CN117993897A - Intelligent management regulation and control method and system for recycling solid wastes - Google Patents
Intelligent management regulation and control method and system for recycling solid wastes Download PDFInfo
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- 238000004064 recycling Methods 0.000 title claims abstract description 42
- 239000002910 solid waste Substances 0.000 title claims abstract description 27
- 239000002699 waste material Substances 0.000 claims abstract description 391
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- 239000010791 domestic waste Substances 0.000 description 2
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- 239000002184 metal Substances 0.000 description 2
- 239000010814 metallic waste Substances 0.000 description 2
- 239000004745 nonwoven fabric Substances 0.000 description 2
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Abstract
The invention discloses an intelligent management regulation method and system for recycling solid wastes, and relates to the technical field of recycling solid wastes. The method comprises the steps of reversely adjusting, classifying the waste by different treatment methods of different types of waste, respectively storing the waste in the divided areas, solving the problems of low transportation efficiency of the waste in the treatment process and intelligent control in the treatment process, and when detecting that the discharging speed of the waste is reduced and the output product does not accord with the set parameters, reversely adjusting, balancing the treatment speed of the waste by changing the feeding speed, and intelligently switching the process flow to solve the problems that the feeding speed of the waste cannot be dynamically adjusted, the production process is adjusted and optimized and the efficiency is reduced in the processing process.
Description
Technical Field
The invention relates to the technical field of solid waste resource utilization, in particular to an intelligent management and regulation method for solid waste resource utilization.
Background
With the improvement of the living quality of people, the types of wastes generated in life are more and more complex, the quantity of the generated wastes is more and more, the treatment pressure of the wastes is more and more, the excessive waste accumulation has an influence on the environment, the recovery treatment difficulty of the solid wastes is more complex, the improper treatment can cause the accumulation of the excessive wastes, the birth of the solid waste resource utilization technology solves the problems, and the recovery treatment efficiency of the wastes is improved.
The existing solid waste resource utilization technology has the following defects: (1) Most of the existing solid waste resource utilization technology can only upgrade treatment equipment to realize more efficient treatment of solid waste, and can not dynamically regulate and control storage space, so that more efficient recovery treatment of waste is realized with high-efficiency space utilization, and storage pressure during waste recovery treatment is reduced.
(2) Most of the existing solid waste resource utilization technologies can only judge detection data by operators so as to control the feeding and discharging speed of the waste, and can not intelligently control the feeding and discharging speed of the waste by the detection data, so that the efficiency of the waste in the recycling process is reduced.
Disclosure of Invention
Aiming at the technical defects, the invention aims to provide an intelligent management and control method for recycling solid wastes.
In order to solve the technical problems, the invention adopts the following technical scheme: in a first aspect, the invention provides an intelligent management and control method for recycling solid waste, which comprises the following steps:
Step one, dividing a waste storage area: through the waste collection channel, the waste is divided into various types by adopting a visual classification technology according to the waste treatment process, and corresponding storage spaces are divided for various types of waste in the waste to-be-treated area of the warehouse according to the volume and the weight of the various types of waste.
Step two, waste classification record: storing each type of waste into a storage space corresponding to each type of waste in a waste treatment area of a warehouse, detecting and recording the total storage amount and the free space capacity of each type of waste every time a preset collection time point passes, and when the total storage amount of the waste is larger than a preset safe storage threshold value, adjusting the collection speed of the waste, and when the storage amount of a certain type of waste is detected to exceed the storage space corresponding to the waste in the waste treatment area of the warehouse, dividing an additional storage space for the waste with the storage amount exceeding the corresponding storage space.
Step three, waste pretreatment: and (3) conveying the waste of each type to a waste pretreatment channel, pretreating the waste of each type of waste pretreatment channel to obtain waste of each type in an easy-to-treat state, and executing the step (IV).
