CN114443733A - Method and system for collecting and processing garbage classification data - Google Patents

Abstract

The application relates to the field of garbage classification, in particular to a method and a system for collecting and processing garbage classification data, wherein the method comprises the steps of obtaining weight data of garbage and garbage can information of a garbage can filled with the garbage; making a single-day garbage condition statistical table according to the weight data and the garbage can information; acquiring first ammonia concentration data at the garbage can, and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data; preparing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table; and graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table. The method and the device have the effect of facilitating promotion of the reference value of the collected garbage related data.

Description

Method and system for collecting and processing garbage classification data

Technical Field

The present application relates to the field of garbage classification, and in particular, to a method and system for collecting and processing garbage classification data.

Background

In order to facilitate the convenience of disposing and producing household garbage, garbage classification is currently carried out in most residential districts, school districts and other living areas.

At present, when garbage data is collected, garbage weight data in a garbage can is generally estimated according to the capacity of the garbage can, and the estimated garbage weight data is manually filled into a paper-edition garbage statistical data report, so that the garbage weight data is collected.

In the process of implementing the present application, the inventors found that the above-mentioned technology has at least the following problems: firstly, the garbage weight data acquired by the prior art only has one garbage weight, and the acquired data is relatively single in type; secondly, the garbage weight data collected by using an estimation mode lacks accuracy; by combining the two aspects, the reference value of the related garbage data acquired by the prior art is small, and the scientific decision and judgment of related departments are easily influenced.

Disclosure of Invention

In order to improve the reference value of the collected garbage related data, the application provides a garbage classification data collection and processing method and system.

In a first aspect, the present application provides a method for collecting and processing garbage classification data, which adopts the following technical scheme:

a method of garbage classification data collection processing, comprising:

acquiring weight data of garbage and garbage can information of a garbage can filled with the garbage;

making a single-day garbage condition statistical table according to the weight data and the garbage can information;

acquiring first ammonia concentration data at the garbage can, and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data;

preparing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table;

and graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table.

By adopting the technical scheme, the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage once, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is improved conveniently.

In a specific embodiment, the obtaining weight data of the trash and the trash can information of the trash can containing the trash comprises:

acquiring weight data of the garbage in the garbage can through a preset wagon balance;

and reading the garbage bin information stored in the preset electronic tag on the garbage bin through a preset reader.

Through adopting above-mentioned technical scheme, be convenient for accurate weight data of rubbish in the detection garbage bin through the weighbridge, be convenient for confirm the garbage bin information of this garbage bin through reading the ware to be convenient for confirm the rubbish weight that loads in every garbage bin, and then be convenient for promote the accuracy of the rubbish classification data of gathering.

In a specific possible embodiment, the trash can information includes: the garbage can number and the garbage type of the garbage loaded by the garbage can; the waste types include dry waste and wet waste.

By adopting the technical scheme, the serial number information of the garbage can is acquired, the weight data of the detected garbage can be classified and stored conveniently according to the serial number information of the garbage can, the statistical efficiency of the weight data of the garbage can is improved conveniently, the type data of the garbage can is acquired, the garbage type in the garbage can is determined conveniently, and the garbage weight of different types can be counted conveniently according to the type of the garbage.

In a specific possible embodiment, the acquiring first ammonia concentration data at the trash can includes:

detecting by a preset ammonia gas concentration measuring instrument distributed around the garbage can to obtain second ammonia gas concentration data at the garbage can;

and performing weighted calculation on the second ammonia concentration data to obtain the first ammonia concentration data.

By adopting the technical scheme, the ammonia concentration near the garbage can is important detection index data, but the importance of the concentration data at different height positions near the garbage can is different, so that the ammonia concentration near the garbage can be intuitively reflected through one data, different weights can be distributed to different ammonia concentration data measuring points near the garbage can according to the importance, a plurality of second ammonia concentration data are detected at a time, weighting calculation is carried out on the second ammonia concentration data, and the first ammonia concentration data obtained through weighting calculation conveniently and accurately and intuitively reflect the ammonia concentration near the garbage can detected at this time.

In a specific embodiment, said creating a statistical table of ammonia gas concentration conditions for a single day based on said first ammonia gas concentration data comprises:

acquiring the first ammonia concentration data every preset ammonia detection interval time;

and importing the first ammonia concentration data into a preset single-day ammonia concentration condition statistical table template according to the time sequence to obtain the single-day ammonia concentration condition statistical table.

