CN110902184A

CN110902184A - Renewable resource recycling and classifying system based on big data

Info

Publication number: CN110902184A
Application number: CN201911113575.3A
Authority: CN
Inventors: 谭守标; 杨传荣; 徐超; 彭春雨; 陈森; 李正平
Original assignee: ANHUI HUANJIA TIANYI REGENERATION RESOURCE CO LTD
Current assignee: ANHUI HUANJIA TIANYI REGENERATION RESOURCE CO LTD
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-03-24

Abstract

The invention discloses a big data-based renewable resource recycling and classifying system which comprises a resource recycling and processing platform, an Ethernet exchanger, a comparison processing module, a controller, other resource recycling boxes, a paper product recycling box, a plastic recycling box, a metal recycling box, a switching module, a touch display screen, a display control module, an infrared sensor and a power supply unit, wherein the Ethernet exchanger is used for exchanging data with the resource recycling and processing platform; the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box comprise a memory, a distance sensor, a monitoring camera and an electronic scale, the metal recycling box further comprises a positioning module, and the other resource recycling boxes further comprise a smoke monitor, a temperature monitor and an electromagnetic valve; the invention has the beneficial effects that: can carry out real-time supervision to the height and the weight of retrieving the resource, backstage personnel can in time handle excessive accumulational resource to have the safety protection function, can in time play the effect of putting out a fire, have the effect of guide and science popularization when throwing simultaneously.

Description

Renewable resource recycling and classifying system based on big data

Technical Field

The invention relates to a renewable resource recycling system, in particular to a renewable resource recycling and classifying system based on big data, and belongs to the technical field of renewable resources.

Background

Resources available to humans can be divided into two categories: the renewable resource is a substance resource which is developed and utilized once and discarded in various activities such as human production, life, science and education, traffic, national defense and the like, and can be recycled and reused repeatedly, comprises steel, nonferrous metals, rare metals, alloys, inorganic nonmetals, plastics, rubber, fibers, paper and the like which are produced and discarded by taking minerals as raw materials and are called renewable resources, and the nonrenewable refers to a substance resource which cannot be naturally formed or generated for a long time after being developed and utilized once by human, comprises various metal minerals, nonmetallic minerals, rocks, solid fuels, liquid fuels (petroleum), gas fuels and the like in the nature, even comprises underground mineral water, because the substance resource is a product of contact reaction of rainwater with the minerals after penetrating into the underground depth and tens of years, even hundreds of years, renewable means that after being developed and utilized once by human beings, the solar energy can be cyclically and naturally generated, grown and propagated through natural or artificial living solar energy in a certain time, and some material resources can also increase the reserves continuously and comprise surface water, soil, plants, animals, aquatic organisms, microorganisms, forests, grasslands, air, sunlight, climate resources, ocean resources and the like, but the growth and propagation of the animals, the plants, the aquatic organisms and the microorganisms are limited by the environmental influence caused by the human beings.

In the existing renewable resource system, when the renewable resources are collected, the renewable resources comprise electronic resources, because a part of electronic resources contain lithium batteries, the problems of internal short circuit and external short circuit of the batteries exist, the current is too large during short circuit, the batteries are heated and burnt, the external high temperature can cause the combustion of the batteries, certain potential safety hazard exists, the function of timely processing is not provided, the collected renewable resources cannot be monitored, the resources cannot be processed by a transport vehicle only when the resources are full, the labor cost and the labor amount are increased, the weight information of the renewable resources can not be collected and the information data is fed back to the background statistics during the collection, the classification display of the renewable resources is not available, the function of science popularization is not available, the use of the user can not be guided, when the resources are classified, a phenomenon of classification error exists, and a step of transportation processing is added later.

Disclosure of Invention

The invention aims to solve the problems that in the existing renewable resource processing system, because a part of electronic resources comprise lithium batteries, internal short circuit and external short circuit of the batteries exist, the current is overlarge during short circuit, then the batteries are heated and burnt, the batteries are possibly burnt due to high external temperature, certain potential safety hazard exists, the system does not have the function of timely processing, the collected renewable resources cannot be monitored, the collected renewable resources cannot be processed by a transport vehicle only when the resources are full, the labor cost and the labor amount are increased, the weight information of the renewable resources can not be collected and the information data is fed back to the background for statistics during collection, the classification display of the renewable resources and the function of science popularization guidance are not provided, the phenomenon of wrong classification exists during resource classification, and the steps of subsequent transportation and processing are added, so that a regeneration resource recycling and classifying system based on big data is provided.