Step four, waste recovery treatment: and (3) recycling each type of waste according to a preset recycling standard, calculating the theoretical discharging speed of each type of waste, monitoring the discharging condition of each type of processed waste, judging whether each type of waste is reversely regulated, and executing the step five.
Step five: reverse regulation: by adjusting the feed rate, the type of waste that is being back-regulated is back-regulated.
Preferably, the storing space corresponding to each type of waste is divided in the area to be treated of the warehouse waste, and the specific process is as follows:
acquiring the volume and the mass of each type of waste, and setting the volume of each type of waste as I represents the number of each type of waste, i=1, 2....n, n is any integer greater than 2, let warehouse capacity be V, mass of each type of waste be/>Resetting the maximum bearing of the warehouse to M according to the formula/>Calculating the storage space coefficient/>, of each type of wasteWherein/>Respectively a preset weight factor of the waste volume and a preset weight factor of the waste mass.
The storage space coefficients of the wastes of each type are added and divided by the storage space coefficients of the wastes of each type to obtain the proportion of the storage space coefficients of the wastes of each type, the storage space sizes of the wastes of each type in a warehouse are distributed according to the proportion, the storage space coefficients are ordered in descending order, the distance between the center point of the area occupied by the wastes of each type and the corresponding waste treatment channel is recorded as the transportation distance, and the wastes of each type are sequentially stored to the area with the shortest transportation distance according to the sequence of the storage space coefficients.
Preferably, the method for adjusting the collection speed of the waste comprises the following specific steps:
when detecting that the used space capacity of the waste to-be-treated area of the warehouse is larger than the preset safe storage space threshold of the waste to-be-treated area or detecting that the total mass of various wastes in the warehouse is larger than the bearing threshold of the preset waste to-be-treated area of the warehouse, the method is characterized by comprising the following steps of Obtaining a waste collection velocity coefficient RS, wherein/>Respectively a preset weight factor of the volume of the waste to be treated and a preset weight factor of the quality of the waste to be treated.
The waste collection speed when the warehouse is empty is recorded as the collection maximum speed, and the collection maximum speed is set asAccording to the formula/>Calculate the total collection speed/>, of each type of waste。
Preferably, the additional storage space is divided for the waste with the storage space exceeding the corresponding storage space, and the specific calculation process is as follows:
When the storage space of a certain type of waste is monitored to exceed the corresponding storage space, detecting whether unused space exists in a plurality of adjacent waste to-be-processed storage areas, if the unused space exists in the plurality of adjacent waste to-be-processed storage areas, dividing the unused space into the waste with the storage space exceeding the corresponding storage space in the type of waste storage space with the largest unused space in the plurality of adjacent waste to-be-processed storage areas, and if the capacity of the waste exceeding the corresponding storage space is still beyond the storage space after the waste with the corresponding storage space is divided into the partition sections, dividing the unused space with the second largest unused space into the type of waste in sequence until the waste of the new partition area of the type of waste is completely processed, and re-dividing the area into the original waste storage area.
Preferably, the calculating theory comprises the following specific calculating processes of the discharging speed of each type of waste:
the number of the treatment equipment in the treatment process of various wastes is obtained and recorded as The number of standard treatment facilities for the preset waste is designated as C.
The loss quality of the processing process preset by each type of waste is recorded asAccording to the formulaCalculating to obtain theoretical discharge speed coefficient/>, of each type of waste,/>Respectively a preset weight factor of the quality of the processing waste, a preset weight factor of the volume of the processing waste and a preset weight factor of the number of processing waste treatment devices.
Setting the maximum discharging speed recorded in the databaseAccording to the formula/>Calculating theoretical discharge speed/>, of waste。
Preferably, the determining whether each type of waste is reversely regulated includes the following specific determining process:
The method comprises the steps of obtaining the discharge speed of each type of waste treatment channel through a speed sensor, judging that the type of waste needs to be reversely regulated when the discharge amount speed of a certain waste treatment channel is lower than the theoretical discharge speed corresponding to the type of waste, obtaining the storage space of discharge of each type of waste, and judging that the type of waste needs to be reversely regulated when the discharge storage space of the certain type of waste is larger than a preset waste discharge storage space threshold value.