Through adopting above-mentioned technical scheme, every day every certain time record is first ammonia concentration data in turn to it provides the data basis to be convenient for follow-up statistics first ammonia concentration data.

In a specific possible embodiment, the making of the garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table comprises:

processing the weight data in the single-day garbage condition statistical table according to the garbage types to obtain the total weight of the single-day dry garbage and the total weight of the single-day wet garbage;

carrying out average processing on the first ammonia concentration data in the single-day ammonia concentration condition statistical table to obtain the single-day ammonia average concentration;

and leading the total weight of the single-day dry garbage, the total weight of the single-day wet garbage and the average concentration of the single-day ammonia gas into a preset garbage classification data statistical table template to obtain the garbage classification data statistical table.

By adopting the technical scheme, the obtained total weight of the dry garbage per day, the obtained total weight of the wet garbage per day and the obtained average concentration of ammonia gas per day are data with reference values, so that scientific decision and judgment on garbage conditions can be conveniently made by relevant departments.

In a second aspect, the present application provides a system for collecting and processing classified garbage data, which adopts the following technical scheme:

a system for garbage classification data collection processing, comprising:

the weight and attribute acquisition module is used for acquiring weight data of garbage and garbage can information of a garbage can filled with the garbage;

the single-day garbage situation statistical table making module is used for making a single-day garbage situation statistical table according to the weight data and the garbage can information;

the single-day ammonia concentration condition statistical table making module is used for obtaining first ammonia concentration data at the garbage can and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data;

the garbage classification data statistical table statistical module is used for manufacturing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table;

and the garbage classification data graphical display module is used for graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table.

By adopting the technical scheme, the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; the garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, simultaneously recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is conveniently improved.

In a third aspect, the present application provides a computer device, which adopts the following technical solution: comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that can perform any of the above-described methods of garbage classified data collection processing.

By adopting the technical scheme, the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; the garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is improved conveniently.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program is stored which can be loaded by a processor and which performs any of the above-described garbage classification data collection processes.

By adopting the technical scheme, the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; the garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is improved conveniently.

In a fifth aspect, the present application provides an information data processing terminal, which adopts the following technical solution: any of the above garbage classification data collection and processing methods can be performed.

By adopting the technical scheme, the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; the garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is improved conveniently.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the garbage bin information of the garbage bin is used for representing the attributes of the garbage loaded by the garbage bin, and the weight of the garbage with different attributes can be conveniently and respectively recorded by acquiring the garbage bin information of the garbage bin and the quantity of the garbage loaded in the garbage bin; the garbage cans with different attributes can be used for containing garbage for multiple times in one day, and the garbage can information and corresponding garbage weight data of the garbage can are written into a single-day garbage condition statistical table every time the garbage can contains garbage, so that the accuracy of garbage data recording is improved conveniently; the method comprises the steps of recording garbage bin information and garbage weight data, recording first ammonia concentration data detected in one day by using a single-day ammonia concentration condition statistical table, and finally displaying the collected garbage bin information, the collected garbage weight data and the first ammonia concentration data in an imaging mode to visually reflect garbage separation data, so that the reference value of the collected garbage related data is improved conveniently.

2. The ammonia concentration near the garbage can is important detection index data, but the importance of the data of the concentration at different positions near the garbage can is different, so that the ammonia concentration near the garbage can be intuitively reflected through one data, different weights can be distributed to different ammonia concentration data measuring points near the garbage can according to the importance, a plurality of second ammonia concentration data detected at a time are subjected to weighted calculation, and the ammonia concentration near the garbage can detected at this time can be accurately and intuitively reflected through the first ammonia concentration data obtained through the weighted calculation.

3. The first ammonia concentration data are recorded at regular intervals every day, so that the first ammonia concentration data are convenient to count and provide a data base.

Drawings

Fig. 1 is a schematic flow chart of a method for collecting and processing garbage classification data in embodiment 1 of the present application.

Fig. 2 is a block diagram of a system for collecting and processing garbage classification data in embodiment 2 of the present application.