The purpose of the invention can be realized by the following technical scheme: a big data-based renewable resource recycling and classifying system comprises a resource recycling processing platform, an Ethernet exchanger, a comparison processing module, a controller, other resource recycling boxes, a paper product recycling box, a plastic recycling box, a metal recycling box, a switching module, a touch display screen, a display control module, an infrared sensor and a power supply unit;

the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box comprise a storage, a distance sensor, a monitoring camera and an electronic scale, the metal recycling box further comprises a positioning module, and the other resource recycling boxes further comprise a smoke monitor, a temperature monitor and an electromagnetic valve;

the metal recycling bin is used for recycling and storing recyclable resources related to metal, the plastic recycling bin is used for recycling recyclable resources related to plastic, the paper product recycling bin is used for collecting recyclable resources of paper products, the other resource recycling bins are used for collecting other recyclable resources, the other recyclable resources comprise electronic resources and rubber resources, electronic scales in the other resource recycling bins, the paper product recycling bin, the plastic recycling bin and the metal recycling bin are used for weighing and metering the collected recyclable resources, the monitoring camera is used for recording and shooting image information in the recycling bin, the memory is used for storing information content of classified resources, the smoke monitor and the temperature monitor are used for monitoring safe environments in the other resource recycling bins and completing related emergency treatment, the specific treatment steps are as follows:

the method comprises the following steps: acquiring safety information in other resource recycling boxes, wherein the safety information comprises a recycling box smoke value and a recycling box temperature value, marking the acquired recycling box smoke value as Y, and marking the recycling box temperature value as W;

step two: the current safety state is obtained through calculation of a comparison processing module, the comparison processing module stores a preset safety value, the safety value is divided into a smoke alarm value YA and a temperature alarm value WA, when Y is smaller than YA and W is smaller than WA, the smoke alarm value YA and the temperature alarm value WA are in the safety state and do not adopt any operation, when Y is smaller than YA and W is larger than WA, the smoke alarm value WA is judged to be in a dangerous state, the comparison processing module transmits a signal to a controller, the controller opens an electromagnetic valve which is communicated with a water pipe, the electromagnetic valve is opened to lead other resource recycling boxes to be led into a water body to play a fire extinguishing role, when Y is larger than YA and W is smaller than WA, operation that Y is smaller than YA and W is larger than WA is repeated, and when Y is larger than;

the inside memory of other resource class collection box, paper products collection box, plastics class collection box, metal class collection box has stored the resource video image of the collection box that corresponds respectively, and resource video image divides into JV, SV, ZV, QV, the switching module is used for switching resource video image information and handles, and the image after the switching demonstrates through the touch-control display screen, the touch-control display screen realizes intelligent economize on electricity effect through showing control module and infrared sensor, and specific processing is as follows:

s1: the preset distance value of the infrared sensor is P, the actual distance between a user and the touch display screen is marked as I, when the actual distance I between the user and the touch display screen is less than or equal to the P value, the display control module receives a signal to control the touch display screen to be lightened, and when the actual distance I of the user is greater than P, the display control module does not receive the signal, so that the touch display screen is in a extinguished state;

s2: the method comprises the steps that operation instruction information is obtained through a touch display screen, a generated control instruction JVV corresponds to JV, SVV corresponds to SV, ZVV corresponds to ZV, QVV corresponds to QV, a specific operation instruction corresponds to a relevant memory, corresponding video information is fed back when triggering, metal resource image information JV is displayed for a user when JVV is triggered, plastic resource image SV is displayed for the user when SVV is triggered, paper resource recovery image ZV is displayed for the user when ZVV is triggered, and other resource recovery range images QV are displayed for the user when QVV is triggered.

Further, the method comprises the following steps: the positioning module is used for positioning the recycling bin, the distance sensor is used for sensing the volume height of the recycling resources inside the recycling bin, the resource recycling processing platform can transmit the transportation information when the volume height reaches a preset value, and the specific processing steps are as follows:

step A: the renewable resources are stacked in the recycling bin, the renewable resources are continuously stacked to have a certain height, the height is represented as H, in order to ensure that the recycling bin has the function of continuous storage, a height threshold value is preset as HK, when the H is larger than or equal to the HK, the recycling bin is in a full state and cannot store more renewable resources, a cleaning instruction is generated at the moment, background processing personnel timely transport and process the renewable resources in the recycling bin, the recycling bin is emptied to store new renewable resources again, when the cleaning instruction is generated, the electronic scale stops metering and transmits the current weight value to the memory for storage, the memory write-in time point transmits the weight value to the resource recycling processing platform through the Internet protocol, and the resource recycling processing platform counts the weight of the resources before each cleaning;

and B: when H is less than HK, the recycling bin still has free space for placing and collecting more renewable resources, the recycling bin is in an empty state at the moment, a cleaning instruction is not generated, and the electronic scale is still in a real-time weighing link.