Preferably, the reverse adjustment is performed on the reversely adjusted type waste, and the specific process is as follows:
when detecting that the discharge speed of a certain type of waste is lower than the theoretical discharge speed corresponding to the type of waste and performing reverse adjustment, calculating the difference between the theoretical discharge speed and the discharge speed of the type of waste, and recording as Reducing the feeding speed of the waste。
If it is detected that the discharge storage space of a certain type of waste is reversely adjusted because the discharge storage space is larger than the preset discharge storage space threshold, the treatment of the type of waste is suspended, and the collection of the type of waste is stopped until the discharge storage space of the type of waste is smaller than the preset discharge storage space threshold.
In a second aspect, the invention provides a management system regulation and control system for recycling solid waste, which comprises the following modules:
And a waste collection module: for collecting various types of waste from the outside.
A waste storage module: the device is used for storing the waste collected by the waste collection channel and the discharged materials after the recycling treatment of various types of waste.
And a waste identification module: for identifying each type of waste by a different treatment process for each type of waste.
And a waste classification module: for sorting the identified waste of each type and sorting the discharge of each type of waste during the treatment.
And a waste recycling and processing module: the processing and recycling device is used for processing and recycling each type of waste according to the corresponding recycling mode of each type of waste.
And a reverse adjusting module: for adjusting the feed rate when problems occur in the recovery process of the waste.
Database: the system is used for storing the preset maximum discharging speed and the storage space information of each type of waste.
The invention has the beneficial effects that: the invention provides an intelligent management regulation method for recycling solid wastes, which is used for classifying the wastes through different treatment modes of various types of wastes after the wastes are collected, analyzing the volume and the quality of the various types of wastes and distributing storage space for the various types of wastes.
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In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic flow chart of the steps of the method of the present invention;
FIG. 2 is a schematic diagram of the system structure of 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, in a first aspect, the present invention provides an intelligent management and control method for recycling solid waste, which includes the following steps: dividing a waste storage area, dividing a second waste classification record, dividing a third waste pretreatment, dividing a fourth waste recovery treatment, and dividing a fifth waste classification record: and (5) reversely adjusting.
Step one, dividing a waste storage area: through the waste collection channel, the waste is divided into various types by adopting a visual classification technology according to the waste treatment process, and corresponding storage spaces are divided for various types of waste in the waste to-be-treated area of the warehouse according to the volume and the weight of the various types of waste.
In a specific example, the dividing the storage space corresponding to each type of waste in the area to be treated of the warehouse waste comprises the following specific procedures:
acquiring the volume and the mass of each type of waste, and setting the volume of each type of waste as I represents the number of each type of waste, i=1, 2....n, n is any integer greater than 2, let warehouse capacity be V, mass of each type of waste be/>Resetting the maximum bearing of the warehouse to M according to the formula/>Calculating the storage space coefficient/>, of each type of wasteWherein/>Respectively a preset weight factor of the waste volume and a preset weight factor of the waste mass.
The preset waste volume weight factor and the preset waste quality weight factor are obtained by marking each index by a plurality of experts through an AHP (advanced high performance) analytic hierarchy process, calculating an average value after removing a maximum value and a minimum value from marking results of the plurality of experts, summarizing the average value according to relative importance to obtain a marking judgment matrix, and finally calculating the preset waste volume weight factor and the preset waste quality weight factor.
The storage space coefficients of the wastes of each type are added and divided by the storage space coefficients of the wastes of each type to obtain the proportion of the storage space coefficients of the wastes of each type, the storage space sizes of the wastes of each type in a warehouse are distributed according to the proportion, the storage space coefficients are ordered in descending order, the distance between the center point of the area occupied by the wastes of each type and the corresponding waste treatment channel is recorded as the transportation distance, and the wastes of each type are sequentially stored to the area with the shortest transportation distance according to the sequence of the storage space coefficients.
