CN115423380B - Classification garbage recycling intelligent management platform based on Internet of things - Google Patents

Abstract

The invention relates to the technical field of classified garbage recycling intelligent management, and particularly discloses a classified garbage recycling intelligent management platform based on the Internet of things. The method makes up for the single and one-sided evaluation of the recycling value of the recycled garbage in the prior art, realizes the multidimensional analysis of the recycling value evaluation of the recycled garbage, intuitively displays the recycling value of the garbage of each treatment grade corresponding to each regenerated object type in various types of recycled garbage, and simultaneously provides reliable data support for the comprehensive value evaluation coefficient corresponding to the various types of recycled garbage in the subsequent recyclable garbage bin.

Description

Classification garbage recycling intelligent management platform based on Internet of things

Technical Field

The invention relates to the technical field of classified garbage recycling intelligent management, in particular to an Internet of things-based classified garbage recycling intelligent management platform.

Background

Garbage is taken as one of main environmental pollutants, and the recovery and the reuse of the classified garbage are beneficial to the environmental protection, and are mainly characterized in that: the method has the advantages of reducing the occupied area, reducing waste pollution, changing waste into valuable and the like, thereby highlighting the importance of intelligent management of recycling of the classified garbage.

At present, the existing classified garbage recycling mainly classifies community garbage through manpower, and the classification mode has the problems of high labor cost and easy manual subjective influence of classification standards, so that the accuracy and reliability of classification results of the classified garbage are low, the referential performance of a recyclable garbage classification procedure in the community is low, and the recycling effect of the subsequent recyclable garbage is further affected.

The existing garbage recycling analysis often omits to analyze the dirt degree of each type of recyclable garbage by analyzing each type of recyclable garbage, improves the complexity of the treatment of the subsequent recycling process of the recyclable garbage, and reduces the production efficiency of the recycling of the subsequent recyclable garbage.

The existing garbage recycling value analysis belongs to single-layer analysis, only analyzes the application value of the recyclable garbage, does not analyze the utilization rate and the resource saving rate of the recyclable garbage, causes the situation that the garbage recycling value analysis result has one-sided performance, and cannot provide reliable data support for the comprehensive value of classified garbage recycling.

Disclosure of Invention

In order to overcome the defects in the background technology, the embodiment of the invention provides an intelligent management platform for recycling classified garbage based on the Internet of things, which can effectively solve the problems related to the background technology.

The aim of the invention can be achieved by the following technical scheme: classified garbage recycling intelligent management platform based on the Internet of things comprises: the community recyclable dustbin classification analysis module is used for classifying, analyzing and processing garbage corresponding to the recyclable dustbin in the community to obtain garbage sets corresponding to various types of recycled garbage in the recyclable dustbin.

The recyclable garbage disposal level monitoring and analyzing module is used for monitoring and analyzing the disposal levels of the garbage in the garbage collection corresponding to the various types of recycled garbage to obtain the disposal levels corresponding to the garbage in the various types of recycled garbage, wherein the recyclable garbage disposal level monitoring and analyzing module comprises a pollution degree monitoring and analyzing unit, a harmful component monitoring and analyzing unit and a disposal level analyzing unit.

The recyclable garbage application value analysis module is used for classifying and processing the processing grades corresponding to the garbage in each type of recycled garbage to obtain garbage sets corresponding to the processing grades in each type of recycled garbage, and analyzing application value evaluation indexes of the garbage sets corresponding to the processing grades in each type of recycled garbage.

The recyclable garbage recycling value analysis module is used for acquiring the weight of the garbage collection corresponding to each treatment grade in each type of recycled garbage, analyzing the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, and obtaining the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, so that the utilization rate and the resource saving rate of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are analyzed, and further the recycling value evaluation indexes of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are comprehensively analyzed.

The recyclable garbage comprehensive value analysis module is used for analyzing the comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can to obtain the comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can.

And the recyclable garbage comprehensive value display module is used for displaying comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage bin.

As an optional implementation manner, the garbage corresponding to the recyclable garbage can in the community is subjected to classification analysis and treatment, and the specific analysis and treatment process is as follows: the method comprises the steps of collecting images of all garbage corresponding to recyclable garbage in a community through a high-definition camera to obtain images of all garbage corresponding to the recyclable garbage in the recyclable garbage, and matching the images of all garbage corresponding to the recyclable garbage with set images of all types of recycled garbage to obtain the types of recycled garbage corresponding to all garbage in the recyclable garbage.

And (3) carrying out similar screening on the types of the recovered garbage corresponding to each garbage in the recyclable garbage can to obtain garbage sets corresponding to various types of the recovered garbage in the recyclable garbage can.