Description of reference numerals: 100. a weight and attribute acquisition module; 200. a single-day garbage condition statistical table making module; 300. a single-day ammonia concentration condition statistical table making module; 400. a statistic module of the garbage classification data statistical table; 500. and a garbage classification data graphical display module.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

Example 1

The embodiment 1 of the application discloses a method for collecting and processing classified garbage data. Referring to fig. 1, the method for collecting and processing the garbage classification data includes:

s100, acquiring weight data of garbage and garbage can information of a garbage can filled with the garbage.

Specifically, S100 includes the following steps:

s101, acquiring weight data of garbage in the garbage can through a preset wagon balance.

In this embodiment 1, the application scenario of the garbage cleaning room in the residential area or school is used for convenience

Knowing the weight of the rubbish that every garbage bin loaded in the clean room of every rubbish, being provided with the intelligent platform scale that is arranged in weighing the rubbish weight of loading in the garbage bin on the subaerial of the clean room of rubbish, intelligent platform scale can prestore the empty load quality of garbage bin through setting up. In order to facilitate preventing that intelligent platform scale from influencing the traffic in the clean room of rubbish, and in order to facilitate the clean room staff of rubbish to push away the garbage bin to intelligent platform scale on, in the implementation, the top surface that needs to make intelligent platform scale flushes with ground.

In implementation, when the garbage bin is fully loaded with garbage, a worker of the garbage cleaning room pushes the garbage bin onto the intelligent scale, and the intelligent scale displays the weighed garbage bin and the total weight of the garbage loaded in the garbage bin on a display screen of the intelligent scale; furthermore, the intelligent platform scale calculates the weight of the garbage loaded in the garbage can according to the no-load mass of the garbage can and the total weight of the garbage loaded in the garbage can and the garbage loaded in the garbage can, and then displays the weight of the garbage on a display screen of the intelligent platform scale.

S102, reading garbage can information stored in a preset electronic tag on the garbage can through a preset reader.

In implementation, an RFID system is arranged in a garbage cleaning room, and the RFID system includes an electronic tag arranged on each garbage can, and the electronic tag stores garbage can information, where the garbage can information includes a garbage can number and a garbage can type, and it should be noted that the garbage can type refers to a type of garbage loaded in the garbage can, and the garbage types are classified into dry garbage and wet garbage in this embodiment 1; the RFID system also comprises a reader for reading the garbage can information in the electronic tag, and when the garbage can is pushed onto the intelligent platform scale, the reader is triggered to work immediately, so that the reader can directionally read the garbage can information of the garbage can placed on the intelligent platform scale.

S200, making a single-day garbage condition statistical table according to the weight data and the garbage can information.

The intelligent platform scale and the reader are in communication connection with a cleaning house computer preset in a cleaning house, a database is preset in the cleaning house computer, a plurality of single-day garbage condition statistical table templates are preset in the database, the single-day garbage condition statistical table templates are also not filled with a single-day garbage condition statistical table of data, and a garbage can number field, a garbage type field and a garbage weight field are further arranged in the single-day garbage condition statistical table templates.

When the single-day rubbish situation statistical table template is used, the date of the day is set on the header of the single-day rubbish situation statistical table template.

In implementation, when a worker in a garbage cleaning room pushes a garbage can fully loaded with garbage to an intelligent platform scale, a reader is started and immediately reads garbage can information in an electronic tag on the garbage can, the read garbage can information is transmitted to a cleaning room computer, the cleaning room computer fills garbage can serial numbers in the collected garbage can information into garbage can serial number fields in a single-day garbage condition statistical table template, and the garbage can types in the garbage can information are filled into corresponding garbage type fields in the single-day garbage condition statistical table template.

In implementation, when a worker in the garbage cleaning room pushes the garbage bin fully loaded with garbage onto the intelligent platform scale, the intelligent platform scale can immediately calculate the garbage weight of the garbage loaded in the garbage bin, further, the intelligent platform scale transmits the calculated garbage weight to the cleaning room computer, and the cleaning room computer fills the collected garbage weight into the corresponding garbage weight field in the single-day garbage condition statistics table template, wherein the unit corresponding to the garbage weight field is kg.

In implementation, every day when pushing away the garbage bin on intelligent weighbridge, all write into the garbage bin information of this garbage bin and the rubbish weight that this garbage bin loaded in the single day rubbish situation statistical table template of this day and form corresponding single day rubbish situation statistical table.