Step two, waste classification record: storing each type of waste into a storage space corresponding to each type of waste in a waste treatment area of a warehouse, detecting and recording the total storage amount and the free space capacity of each type of waste every time a preset collection time point passes, and when the total storage amount of the waste is larger than a preset safe storage threshold value, adjusting the collection speed of the waste, and when the storage amount of a certain type of waste is detected to exceed the storage space corresponding to the waste in the waste treatment area of the warehouse, dividing an additional storage space for the waste with the storage amount exceeding the corresponding storage space.
In one specific example, the method for adjusting the collection speed of the waste comprises the following steps:
when detecting that the used space capacity of the waste to-be-treated area of the warehouse is larger than the preset safe storage space threshold of the waste to-be-treated area or detecting that the total mass of various wastes in the warehouse is larger than the bearing threshold of the preset waste to-be-treated area of the warehouse, the method is characterized by comprising the following steps of Obtaining a waste collection velocity coefficient RS, wherein/>Respectively a preset weight factor of the volume of the waste to be treated and a preset weight factor of the quality of the waste to be treated.
The preset weight factors of the volume of the waste to be treated and the preset weight factors of the quality of the waste to be treated are obtained by marking each index by a plurality of experts through an AHP (advanced high performance) analytic hierarchy process, calculating an average value after removing the maximum value and the minimum value, summarizing the average value according to relative importance to obtain a marking judgment matrix, and finally calculating the preset weight factors of the volume of the waste to be treated and the preset weight factors of the quality of the waste to be treated.
The waste collection speed when the warehouse is empty is recorded as the collection maximum speed, and the collection maximum speed is set asAccording to the formula/>Calculate the total collection speed/>, of each type of waste。
In one specific example, the method for dividing the additional storage space for the waste with the storage space exceeding the corresponding storage space comprises the following specific calculation process:
When the storage space of a certain type of waste is monitored to exceed the corresponding storage space, detecting whether unused space exists in a plurality of adjacent waste to-be-processed storage areas, if the unused space exists in the plurality of adjacent waste to-be-processed storage areas, dividing the unused space into the waste with the storage space exceeding the corresponding storage space in the type of waste storage space with the largest unused space in the plurality of adjacent waste to-be-processed storage areas, and if the capacity of the waste exceeding the corresponding storage space is still beyond the storage space after the waste with the corresponding storage space is divided into the partition sections, dividing the unused space with the second largest unused space into the type of waste in sequence until the waste of the new partition area of the type of waste is completely processed, and re-dividing the area into the original waste storage area.
Step three, waste pretreatment: and (3) conveying the waste of each type to a waste pretreatment channel, pretreating the waste of each type of waste pretreatment channel to obtain waste of each type in an easy-to-treat state, and executing the step (IV).
The method is characterized in that the waste of each type of waste pretreatment channel is pretreated, and specifically comprises the following steps:
When the waste type is metal, the metal waste is transported to a pulverizer, and the metal waste is pulverized into metal fragments.
When detecting that the discarded object is the carton, classify the carton, divide into greasy dirt paper, domestic waste carton, clean waste carton, compress greasy dirt carton, because can not utilize, independent storage waits for special processing, compress domestic waste carton, transfer carton recovery mechanism, compress clean waste carton and smash, transfer carton reuse mechanism.
When the waste is detected to be glass, the glass is melted and flows into a wire drawing device for wire drawing treatment, and then is rapidly cooled to prepare the glass fiber, and the glass fiber is strapped and collected for storage.