As an optional implementation manner, the pollution level monitoring and analyzing unit is used for monitoring and analyzing the pollution level of each garbage in the garbage collection corresponding to each type of recycled garbage in the recyclable garbage can, and the specific monitoring and analyzing modes are as follows: the apparent dirt images of the various types of recycled garbage in the recyclable garbage can corresponding to the garbage in the garbage collection are monitored through the high-definition camera to obtain various types of recycled garbage in the recyclable garbage canThe apparent dirt image corresponding to each garbage is extracted from the apparent dirt image, and the dirt quantity and the total dirt area corresponding to each garbage of each type of recovered garbage are respectively recorded asI is the number of each type of recycled garbage, < >>J is the number of each garbage, +.>。

Detecting points are uniformly distributed at the dirt positions of various types of recovered garbage corresponding to the garbage in the recoverable garbage can, the dirt thickness corresponding to each detecting point is obtained, and the maximum dirt thickness and the average dirt thickness of the various types of recovered garbage corresponding to the garbage are obtained from the dirt thickness and the average dirt thickness are respectively recorded as 。

Calculating to obtain the dirt degree evaluation index of each type of recovered garbage corresponding to each garbage, and marking as。

As an optional implementation manner, the harmful component monitoring and analyzing unit is used for monitoring and analyzing the harmful components of each garbage corresponding to each dirty place in each type of recycled garbage in the recyclable garbage can, and the specific monitoring and analyzing modes are as follows: the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage in the recoverable garbage can are monitored through a component detector to obtain the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage, and the content of the harmful components of the garbage corresponding to the dirty positions in the various types of recovered garbage is extracted from the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage based on preset harmful components and is recorded asF is the number at each dirty place,r is expressed as the content of each harmful ingredient, < >>Simultaneously counting the quantity of harmful components corresponding to each dirty place of each garbage in each type of recovered garbage, and marking as->。

Calculating to obtain harmful component evaluation index of each type of recovered garbage corresponding to each garbage, and recording as。

As an optional implementation manner, the treatment level analysis unit is used for analyzing the treatment level of each type of recycled garbage in the recyclable garbage can, and the specific analysis mode is as follows: according to the formula Calculating the evaluation index of the treatment state of each type of recovered garbage corresponding to each garbage, and carrying out->A treatment state evaluation index expressed as a treatment state of the ith type of reclaimed garbage corresponding to the jth garbage, e expressed as a natural constant,>the evaluation factors are respectively expressed as set pollution degree evaluation indexes and corresponding harmful component evaluation indexes.

And matching the processing state evaluation index corresponding to each garbage in each type of recovered garbage with the set processing state evaluation index threshold corresponding to each processing grade to obtain the processing grade corresponding to each garbage in each type of recovered garbage.

As an optional implementation manner, the application value evaluation index of the garbage collection corresponding to each treatment grade in each type of recovered garbage is analyzed in the following specific analysis mode: extracting the treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage from the treatment state evaluation indexes of the garbage corresponding to the various types of recovered garbage, and summing the treatment state evaluation indexes to obtain the comprehensive treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage, wherein the comprehensive treatment state evaluation indexes are recorded asK is denoted as the number of the respective processing class, < >>。

Matching the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can with the set various types of the recycled garbage to obtain the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can, and recording the application value factors as 。

According to the formulaCalculating an application value evaluation index of the garbage collection corresponding to each treatment level in each type of recovered garbage, and performing ∈10>An application value evaluation index expressed as a corresponding garbage collection of the kth processing level in the ith type of reclaimed garbage,/I>Respectively representing the set comprehensive processing state evaluation indexes and the weight factors corresponding to the application value factors.

As a kind of cocoaIn an optional implementation manner, the value influence indexes of the garbage sets corresponding to the treatment levels in the various types of recovered garbage are analyzed in the following specific analysis modes: the weight of garbage collection corresponding to each treatment grade in various types of recovered garbage is recorded asAccording to the formula->Calculating the value influence index of the garbage collection corresponding to each treatment level in the recycled garbage of each type, and adding +.>The value influence index of the k treatment level corresponding to the garbage collection in the i-th type reclaimed garbage is expressed as->Representing the reference weight of the garbage collection corresponding to the kth treatment level in the set ith type of reclaimed garbage,/for the set ith type of reclaimed garbage>The value influencing factors corresponding to the set ith type recovery garbage are expressed as +.>Respectively expressed as preset weight, value influence factor and weight corresponding to application value evaluation index.

As an optional implementation manner, the analysis of the utilization rate and the resource saving rate of each treatment grade garbage in each type of recycled garbage corresponding to each regenerated object type is as follows: matching the value influence indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage with the utilization rates of the regenerated object types corresponding to the set various value influence indexes to obtain the utilization rates of the garbage corresponding to the regenerated object types corresponding to the treatment grades in the various types of recovered garbage, and marking asH is denoted by the number of each regenerated item type, < >>。

Multiplying the weight of the garbage collection corresponding to each treatment grade in each type of recovered garbage by the utilization rate of the corresponding regenerated article types to obtain the weight of each regenerated article type corresponding to each treatment grade in each type of recovered garbage, matching each regenerated article type in unit weight with the weight of each consumed raw material corresponding to the regenerated article type, simultaneously matching each regenerated article type in unit weight with the weight of each consumed energy corresponding to the regenerated article type to obtain the weight of each regenerated article type corresponding to each consumed raw material and the weight of each consumed energy in unit weight, calculating to obtain the appointed weight of each regenerated article type corresponding to each consumed raw material and the appointed weight of each consumed energy in each treatment grade in each type of recovered garbage, and respectively marking as And->X is the number of the various consumable raw materials, < >>D is the number of the energy consumption of each kind, < >>。

According to the formulaCalculating the resource saving rate of the garbage of each treatment grade corresponding to each regenerated object type in the recycled garbage of each type, < > and the like>Resource saving rate expressed as the (h) th regenerated item type corresponding to the (k) th treatment class garbage in the (i) th type recycled garbage,/th regenerated item type>Reference specified weight expressed as the set x-th class of consumable raw material, +.>Reference weight indicated as the set d-th class energy consumption,/for the energy consumption>The correction factors are respectively expressed as the set types of the consumed raw materials and the weight of the consumed energy.