Further, the method comprises the following steps: the Ethernet switch is used for transmitting data information, monitoring information acquired by the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box is sent to the resource recycling processing platform through the Ethernet switch, the resource weights of the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box in a single day are respectively represented as G1, G2, G3 and G4, the resource recycling processing platform comprises a statistic module, and the statistic module carries out budget simulation on the weight in thirty days, namely (G1+ G2+ G3+ G4) × 30.

Compared with the prior art, the invention has the beneficial effects that:

1. the distance sensor can be used for monitoring the height generated by stacking resources in the recycling bin, in order to ensure that the recycling bin has the function of continuously storing the resources, the height formed by stacking actual resources is compared with the height of a preset value through the comparison processing module, when the stacking height is larger than or equal to the preset value, the recycling bin is in a full state and cannot store and contain more renewable resources, at the moment, the comparison processing module generates a cleaning instruction and transmits the cleaning instruction to the resource recovery processing platform through the Ethernet exchanger, a background processor timely transports and processes the renewable resources in the recycling bin, the resources can be timely cleaned when the recycling bin is full, manual on-site inspection is not needed when the recycling bin is not full, more convenience and trouble are saved, a command signal can be transmitted to the controller while the cleaning instruction of the comparison processing module is generated, the controller controls the electronic scale to stop metering and transmit the current weight value to the memory for storage, the writing time point of the memory is transmitted to the resource recovery processing platform through the internet protocol, and the resource recovery processing platform records the weight information according to the time point, so that the later big data statistics is facilitated.

2. Because the other resource recycling boxes contain electronic resources which contain lithium batteries, the problem of internal short circuit and external short circuit of the batteries exists, the current is too high during short circuit, the batteries are heated and burned, external high temperature can cause battery burning, and certain potential safety hazard exists, in order to increase the safety degree during collection, safety information needs to be obtained from the recycling boxes in real time, the safety information comprises a smoke value and a temperature value of the recycling boxes, the obtained smoke value and the obtained temperature value are calculated through a comparison processing module to obtain the current safety state, the smoke value and the temperature value are judged to be in a dangerous state as long as one of the smoke value and the temperature value is greater than the preset value of the comparison processing module, the effect of extinguishing fire and extinguishing smoke is achieved by controlling an electromagnetic valve to open a water source, the safety state is only when the smoke value and the temperature value are uniformly less than the preset value, and the safety information can, and timely solve the field problem.

3. When a user throws the waste paper according to different recycling boxes in a classified manner, the phenomenon that the throw is unclear due to area division exists, in order to better guide the user to throw the waste paper accurately and reduce the task of later transportation and reprocessing, memories in other resource recycling boxes, paper product recycling boxes, plastic recycling boxes and metal recycling boxes respectively store resource video images of the corresponding recycling boxes, a touch display screen acquires operation instruction information, specific operation instructions correspond to related memories, different pieces of video information are called to be displayed and played, the service life of the touch display screen is prolonged in order to reduce energy waste, the screen is lightened only when the user approaches, the preset distance value of an infrared sensor is P, when the actual distance I of the user is smaller than or equal to the P value, the infrared sensor transmits a command to a display control module, and the display control module receives the signal to control the touch display screen to light, when the actual distance I of the user is larger than P, the display control module does not receive the signal, and the touch display screen is in a extinguished state, so that the function of guiding science popularization is achieved, and intelligent power saving can be achieved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall perspective structure of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a big data-based renewable resource recycling and classifying system includes a resource recycling processing platform, an ethernet switch, a comparison processing module, a controller, other resource recycling boxes, a paper product recycling box, a plastic recycling box, a metal recycling box, a switching module, a touch display screen, a display control module, an infrared sensor, and a power supply unit;

the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box comprise a memory, a distance sensor, a monitoring camera and an electronic scale, the metal recycling box further comprises a positioning module, and the other resource recycling boxes further comprise a smoke monitor, a temperature monitor and an electromagnetic valve;

the metal recycling bin is used for recycling and storing recyclable resources related to metal, the plastic recycling bin is used for recycling recyclable resources related to plastic, the paper product recycling bin is used for collecting recyclable resources of paper products, the other resource recycling bins are used for collecting other recyclable resources, the other recyclable resources comprise electronic resources and rubber resources, the other resource recycling bins, the paper product recycling bin, the plastic recycling bin and the electronic scale in the metal recycling bin are used for weighing and measuring the collected recyclable resources, the monitoring camera is used for recording and shooting image information in the recycling bin, the storage is used for storing information content of classified resources, the smoke monitor and the temperature monitor are used for monitoring safe environments in the other resource recycling bins and completing related emergency treatment, and the specific processing steps are as follows:

step two: the current safety state is obtained through calculation of a comparison processing module, the comparison processing module stores a preset safety value, the safety value is divided into a smoke alarm value YA and a temperature alarm value WA, when Y is smaller than YA and W is smaller than WA, the smoke alarm value YA and the temperature alarm value WA are in the safety state and do not need any operation, when Y is smaller than YA and W is larger than WA, the smoke alarm value WA is judged to be in a dangerous state, the comparison processing module transmits signals to a controller, the controller opens an electromagnetic valve which is communicated with a water pipe, when the electromagnetic valve is opened, other resource recycling boxes are led into a water body to play a fire extinguishing role, when Y is larger than YA and W is smaller than WA, operation that Y is smaller than YA and W is larger than WA is repeated, and when Y is larger than YA;

other resource class collection box, paper products collection box, plastics class collection box, the inside memory of metal class collection box has stored the resource video image of the collection box that corresponds respectively, resource video image divide into JV, SV, ZV, QV, the switching module is used for switching processing resource video image information, the image after the switching shows through the touch-control display screen, the touch-control display screen passes through the display control module and realizes intelligent economize on electricity effect with infrared sensor, concrete processing is as follows:

s1: the preset distance value is P, when the actual distance I of the user is smaller than or equal to the P value, the display control module receives a signal to control the touch display screen to light up, and when the actual distance I of the user is larger than P, the display control module does not receive the signal, so that the touch display screen is in a turned-off state;

s2: acquiring operation instruction information through a touch display screen, wherein a generated control instruction JVV corresponds to JV, SVV corresponds to SV, ZVV corresponds to ZV, QVV corresponds to QV, a specific operation instruction corresponds to a related memory, metal resource image information is displayed for a user when JVV is triggered, plastic resource images are displayed for the user when SVV is triggered, paper resource recovery images are displayed for the user when ZVV is triggered, and other resource recovery range images are displayed for the user when QVV is triggered;

the positioning module is used for positioning the recycling bin, the distance sensor is used for sensing the volume height of the recycling resources inside the recycling bin, the resource recycling processing platform can transmit the transportation information when the volume height reaches a preset value, and the specific processing steps are as follows:

step A: the renewable resources are stacked in the recycling bin, the renewable resources are continuously stacked to have a certain height, the height is represented as H, in order to ensure that the recycling bin has the function of continuous storage, a height threshold value is preset as HK, when the H is larger than or equal to the HK, the recycling bin is in a full state and cannot store and contain more renewable resources, a cleaning instruction is generated at the moment, background processing personnel timely transport and process the renewable resources in the recycling bin, and when the cleaning instruction is generated, the electronic scale stops metering and transmits the current weight value to the memory for storage, and the memory write-in time point transmits the weight value to the resource recycling processing platform through an internet protocol; and B: when H is less than HK, the recycling bin still has free space for placing and collecting more renewable resources, the recycling bin is in an empty state at the moment, a cleaning instruction is not generated, and the electronic scale is still in a real-time weighing link.

The Ethernet exchanger is used for transmitting data information, monitoring information acquired by the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box is sent to the resource recycling processing platform through the Ethernet exchanger, the resource weights of the other resource recycling boxes, the paper product recycling box, the plastic recycling box and the metal recycling box in a single day are respectively represented as G1, G2, G3 and G4, the resource recycling processing platform comprises a statistic module, and the statistic module carries out budget simulation on the weight in thirty days, namely (G1+ G2+ G3+ G4) × 30.