When the waste is detected, the cloth is divided into special material cloth and common material cloth, wherein the special material comprises PP non-woven fabric or PET non-woven fabric, and when the cloth is special material cloth, the cloth is crushed, remelted into particles for storage and sold to special companies; when the cloth is made of common materials, the cloth is crushed to be used as a filler of the sound insulation material.
Step four, waste recovery treatment: and (3) recycling each type of waste according to a preset recycling standard, calculating the theoretical discharging speed of each type of waste, monitoring the discharging condition of each type of processed waste, judging whether each type of waste is reversely regulated, and executing the step five.
In a specific example, the calculation theory of the discharge speed of each type of waste comprises the following specific calculation processes:
the number of the treatment equipment in the treatment process of various wastes is obtained and recorded as The number of standard treatment facilities for the preset waste is designated as C.
The loss quality of the processing process preset by each type of waste is recorded asAccording to the formulaCalculating to obtain theoretical discharge speed coefficient/>, of each type of waste,/>Respectively a preset weight factor of the quality of the processing waste, a preset weight factor of the volume of the processing waste and a preset weight factor of the number of processing waste treatment devices.
The preset weight factor of the quality of the waste in the processing process, the preset weight factor of the volume of the waste in the processing process and the weight factor of the number of the waste treatment equipment in the processing process are obtained by marking each index by a plurality of experts through an AHP (advanced high performance liquid chromatography) hierarchical analysis method, calculating an average value after removing the maximum value and the minimum value, summarizing the average value according to relative importance as a marking judgment matrix, and finally calculating the weight factor of the quality of the waste in the processing process, the weight factor of the volume of the waste in the processing process and the weight factor of the number of the waste treatment equipment in the processing process.
Setting the maximum discharging speed recorded in the databaseAccording to the formula/>Calculating theoretical discharge speed/>, of waste。
The maximum discharging speed recorded in the database refers to the discharging speed of each type of waste treatment channel when the conveyor belt is preset to the maximum bearing, and the maximum discharging speed is recorded as the discharging speed when the conveyor belt is operated at the rated maximum power.
In a specific example, the determining whether each type of waste is reversely regulated includes the following steps:
The method comprises the steps of obtaining the discharge speed of each type of waste treatment channel through a speed sensor, judging that the type of waste needs to be reversely regulated when the discharge amount speed of a certain waste treatment channel is lower than the theoretical discharge speed corresponding to the type of waste, obtaining the storage space of discharge of each type of waste, and judging that the type of waste needs to be reversely regulated when the discharge storage space of the certain type of waste is larger than a preset waste discharge storage space threshold value.
Step five: reverse regulation: by adjusting the feed rate, the type of waste that is being back-regulated is back-regulated.
The reverse adjustment is carried out on the reversely adjusted type waste, and the specific process is as follows:
when detecting that the discharge speed of a certain type of waste is lower than the theoretical discharge speed corresponding to the type of waste and performing reverse adjustment, calculating the difference between the theoretical discharge speed and the discharge speed of the type of waste, and recording as Reducing the feeding speed of the waste。
If it is detected that the discharge storage space of a certain type of waste is reversely adjusted because the discharge storage space is larger than the preset discharge storage space threshold, the treatment of the type of waste is suspended, and the collection of the type of waste is stopped until the discharge storage space of the type of waste is smaller than the preset discharge storage space threshold.
Referring to fig. 2, in a second aspect, the present invention provides a system for controlling a management system for recycling solid waste, which includes the following modules:
And a waste collection module: for collecting various types of waste from the outside.
A waste storage module: the device is used for storing the waste collected by the waste collection channel and the discharged materials after the recycling treatment of various types of waste.
And a waste identification module: for identifying each type of waste by a different treatment process for each type of waste.
And a waste classification module: for sorting the identified waste of each type and sorting the discharge of each type of waste during the treatment.
And a waste recycling and processing module: the processing and recycling device is used for processing and recycling each type of waste according to the corresponding recycling mode of each type of waste.
