increased by 3% relative to the previously formed waste package; comparing the remaining waste weight with all previously formed waste parcel weights when the remaining waste weight is not sufficient to satisfy a corresponding weight value of a waste allocation starting weight increased by 3% with respect to a previously formed waste parcel, and forming the remaining waste weight into one waste parcel if the remaining waste weight is different from all previously formed waste parcel weights; if the weight of the residual waste is the same as the weight values of all the waste parcels formed before, splitting the weight of the residual waste into two waste parcels, and ensuring that the weight values of the two waste parcels are different from the weight values of all the waste parcels formed before in the splitting process;

the input module is used for inputting the type and the weight corresponding to each waste package into the waste management system according to the waste weight distribution corresponding sequence of each type by taking the type of the waste as a unit, forming a bar code identification corresponding to the type and the weight, and printing the bar code identification on the corresponding waste package;

the sending module is used for sending the corresponding weight distribution sequence of each type of waste and the weight of the waste to a waste removing and processing department;

the determining module is used for sequencing the waste packages in each type of waste through waste weight information contained in the bar code identifier on each waste package by the waste removing and processing department to obtain a second waste sequence; and determining if there is a loss of waste by a consistent comparison between the second sequence of waste and the first sequence of waste.

6. The waste management system of claim 5, wherein the sorting and weighing module comprises:

the dividing module is used for wrapping and dividing the wastes of each type according to the number of the waste packages and the weight value of each waste package to form a plurality of waste packages; wherein, the waste package division is carried out according to the sequence of the weight values from small to large in the weight division process;

7. The waste management system of claim 5, wherein the determining module comprises:

a consistency comparison module, configured to perform consistency comparison on the sequence position and value corresponding to each weight value in the second waste sequence and the sequence position and value corresponding to each weight value in the first waste sequence, and if the sequence position and value corresponding to each weight value in the second waste sequence are consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determine that waste is not lost; and if the sequence position and value corresponding to each weight value in the second waste sequence are not consistent with the sequence position and value corresponding to each weight value in the first waste sequence, determining that the waste is lost.

8. The waste management system of claim 5, wherein the waste removal system further comprises:

the rechecking module is used for weighing each waste package in each waste species according to the sequence of the second wastes by taking the type of the wastes as a unit after determining that the wastes are not lost, obtaining the weight information of each waste package, and taking the obtained weight information of each waste package as the rechecking weight information corresponding to each waste package;