As an optional implementation manner, the comprehensive analysis of the recycling value evaluation index of each treatment grade garbage in each type of recycled garbage corresponding to each regenerated object type comprises the following specific analysis formula:，/>expressed as an evaluation index of recycling value of the kth treatment class garbage in the ith type of recycling garbage corresponding to the ith regenerated object type, +.>Respectively expressed as compensation factors corresponding to the set utilization rate and resource saving rate.

As an optional implementation manner, the analysis is performed on the comprehensive value evaluation coefficients corresponding to each type of recycled garbage in the recyclable garbage can, and the specific analysis steps are as follows: matching each regenerated article type in the unit weight with the pollution discharge amount corresponding to each regenerated article type in the set unit weight to obtain each regenerated article in the unit weight The pollution discharge amount corresponding to the types of the biological objects is calculated and obtained, and the pollution discharge amount corresponding to the types of the regenerated objects in the treatment grades in the recycled garbage of each type is recorded asFurther, the pollution reduction index of each treatment grade in each type of recovered garbage corresponding to each regenerated object type is calculated and recorded as +.>。

According to the formulaCalculating comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can, and performing +.>Expressed as a comprehensive value evaluation coefficient corresponding to the ith type of recycled garbage in the recyclable garbage bin,/>The values are respectively expressed as coefficient factors corresponding to the set reuse value evaluation index and the pollution reduction index.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects: according to the invention, the images of the recyclable garbage in the community corresponding to the garbage are collected through the high-definition camera, and are matched with the images of the recyclable garbage, so that the automatic monitoring and processing of the type classification of the recyclable garbage are realized, the problems of high labor intensity and high error rate of manual monitoring are avoided, the precision and reliability of the classification result of the recyclable garbage in each type are further improved, the referential property of the classification process of the recyclable garbage in the community is further improved, and the recycling effect of the subsequent recyclable garbage is ensured to a great extent.

According to the invention, the apparent images of the garbage corresponding to the various types of recovered garbage and the harmful components at the dirty positions are monitored, and the dirty degree evaluation index and the harmful component evaluation index of the garbage corresponding to the various types of recovered garbage are obtained through analysis, so that the treatment grade corresponding to the garbage in the various types of recovered garbage is obtained through comprehensive analysis, the influence on the recycling process of the recovered garbage due to the different treatment grades corresponding to the garbage in the various types of recovered garbage is avoided to a great extent, and the production efficiency of the subsequent recycling of the recoverable garbage is improved.

According to the invention, the application value evaluation indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage are analyzed, the value influence indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage are analyzed, and meanwhile, the utilization rate and the resource saving rate of the garbage corresponding to the regenerated object types in the various types of recovered garbage are analyzed, so that the reuse value evaluation indexes of the garbage corresponding to the regenerated object types in the various types of recovered garbage are comprehensively analyzed; on one hand, the method makes up for the single property and one-sided property of the recycling value evaluation of the recycled garbage in the prior art, and realizes the multidimensional analysis of the recycling value evaluation of the recycled garbage; on the other hand, the recycling value of the garbage of each treatment grade corresponding to each regenerated object type in the various types of recycled garbage is intuitively displayed, and meanwhile, reliable data support is provided for the comprehensive value evaluation coefficient corresponding to the various types of recycled garbage in the subsequent recyclable garbage bin.

According to the invention, the comprehensive value evaluation coefficients corresponding to the various types of the recovered garbage in the recoverable garbage can are obtained through comprehensive analysis of the pollution reduction index and the reuse value evaluation index corresponding to the various types of the recovered garbage in the recoverable garbage can, visual monitoring and rational analysis are provided for the comprehensive value evaluation corresponding to the various types of the recovered garbage to a certain extent, and the significance of garbage recovery and reuse is beneficial to community people to intuitively know.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

FIG. 1 is a schematic diagram of the system module connection of the present invention.

FIG. 2 is a schematic diagram of the connection of the recoverable waste treatment grade monitoring and analyzing module according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention provides an intelligent management platform for recycling classified garbage based on the internet of things, which comprises a community recyclable garbage bin classification analysis module, a recyclable garbage disposal level monitoring analysis module, a recyclable garbage application value analysis module, a recyclable garbage recycling value analysis module, a recyclable garbage comprehensive value analysis module and a recyclable garbage comprehensive value display module.