And a reverse adjusting module: for adjusting the feed rate when problems occur in the recovery process of the waste.
Database: the system is used for storing the preset maximum discharging speed and the storage space information of each type of waste.
The invention provides an intelligent management regulation method for recycling solid wastes, which is used for classifying the wastes through different treatment modes of various types of wastes after the wastes are collected, analyzing the volume and the quality of the various types of wastes and distributing storage space for the various types of wastes.
The foregoing is merely illustrative and explanatory of the principles of the invention, as various modifications and additions may be made to the specific embodiments described, or similar arrangements may be substituted by those skilled in the art, without departing from the principles of the invention or beyond the scope of the invention as defined in the description.
Claims (8)
1. An intelligent management and control method for recycling solid waste is characterized by comprising the following steps:
Step one, dividing a waste storage area: dividing the waste into various types by a waste collection channel according to a waste treatment process by adopting a visual classification technology, and dividing corresponding storage spaces for various types of waste in a waste to-be-treated area of a warehouse according to the volume and weight of the various types of waste;
Step two, waste classification record: storing each type of waste into a storage space corresponding to each type of waste in a waste treatment area of a warehouse, detecting and recording the total storage amount and the free space capacity of each type of waste every time a preset collection time point passes, and when the total storage amount of the waste is larger than a preset safe storage threshold value, adjusting the collection speed of the waste, and when the storage amount of a certain type of waste is detected to exceed the storage space corresponding to the waste in the waste treatment area of the warehouse, dividing an additional storage space for the waste with the storage amount exceeding the corresponding storage space;
Step three, waste pretreatment: transporting the waste of each type to a waste pretreatment channel, pretreating the waste of each type of waste pretreatment channel to obtain waste of each type in an easy-to-treat state, and executing the fourth step;
Step four, waste recovery treatment: recycling each type of waste according to a preset recycling standard, calculating the theoretical discharging speed of each type of waste, monitoring the discharging condition of each type of processed waste, judging whether each type of waste is reversely regulated, and executing the fifth step;
step five: reverse regulation: by adjusting the feed rate, the type of waste that is being back-regulated is back-regulated.
2. The intelligent management and control method for recycling of solid wastes according to claim 1, wherein the storage space corresponding to each type of waste is divided in the area to be treated of the warehouse wastes, and the specific process is as follows:
acquiring the volume and the mass of each type of waste, and setting the volume of each type of waste as I represents the number of each type of waste, i=1, 2....n, n is any integer greater than 2, let warehouse capacity be V, mass of each type of waste be/>Resetting the maximum bearing of the warehouse to M according to the formula/>Calculating the storage space coefficient/>, of each type of wasteWherein/>Respectively a preset weight factor of the waste volume and a preset weight factor of the waste mass;
The storage space coefficients of the wastes of each type are added and divided by the storage space coefficients of the wastes of each type to obtain the proportion of the storage space coefficients of the wastes of each type, the storage space sizes of the wastes of each type in a warehouse are distributed according to the proportion, the storage space coefficients are ordered in descending order, the distance between the center point of the area occupied by the wastes of each type and the corresponding waste treatment channel is recorded as the transportation distance, and the wastes of each type are sequentially stored to the area with the shortest transportation distance according to the sequence of the storage space coefficients.