When the invention is used, the metal recycling bin, the plastic recycling bin, the paper product recycling bin and other resource recycling bins represent resources collected in respective ranges, the metal recycling bin is used for collecting metal resources, the plastic recycling bin is used for collecting plastic resources, the paper product recycling bin is used for collecting paper product resources, the other resource recycling bins collect other recycled resources which are not specifically classified, the metal recycling bin and the plastic recycling bin comprise rubber and electronic resources, the four recycling bins all comprise electronic scales which can be used for weighing the resources in the recycling bins in real time to obtain weight values, the monitoring camera is connected with the resource recycling processing platform through a network and can be used for background personnel to observe the conditions in the recycling bins in real time, the distance sensor can be used for monitoring the height generated by the resources accumulated in the recycling bins, the height is represented as a variable and is H, and the recycling bins have the function of continuously accommodating, the height threshold HK is set through the comparison processing module, when H is larger than or equal to HK, the recycling bin is in a full state and cannot store and contain more renewable resources, the comparison processing module generates a cleaning instruction and transmits the cleaning instruction to the resource recycling processing platform through the Ethernet exchanger, background processing personnel obtain the specific geographic position of the recycling bin through the positioning module and transport and process the renewable resources in the recycling bin in time, the cleaning instruction generated by the comparison processing module transmits a command signal to the controller, the controller controls the electronic scale to stop metering and transmit the current weight value to the memory for storage, the writing time point of the memory is transmitted to the resource recycling processing platform through an Internet protocol, the resource recycling processing platform records weight information according to time points, large data statistics in later periods is facilitated, and as other resource recycling bins contain the electronic resources, the electronic resource comprises a lithium battery, the problem of internal short circuit and external short circuit of the battery exists, the current is overlarge during short circuit, the battery is heated and burned, the battery is possibly burned due to high external temperature, certain potential safety hazard exists, in order to increase the safety degree during collection, safety information needs to be acquired from a recovery box in real time, the safety information comprises a smoke value of the recovery box and a temperature value of the recovery box, the acquired smoke value of the recovery box is marked as Y, the temperature value of the recovery box is marked as W, the current safety state is calculated through a comparison processing module, the comparison processing module stores a preset safety value, the safety value is divided into a smoke alarm value YA and a temperature alarm value WA, when Y is less than YA and W is less than WA, the electronic resource is in the safety state without any operation, when Y is less than YA and W is greater than WA, the electronic resource is judged to be in the dangerous state, the comparison, the controller opens the electromagnetic valve which is communicated with the water pipe, when the electromagnetic valve is opened, other resource recycling boxes are introduced into the water body to play a role in extinguishing fire, when Y is more than YA and W is less than WA, operation under the condition that Y is less than YA and W is more than WA is repeated, when a user throws the recycling boxes in a classified mode according to different recycling boxes, the phenomenon that the regions are divided into regions and misthrows exists, in order to better guide the user to throw and reduce tasks of post-transportation reprocessing accurately, the storage is four resource video images which store the corresponding recycling boxes, the resource video images are divided into JV, SV, ZV and QV, the touch display screen acquires operation instruction information, the generated control instruction JVV corresponds to SVV, the ZVV corresponds to SV, the QVV corresponds to QV, the specific operation instruction corresponds to the related storage, and the switching module plays a role in transferring identification when the operation instruction is triggered JVV, the JV information in the corresponding memory is displayed through a touch display screen to display metal resource image information for a user, plastic resource images are displayed for the user when SVV is triggered, paper resource recovery range images are displayed for the user when SVV is triggered ZVV, other resource recovery range images are displayed for the user when SVV is triggered QVV, the service life of the touch display screen is prolonged in order to reduce energy waste, the touch display screen can be lightened only when the user approaches, the preset distance value of the infrared sensor is P, when the actual distance I of the user is smaller than or equal to the P value, the infrared sensor transmits a command to the display control module, the display control module receives the signal to control the touch display screen to be lightened, when the actual distance I of the user is larger than P, the display control module does not receive the signal, and the touch display screen is in a turned-off state.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A big data-based renewable resource recycling and classifying system is characterized by comprising a resource recycling processing platform, an Ethernet exchanger, a comparison processing module, a controller, other resource recycling boxes, a paper product recycling box, a plastic recycling box, a metal recycling box, a switching module, a touch display screen, a display control module, an infrared sensor and a power supply unit;

2. The recycling and sorting system for renewable resources based on big data according to claim 1, wherein the positioning module is used for positioning the recycling bin, the distance sensor is used for sensing the volume height of the recycling resources inside the recycling bin, and when the volume height reaches a preset value, the resource recycling processing platform will transmit the transportation information, and the specific processing steps are as follows:

3. The big data-based recycling and sorting system according to claim 1, wherein the ethernet switch is used for data information transmission, the monitoring information collected by the other resource recycling bin, the paper product recycling bin, the plastic recycling bin, and the metal recycling bin is sent to the resource recycling platform through the ethernet switch, the resource weights of the other resource recycling bin, the paper product recycling bin, the plastic recycling bin, and the metal recycling bin on a single day are respectively represented as G1, G2, G3, and G4, and the resource recycling platform includes a statistics module, and the statistics module performs budget simulation on the weight within thirty days, that is, (G1+ G2+ G3+ G4) × 30.