The community recyclable dustbin classification analysis module is connected with the recyclable garbage disposal grade monitoring analysis module, the recyclable garbage disposal grade monitoring analysis module is connected with the recyclable garbage application value analysis module, the recyclable garbage application value analysis module is connected with the recyclable garbage recycling value analysis module, the recyclable garbage recycling value analysis module is connected with the recyclable garbage comprehensive value analysis module, and the recyclable garbage comprehensive value analysis module is connected with the recyclable garbage comprehensive value display module.

The community recyclable dustbin classification analysis module is used for classifying, analyzing and processing garbage corresponding to the recyclable dustbin in the community to obtain garbage sets corresponding to various types of recycled garbage in the recyclable dustbin.

It should be noted that various types of recycled garbage include, but are not limited to: books, plastics, glass, ironwork.

As an optional implementation manner, the garbage corresponding to the recyclable garbage can in the community is subjected to classification analysis and treatment, and the specific analysis and treatment process is as follows: the method comprises the steps of collecting images of all garbage corresponding to recyclable garbage in a community through a high-definition camera to obtain images of all garbage corresponding to the recyclable garbage in the recyclable garbage, and matching the images of all garbage corresponding to the recyclable garbage with set images of all types of recycled garbage to obtain the types of recycled garbage corresponding to all garbage in the recyclable garbage.

And (3) carrying out similar screening on the types of the recovered garbage corresponding to each garbage in the recyclable garbage can to obtain garbage sets corresponding to various types of the recovered garbage in the recyclable garbage can.

As a preferred scheme of the invention, the images of the recyclable garbage in the community corresponding to the garbage are collected through the high-definition camera, and are matched with the images of the recyclable garbage, so that automatic monitoring and processing of the type classification of the recyclable garbage are realized, the problems of high labor intensity and high error rate of manual monitoring are avoided, the precision and reliability of the classification result of the recyclable garbage in each type are further improved, the referential performance of the classification process of the recyclable garbage in the community is further improved, and the recycling effect of the subsequent recyclable garbage is ensured to a great extent.

Referring to fig. 2, the recoverable waste disposal level monitoring and analyzing module is configured to monitor and analyze disposal levels of each waste in the waste collection corresponding to each type of recovered waste, so as to obtain disposal levels corresponding to each waste in each type of recovered waste, where the recoverable waste disposal level monitoring and analyzing module includes a pollution level monitoring and analyzing unit, a harmful component monitoring and analyzing unit, and a disposal level analyzing unit.

As an optional implementation manner, the pollution level monitoring and analyzing unit is used for monitoring and analyzing the pollution level of each garbage in the garbage collection corresponding to each type of recycled garbage in the recyclable garbage can, and the specific monitoring and analyzing modes are as follows: apparent dirt images of various types of recycled garbage in the recyclable dustbin corresponding to each garbage in the garbage collection are monitored through the high-definition cameraObtaining apparent dirt images of various types of recovered garbage corresponding to the garbage in the recoverable garbage can, extracting dirt quantity and total dirt area of the various types of recovered garbage corresponding to the garbage from the images, and respectively recording the dirt quantity and the total dirt area asI is the number of each type of recycled garbage, < >>J is the number of each garbage, +.>。

Detecting points are uniformly distributed at the dirt positions of various types of recovered garbage corresponding to the garbage in the recoverable garbage can, the dirt thickness corresponding to each detecting point is obtained, and the maximum dirt thickness and the average dirt thickness of the various types of recovered garbage corresponding to the garbage are obtained from the dirt thickness and the average dirt thickness are respectively recorded as 。

Calculating to obtain the dirt degree evaluation index of each type of recovered garbage corresponding to each garbage, and marking as。

The specific calculation formula of the evaluation index of the dirt degree of each type of recovered garbage corresponding to each garbage is as follows，/>Respectively expressed as the set allowable dirt quantity, allowable dirt total area, allowable dirt thickness, +.>Respectively expressed as set dirtThe number, total area of dirt, maximum thickness of dirt, and average thickness of dirt.

As an optional implementation manner, the harmful component monitoring and analyzing unit is used for monitoring and analyzing the harmful components of each garbage corresponding to each dirty place in each type of recycled garbage in the recyclable garbage can, and the specific monitoring and analyzing modes are as follows: the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage in the recoverable garbage can are monitored through a component detector to obtain the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage, and the content of the harmful components of the garbage corresponding to the dirty positions in the various types of recovered garbage is extracted from the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage based on preset harmful components and is recorded as F is the number at each dirty place,r is expressed as the content of each harmful ingredient, < >>Simultaneously counting the quantity of harmful components corresponding to each dirty place of each garbage in each type of recovered garbage, and marking as->。

Calculating to obtain harmful component evaluation index of each type of recovered garbage corresponding to each garbage, and recording as。

The specific calculation formula of the harmful ingredient evaluation index of each type of recycled garbage corresponding to each garbage is as follows，/>Expressed as the allowable content of the set r-th harmful ingredient,>expressed as the set allowable harmful ingredient amount, < + >>The respective factors are set to the respective influence factors corresponding to the content and the amount of the harmful components.