3. The intelligent management and control method for recycling of solid waste according to claim 2, wherein the method is characterized by comprising the following specific steps of:
when detecting that the used space capacity of the waste to-be-treated area of the warehouse is larger than the preset safe storage space threshold of the waste to-be-treated area or detecting that the total mass of various wastes in the warehouse is larger than the bearing threshold of the preset waste to-be-treated area of the warehouse, the method is characterized by comprising the following steps of Obtaining a waste collection velocity coefficient RS, wherein/>Respectively a preset weight factor of the volume of the waste to be treated and a preset weight factor of the quality of the waste to be treated;
the waste collection speed when the warehouse is empty is recorded as the collection maximum speed, and the collection maximum speed is set as According to the formula/>Calculate the total collection speed/>, of each type of waste。
4. The intelligent management and control method for recycling solid waste according to claim 1, wherein the method is characterized in that the additional storage space is divided for the waste with the storage capacity exceeding the corresponding storage space, and the specific calculation process is as follows:
When the storage space of a certain type of waste is monitored to exceed the corresponding storage space, detecting whether unused space exists in a plurality of adjacent waste to-be-processed storage areas, if the unused space exists in the plurality of adjacent waste to-be-processed storage areas, dividing the unused space into the waste with the storage space exceeding the corresponding storage space in the type of waste storage space with the largest unused space in the plurality of adjacent waste to-be-processed storage areas, and if the capacity of the waste exceeding the corresponding storage space is still beyond the storage space after the waste with the corresponding storage space is divided into the partition sections, dividing the unused space with the second largest unused space into the type of waste in sequence until the waste of the new partition area of the type of waste is completely processed, and re-dividing the area into the original waste storage area.
5. The intelligent management and control method for recycling of solid waste according to claim 2, wherein the discharge speed of each type of waste according to the calculation theory is specifically calculated as follows:
the number of the treatment equipment in the treatment process of various wastes is obtained and recorded as The number of standard treatment equipment of the preset waste is marked as C;
The loss quality of the processing process preset by each type of waste is recorded as According to the formulaCalculating to obtain theoretical discharge speed coefficient/>, of each type of waste,/>Respectively a preset weight factor of the quality of the processing waste, a preset weight factor of the volume of the processing waste and a preset weight factor of the number of processing waste treatment devices;
setting the maximum speed recorded in the discharging database as According to the formula/>Calculating theoretical discharge speed/>, of waste。
6. The intelligent management and control method for recycling of solid waste according to claim 1, wherein the specific judging process is as follows:
The method comprises the steps of obtaining the discharge speed of each type of waste treatment channel through a speed sensor, judging that the type of waste needs to be reversely regulated when the discharge amount speed of a certain waste treatment channel is lower than the theoretical discharge speed corresponding to the type of waste, obtaining the storage space of discharge of each type of waste, and judging that the type of waste needs to be reversely regulated when the discharge storage space of the certain type of waste is larger than a preset waste discharge storage space threshold value.
7. The intelligent management and control method for recycling solid waste according to claim 3, wherein the reverse adjustment of the reversely adjusted type waste is performed by the following specific processes:
when detecting that the discharge speed of a certain type of waste is lower than the theoretical discharge speed corresponding to the type of waste and performing reverse adjustment, calculating the difference between the theoretical discharge speed and the discharge speed of the type of waste, and recording as Reducing the feeding speed of the waste;
If it is detected that the discharge storage space of a certain type of waste is reversely adjusted because the discharge storage space is larger than the preset discharge storage space threshold, the treatment of the type of waste is suspended, and the collection of the type of waste is stopped until the discharge storage space of the type of waste is smaller than the preset discharge storage space threshold.
8. A management system regulation system applying the intelligent management regulation method for recycling solid waste according to any one of claims 1 to 7, comprising:
and a waste collection module: for collecting various types of waste from the outside;
A waste storage module: the device is used for storing the waste collected by the waste collection channel and the discharged materials after the recycling treatment of various types of waste;
and a waste identification module: the method is used for identifying the waste of each type according to different treatment processes of the waste of each type;
And a waste classification module: the device is used for classifying the identified waste of each type and classifying the discharge of the waste of each type in the treatment process;
and a waste recycling and processing module: the processing and recycling treatment method is used for processing and recycling each type of waste according to the corresponding recycling treatment mode;
and a reverse adjusting module: the device is used for adjusting the feeding speed when the recycling process of the waste is problematic;
Database: the system is used for storing the preset maximum discharging speed and the storage space information of each type of waste.
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