S300, obtaining first ammonia concentration data of the garbage can, and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data.

Specifically, S300 includes the following steps:

s301, detecting through a preset ammonia concentration tester distributed around the garbage can to obtain second ammonia concentration data at the garbage can.

The ammonia gas is extremely easily generated in the special garbage temporary storage processing environment of the garbage cleaning room, when the concentration of the ammonia gas in the garbage cleaning room exceeds a certain numerical value, the ammonia gas can cause great damage to a human body, and therefore the ammonia gas concentration data in the garbage cleaning room is also extremely important detection data.

In order to obtain ammonia concentration data near the garbage can in time, a plurality of ammonia concentration measuring instruments which are in one-to-one communication connection with a computer of the garbage cleaning room are arranged in the garbage cleaning room and at positions close to the garbage can and different in height. For example, since the relative molecular mass of ammonia gas is about 17 and the relative molecular mass of air is 29, the ammonia gas will move to the upper position in the garbage cleaning room after being generated, and relatively, the ammonia gas concentration data measured at the position closer to the upper position in the garbage cleaning room has the reference value, but ammonia gas exists in other height area spaces, so in order to improve the comprehensiveness and accuracy of measuring the ammonia gas concentration in the garbage cleaning room, it is necessary to measure the ammonia gas concentration by using ammonia gas concentration measuring instruments arranged around the garbage can and in different height ranges, then obtain a plurality of corresponding ammonia gas concentration data, and mark the ammonia gas concentration data measured at different height positions as the second ammonia gas concentration data.

S302, carrying out weighted calculation on the second ammonia concentration data to obtain first ammonia concentration data.

Because the reference values of the ammonia gas concentration data measured at different height positions are different, the ammonia gas concentration data measured at different height positions can be endowed with matched weights according to the reference values of the ammonia gas concentration data measured at different height positions, and then the cleaning house computer is used for carrying out weighted calculation on the second ammonia gas concentration data measured each time according to each second ammonia gas concentration data and the corresponding weight, so that first ammonia gas concentration data for reflecting the whole ammonia gas concentration in the garbage cleaning house can be obtained.

And S303, acquiring first ammonia concentration data every preset ammonia detection interval time.

According to historical data, the first ammonia concentration data in the garbage cleaning room measured in the working period of the garbage cleaning room are relatively similar, but in order to comprehensively and accurately measure the first ammonia concentration data in the garbage cleaning room, in the implementation, the first ammonia concentration data in the garbage cleaning room are measured once every preset ammonia detection interval time. Specifically, the ammonia gas detection interval time is set to 30 minutes, that is, the first ammonia gas concentration data is measured every 30 minutes.

S304, importing the first ammonia concentration data into a preset single-day ammonia concentration condition statistical table template according to the time sequence to obtain a single-day ammonia concentration condition statistical table.

A single-day ammonia concentration condition statistical table template is also preset in a database of the clean room computer, and the single-day ammonia concentration condition statistical table template is also a single-day ammonia concentration condition statistical table not filled with data.

The head of the single-day ammonia concentration condition statistical table template can be filled with the current day date according to the working date of the garbage cleaning room on the current day, a time field and a first ammonia concentration data field are further arranged in the single-day ammonia concentration condition statistical table template, the detection time of the first ammonia concentration data can be filled in the time field, and the detection time interval of the first ammonia concentration data in two adjacent times is 30 minutes; first ammonia concentration data corresponding to the detection time may be filled in the first ammonia concentration data field, and the unit of the first ammonia concentration data is ppm.

And writing the detection time of the first ammonia concentration data and the corresponding first ammonia concentration data into a single-day ammonia concentration condition statistical table template according to the time sequence to form a single-day ammonia concentration condition statistical table.

S400, manufacturing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table;

specifically, S400 includes the following steps:

s401, processing the weight data in the single-day garbage condition statistical table according to the garbage types to obtain the total weight of the single-day dry garbage and the total weight of the single-day wet garbage.