As an optional implementation manner, the treatment level analysis unit is used for analyzing the treatment level of each type of recycled garbage in the recyclable garbage can, and the specific analysis mode is as follows: according to the formulaCalculating the evaluation index of the treatment state of each type of recovered garbage corresponding to each garbage, and carrying out->A treatment state evaluation index expressed as a treatment state of the ith type of reclaimed garbage corresponding to the jth garbage, e expressed as a natural constant,>the evaluation factors are respectively expressed as set pollution degree evaluation indexes and corresponding harmful component evaluation indexes.

The greater the dirt degree evaluation index of each type of recovered waste corresponding to each waste, the greater the treatment state evaluation index of each type of recovered waste corresponding to each waste; the greater the evaluation index of the harmful components of each type of the recovered waste is, the greater the evaluation index of the treatment state of each type of the recovered waste is.

And matching the processing state evaluation index corresponding to each garbage in each type of recovered garbage with the set processing state evaluation index threshold corresponding to each processing grade to obtain the processing grade corresponding to each garbage in each type of recovered garbage.

As a preferable scheme of the invention, the apparent images of the garbage corresponding to the various types of recovered garbage and the harmful components at the dirty positions are monitored, and the dirty degree evaluation index and the harmful component evaluation index of the garbage corresponding to the various types of recovered garbage are obtained through analysis, so that the treatment grade corresponding to the garbage in the various types of recovered garbage is obtained through comprehensive analysis, the influence on the recycling process of the recovered garbage due to the different treatment grades corresponding to the garbage in the various types of recovered garbage is avoided to a great extent, and the production efficiency of the subsequent recycling of the recoverable garbage is improved.

The recyclable garbage application value analysis module is used for classifying and processing the processing grades corresponding to the garbage in each type of recycled garbage to obtain garbage sets corresponding to the processing grades in each type of recycled garbage, and analyzing application value evaluation indexes of the garbage sets corresponding to the processing grades in each type of recycled garbage.

As an optional implementation manner, the application value evaluation index of the garbage collection corresponding to each treatment grade in each type of recovered garbage is analyzed in the following specific analysis mode: extracting the treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage from the treatment state evaluation indexes of the garbage corresponding to the various types of recovered garbage, and summing the treatment state evaluation indexes to obtain the comprehensive treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage, wherein the comprehensive treatment state evaluation indexes are recorded asK is denoted as the number of the respective processing class, < >>。

Matching the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can with the set various types of the recycled garbage to obtain the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can, and recording the application value factors as。

According to the formulaCalculating an application value evaluation index of the garbage collection corresponding to each treatment level in each type of recovered garbage, and performing ∈10 >An application value evaluation index expressed as a corresponding garbage collection of the kth processing level in the ith type of reclaimed garbage,/I>Respectively representing the set comprehensive processing state evaluation indexes and the weight factors corresponding to the application value factors.

The recyclable garbage recycling value analysis module is used for acquiring the weight of the garbage collection corresponding to each treatment grade in each type of recycled garbage, analyzing the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, and obtaining the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, so that the utilization rate and the resource saving rate of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are analyzed, and further the recycling value evaluation indexes of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are comprehensively analyzed.

As an optional implementation manner, the value impact index of each treatment grade in each type of recycled garbage corresponding to the garbage collection is analyzed in the following specific analysis mode: the weight of garbage collection corresponding to each treatment grade in various types of recovered garbage is recorded asAccording to the formula- >Calculating the treatment grade pairs in the recycled garbage of each typeValue impact index of the garbage collection, +.>The value influence index of the k treatment level corresponding to the garbage collection in the i-th type reclaimed garbage is expressed as->Representing the reference weight of the garbage collection corresponding to the kth treatment level in the set ith type of reclaimed garbage,/for the set ith type of reclaimed garbage>The value influencing factors corresponding to the set ith type recovery garbage are expressed as +.>Respectively expressed as preset weight, value influence factor and weight corresponding to application value evaluation index.

The larger the weight of the garbage collection corresponding to each treatment grade in the recycled garbage of each type is, the larger the value influence index of the garbage collection corresponding to each treatment grade in the recycled garbage of each type is.

As an optional implementation manner, the analysis of the utilization rate and the resource saving rate of each treatment grade garbage in each type of recycled garbage corresponding to each regenerated object type is as follows: matching the value influence indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage with the utilization rates of the regenerated object types corresponding to the set various value influence indexes to obtain the utilization rates of the garbage corresponding to the regenerated object types corresponding to the treatment grades in the various types of recovered garbage, and marking as H is denoted by the number of each regenerated item type, < >>。

Recycling various types of garbageMultiplying the weight of the garbage collection corresponding to each treatment grade by the utilization rate of the corresponding regenerated article type to obtain the weight of the regenerated article type corresponding to each treatment grade in the recycled garbage, matching each regenerated article type in unit weight with the weight of the raw material consumed by each type corresponding to the regenerated article type, simultaneously matching each regenerated article type in unit weight with the weight of the energy consumed by each type corresponding to the regenerated article type to obtain the weight of the raw material consumed by each regenerated article type in unit weight and the weight of the energy consumed by each type, calculating to obtain the appointed weight of the raw material consumed by each regenerated article type corresponding to each type in each treatment grade in the recycled garbage, and the appointed weight of the energy consumed by each type, respectively recording asAnd->X is the number of the various consumable raw materials, < >>D is the number of the energy consumption of each kind, < >>。

By the way, byCalculating to obtain the appointed weight of the regenerated object types corresponding to the various consumption raw materials in the treatment grades of the recycled garbage of various types >Expressed as the weight of the kth treatment class in the ith type of recycled waste corresponding to the h type of recycled articles, ">Expressed as the weight of the raw material consumed by the h-th regenerated item type in the unit weight corresponding to the x-th category.

By passing throughCalculating to obtain the appointed weight of each regenerated object type corresponding to each energy consumption source in each treatment grade in each type of recovered garbage,/for>Expressed as the weight of energy consumed by the h regenerated item type corresponding to the d type in the unit weight.

According to the formulaCalculating the resource saving rate of the garbage of each treatment grade corresponding to each regenerated object type in the recycled garbage of each type, < > and the like>Resource saving rate expressed as the (h) th regenerated item type corresponding to the (k) th treatment class garbage in the (i) th type recycled garbage,/th regenerated item type>Reference specified weight expressed as the set x-th class of consumable raw material, +.>Reference weight indicated as the set d-th class energy consumption,/for the energy consumption>The correction factors are respectively expressed as the set types of the consumed raw materials and the weight of the consumed energy.

As an alternative implementation mode, the comprehensive analysis of the recycling value evaluation index of each treatment grade garbage in each type of recycled garbage corresponding to each regenerated object type comprises the specific analysis formula The method comprises the following steps:，/>expressed as an evaluation index of recycling value of the kth treatment class garbage in the ith type of recycling garbage corresponding to the ith regenerated object type, +.>Respectively expressed as compensation factors corresponding to the set utilization rate and resource saving rate.

As a preferred scheme of the invention, the invention analyzes the application value evaluation indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage, analyzes the value influence indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage, simultaneously analyzes the utilization rate and the resource saving rate of the garbage corresponding to the regenerated object types corresponding to the treatment grades in the various types of recovered garbage, and comprehensively analyzes to obtain the reuse value evaluation indexes of the garbage corresponding to the regenerated object types corresponding to the treatment grades in the various types of recovered garbage; on one hand, the method makes up for the single property and one-sided property of the recycling value evaluation of the recycled garbage in the prior art, and realizes the multidimensional analysis of the recycling value evaluation of the recycled garbage; on the other hand, the recycling value of the garbage of each treatment grade corresponding to each regenerated object type in the various types of recycled garbage is intuitively displayed, and meanwhile, reliable data support is provided for the comprehensive value evaluation coefficient corresponding to the various types of recycled garbage in the subsequent recyclable garbage bin.

The recyclable garbage comprehensive value analysis module is used for analyzing the comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can to obtain the comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can.

As an alternative implementation mode, the comprehensive value evaluation coefficients corresponding to each type of recycled garbage in the recyclable garbage can are analyzed, and the specific analysis steps are as follows: matching each regenerated article type in the unit weight with the set pollution discharge amount corresponding to each regenerated article type in the unit weight to obtain the pollution discharge amount corresponding to each regenerated article type in the unit weight, calculating to obtain the pollution discharge amount corresponding to each regenerated article type of each treatment grade in the recycled garbage, and marking asFurther, the pollution reduction index of each treatment grade in each type of recovered garbage corresponding to each regenerated object type is calculated and recorded as +.>。

The pollution emission amount calculation formula of each treatment grade in each type of recycled garbage corresponding to each regenerated article type is as follows:，/>expressed as the amount of polluting emissions corresponding to the h-th regenerated item type per unit weight.

The pollution reduction index of each treatment grade in each type of recycled garbage corresponds to each regenerated article type, and the calculation formula is as follows:,/>indicated as the set reference pollution discharge amount.

According to the formulaCalculating comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can, and performing +.>Expressed as a comprehensive value evaluation coefficient corresponding to the ith type of recycled garbage in the recyclable garbage bin,/>The values are respectively expressed as coefficient factors corresponding to the set reuse value evaluation index and the pollution reduction index.

As a preferred scheme of the invention, the comprehensive value evaluation coefficients corresponding to the various types of the recovered garbage in the recyclable garbage can are obtained through comprehensive analysis of the pollution reduction index and the reuse value evaluation index corresponding to the various types of the recovered garbage in the recyclable garbage can, visual monitoring and rational analysis are provided for comprehensive value evaluation corresponding to the various types of the recovered garbage to a certain extent, and the significance of the garbage recycling can be intuitively known by community people.

And the recyclable garbage comprehensive value display module is used for displaying comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage bin.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

Claims (5)

1. Classified garbage recycling intelligent management platform based on the Internet of things, which is characterized by comprising:

the community recyclable dustbin classification analysis module is used for classifying, analyzing and processing garbage corresponding to the recyclable dustbin in the community to obtain garbage sets corresponding to various types of recycled garbage in the recyclable dustbin;

the recyclable garbage disposal level monitoring and analyzing module is used for monitoring and analyzing the disposal levels of the garbage in the garbage collection corresponding to the various types of recycled garbage to obtain the disposal levels corresponding to the garbage in the various types of recycled garbage, wherein the recyclable garbage disposal level monitoring and analyzing module comprises a pollution degree monitoring and analyzing unit, a harmful component monitoring and analyzing unit and a disposal level analyzing unit;

the recyclable garbage application value analysis module is used for classifying and processing the processing grades corresponding to the garbage in each type of recycled garbage to obtain garbage sets corresponding to the processing grades in each type of recycled garbage, and analyzing application value evaluation indexes of the garbage sets corresponding to the processing grades in each type of recycled garbage;

The recyclable garbage recycling value analysis module is used for acquiring the weight of the garbage collection corresponding to each treatment grade in each type of recycled garbage, analyzing the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, and obtaining the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recycled garbage, so that the utilization rate and the resource saving rate of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are analyzed, and further the recycling value evaluation indexes of the garbage corresponding to each recycled object type in each treatment grade in each type of recycled garbage are comprehensively analyzed;

the recyclable garbage comprehensive value analysis module is used for analyzing comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can to obtain comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can;

the recyclable garbage comprehensive value display module is used for displaying comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage bin;

the application value evaluation index of the garbage collection corresponding to each treatment grade in each type of recovered garbage is analyzed, and the specific analysis mode is as follows:

Extracting the treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage from the treatment state evaluation indexes of the garbage corresponding to the various types of recovered garbage, and summing the treatment state evaluation indexes to obtain the comprehensive treatment state evaluation indexes of the garbage corresponding to the treatment levels of the various types of recovered garbage, wherein the comprehensive treatment state evaluation indexes are recorded ask is denoted as the number of each treatment class, k=1, 2.

Matching the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can with the set various types of the recycled garbage to obtain the application value factors corresponding to the various types of the recycled garbage in the recyclable garbage can, and marking the application value factors as epsilon ⁱ ；

According to the formulaCalculating an application value evaluation index of the garbage collection corresponding to each treatment level in each type of recovered garbage, and performing ∈10>An application value evaluation index expressed as a corresponding garbage collection of the kth processing level in the ith type of reclaimed garbage, b ₃ 、b ₄ Respectively representing the set comprehensive processing state evaluation indexes and the weight factors corresponding to the application value factors;

the value influence indexes of the garbage collection corresponding to each treatment grade in each type of recovered garbage are analyzed, and the specific analysis mode is as follows:

the weight of garbage collection corresponding to each treatment grade in various types of recovered garbage is recorded as According to the formulaCalculating the value influence index of the garbage collection corresponding to each treatment level in the recycled garbage of each type, and adding +.>The value influence index, G ', expressed as the value influence index of the k treatment class corresponding to the garbage collection in the i-th type reclaimed garbage' _ik Denoted as the kth in the set ith type of reclaimed garbageThe treatment grade corresponds to the reference weight of the garbage collection and iota _i Representing a value influence factor corresponding to the set ith type recovery garbage, c ₁ 、c ₂ 、c ₃ Respectively representing the weight corresponding to the preset weight, the value influence factor and the application value evaluation index;

the method is characterized by analyzing the utilization rate and the resource saving rate of each treatment grade garbage in each type of recovered garbage corresponding to each regenerated object type, wherein the specific analysis process is as follows:

matching the value influence indexes of the garbage sets corresponding to the treatment grades in the various types of recovered garbage with the utilization rates of the regenerated object types corresponding to the set various value influence indexes to obtain the utilization rates of the garbage corresponding to the regenerated object types corresponding to the treatment grades in the various types of recovered garbage, and marking ash is denoted as the number of each regenerated item type, h=1, 2.

Multiplying the weight of the garbage collection corresponding to each treatment grade in each type of recovered garbage by the utilization rate of the corresponding regenerated article types to obtain the weight of each regenerated article type corresponding to each treatment grade in each type of recovered garbage, matching each regenerated article type in unit weight with the weight of each consumed raw material corresponding to the regenerated article type, simultaneously matching each regenerated article type in unit weight with the weight of each consumed energy corresponding to the regenerated article type to obtain the weight of each regenerated article type corresponding to each consumed raw material and the weight of each consumed energy in unit weight, calculating to obtain the appointed weight of each regenerated article type corresponding to each consumed raw material and the appointed weight of each consumed energy in each treatment grade in each type of recovered garbage, and respectively marking as And->x represents the number of each kind of consumption raw material, x=1, 2, & gt, u, d represents the number of each kind of consumption energy source, d=1, 2, & gt, w;

according to the formulaCalculating the resource saving rate of the garbage of each treatment grade corresponding to each regenerated object type in the recycled garbage of each type, < > and the like>Resource saving rate expressed as the (th) regenerated article type corresponding to the (th) treatment grade garbage in the (th) type recycled garbage, yl' _x Reference weight, ny 'expressed as the set x-th type of consumable raw material' _d A reference specified weight expressed as the set d-th type of consumed energy, c ₄ 、c ₅ Respectively representing the correction factors corresponding to the set types of the consumed raw materials and the weight of the consumed energy sources;

the recycling value evaluation index of each treatment grade garbage in each type of recycled garbage corresponding to each regenerated object type is comprehensively analyzed, and the specific analysis formula is as follows: expressed as an evaluation index of recycling value of the kth treatment class garbage in the ith type of recycling garbage corresponding to the ith regenerated object type, +.>Respectively representing the compensation factors corresponding to the set utilization rate and the resource saving rate;

the comprehensive value evaluation coefficients corresponding to various types of recycled garbage in the recyclable garbage can are analyzed, and the specific analysis steps are as follows:

Each regenerated article type in unit weightMatching the pollutant discharge amount corresponding to each regenerated article type in the set unit weight to obtain the pollutant discharge amount corresponding to each regenerated article type in the unit weight, calculating the pollutant discharge amount corresponding to each regenerated article type in each treatment grade in each type of recovered garbage, and marking asFurther, the pollution reduction index of each treatment grade in each type of recovered garbage corresponding to each regenerated object type is calculated and recorded as +.>

According to the formulaCalculating comprehensive value evaluation coefficients, xi, corresponding to various types of recycled garbage in the recyclable garbage can ⁱ Expressed as a comprehensive value evaluation coefficient, beta, corresponding to the ith type of recycled garbage in the recyclable garbage bin ₁ 、β ₂ The values are respectively expressed as coefficient factors corresponding to the set reuse value evaluation index and the pollution reduction index.

2. The classified garbage recycling intelligent management platform based on the internet of things according to claim 1, wherein: the garbage corresponding to the recyclable garbage can in the community is subjected to classification analysis and treatment, and the specific analysis and treatment process is as follows:

collecting images of the recyclable garbage in the community corresponding to the garbage by using a high-definition camera to obtain images of the recyclable garbage corresponding to the garbage in the recyclable garbage, and matching the images of the recyclable garbage with the set images of the various types of the recyclable garbage to obtain the type of the recyclable garbage corresponding to the garbage in the recyclable garbage;

And (3) carrying out similar screening on the types of the recovered garbage corresponding to each garbage in the recyclable garbage can to obtain garbage sets corresponding to various types of the recovered garbage in the recyclable garbage can.

3. The classified garbage recycling intelligent management platform based on the internet of things according to claim 1, wherein: the pollution degree monitoring and analyzing unit is used for monitoring and analyzing the pollution degree of each type of recycled garbage in the recyclable garbage can corresponding to each garbage in the garbage collection, and the specific monitoring and analyzing modes are as follows:

the apparent dirty images of the garbage in the garbage collection corresponding to the various types of the recycled garbage in the recyclable garbage can are monitored through the high-definition camera to obtain the apparent dirty images of the garbage corresponding to the various types of the recycled garbage in the recyclable garbage can, and the dirty quantity and the dirty total area of the garbage corresponding to the various types of the recycled garbage are extracted from the apparent dirty images and respectively recorded asi denotes the number of each type of recycled waste, i=1, 2,..;

detecting points are uniformly distributed at the dirt positions of various types of recovered garbage corresponding to the garbage in the recoverable garbage can, the dirt thickness corresponding to each detecting point is obtained, and the maximum dirt thickness and the average dirt thickness of the various types of recovered garbage corresponding to the garbage are obtained from the dirt thickness and the average dirt thickness are respectively recorded as

Calculating to obtain the dirt degree evaluation index of each type of recovered garbage corresponding to each garbage, and marking as

4. The classified garbage recycling intelligent management platform based on the internet of things according to claim 3, wherein: the harmful component monitoring and analyzing unit is used for monitoring and analyzing the harmful components of the corresponding dirty positions of each garbage in each type of recycled garbage in the recyclable garbage bin, and the specific monitoring and analyzing modes are as follows:

the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage in the recoverable garbage can are monitored through a component detector to obtain the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage, and the content of the harmful components of the garbage corresponding to the dirty positions in the various types of recovered garbage is extracted from the content of the composition components of the garbage corresponding to the dirty positions in the various types of recovered garbage based on preset harmful components and is recorded asf is denoted as the number of each dirty place, f=1, 2, & gt, r is denoted as the content of each harmful ingredient, r=1, 2, & gt, q, and the number of the harmful ingredients corresponding to each dirty place in each garbage is counted in each type of recovered garbage and recorded as + & gt >

Calculating to obtain harmful component evaluation index of each type of recovered garbage corresponding to each garbage, and recording as

5. The intelligent management platform for recycling classified garbage based on the Internet of things of claim 4, wherein the intelligent management platform is characterized in that: the treatment grade analysis unit is used for analyzing the treatment grade of each type of recycled garbage in the recyclable garbage can, and the specific analysis mode is as follows:

according to the formulaCalculating the evaluation index of the treatment state of each type of recovered garbage corresponding to each garbage, and carrying out->A treatment state evaluation index expressed as the j-th garbage corresponding to the i-th type reclaimed garbage, e expressed as a natural constant, b ₁ 、b ₂ Respectively representing the set dirt degree evaluation index and the evaluation factors corresponding to the harmful component evaluation index;

and matching the processing state evaluation index corresponding to each garbage in each type of recovered garbage with the set processing state evaluation index threshold corresponding to each processing grade to obtain the processing grade corresponding to each garbage in each type of recovered garbage.