The garbage type field in the single-day garbage condition statistical table is filled with the garbage type corresponding to the garbage bin number, and the garbage weight field in the single-day garbage condition statistical table is filled with the garbage weight corresponding to the garbage bin number. For example, if the filling date of the single-day spam situation statistics table is 1 month and 1 day, the filling date at the header of the single-day spam situation statistics table is 1 month and 1 day; if read the garbage bin information of garbage bin on the intelligent platform scale through reading the ware and do: the number of the garbage can is 001, the garbage type is wet garbage, and the weight of the garbage loaded in the garbage can calculated by the intelligent platform scale is 50kg, then the cleaning house computer fills 001 in the number field of the garbage can of the single-day garbage condition statistical table with the date of 1 month and 1 day, fills the wet garbage in the corresponding garbage type field, and fills 50 in the corresponding garbage weight field. And by analogy, filling data related to each garbage can placed on the intelligent platform scale and the single-day garbage condition statistical table into the single-day garbage condition statistical table.

After the completion of filling the daily single-day garbage condition statistical table, searching the daily single-day garbage condition statistical table by using a clean room computer and taking dry garbage as a keyword, then finding out the garbage weight of each garbage type in the daily single-day garbage condition statistical table, and adding all the found garbage weights together to obtain the total weight of the daily dry garbage; meanwhile, the daily garbage condition statistical table is searched by using the 'wet garbage' as a keyword through a computer of the clean room, then the garbage weight of each garbage type of the 'wet garbage' in the daily garbage condition statistical table is found out, and all the found garbage weights are added together to obtain the total weight of the daily wet garbage.

S402, averaging the first ammonia concentration data in the single-day ammonia concentration condition statistical table to obtain the single-day ammonia average concentration.

After the step S304 is performed, the clean room computer may obtain a plurality of first ammonia concentration data arranged in time series on the same day, and then average the obtained plurality of first ammonia concentration data by the clean room computer to obtain an average value of the plurality of first ammonia concentration data, and the average value is recorded as the single-day ammonia average concentration.

And S403, introducing the total weight of the single-day dry garbage, the total weight of the single-day wet garbage and the average concentration of the single-day ammonia gas into a preset garbage classification data statistical table template to obtain a garbage classification data statistical table.

A garbage classification data statistical table template is preset in a garbage cleaning house computer, and the garbage classification data statistical table template is a garbage classification data statistical table which is not filled with data. The garbage classification data statistical table template is provided with a date field, a single-day dry garbage total weight field, a single-day wet garbage total weight field and a single-day ammonia average concentration field.

In implementation, a date of the current day is filled in a date field through a clean room computer, the total weight of the dry garbage for a single day obtained in the step S401 is filled in a dry garbage for a single day corresponding to the date field, the total weight of the wet garbage for a single day obtained in the step S401 is filled in a wet garbage for a single day corresponding to the date field, and the average ammonia concentration for a single day obtained in the step S402 is filled in an average ammonia concentration field for a single day corresponding to the date field; and filling the date, the total weight of the dry garbage per day, the total weight of the wet garbage per day and the average concentration of ammonia gas per day into a garbage classification data statistical table template to obtain a corresponding garbage classification data statistical table.

And S500, displaying the garbage classification data in a graphical mode according to the single-day garbage condition statistical table and the garbage classification data statistical table.

In order to facilitate the visual display of the garbage classification data, a display screen for graphically displaying the garbage classification data is arranged in the garbage cleaning room.

In implementation, the clean room computer obtains the total weight of the single-day dry garbage and the total weight of the single-day wet garbage for the last week from the garbage classification data statistical table, then makes a bar chart of the weight of the near-week dry/wet garbage according to the obtained total weight of the single-day dry garbage and the obtained total weight of the single-day wet garbage for the last week, and displays the bar chart of the weight of the near-week dry/wet garbage on the display screen.

In implementation, the clean room computer obtains the average concentration of the ammonia gas in a single day of the last week from the garbage classification data statistical table, then creates a near-one-week ammonia gas concentration change trend graph according to the average concentration of the ammonia gas in the single day of the last week, and displays the near-one-week ammonia gas concentration change trend graph on the display screen.

In implementation, the computer of the clean room acquires the total weight of the single-day dry garbage and the total weight of the single-day wet garbage of the latest month from the garbage classification data statistical table, then sums the total weight of the single-day dry garbage of the one month to obtain the total weight of the single-month dry garbage, and sums the total weight of the single-day wet garbage of the one month to obtain the total weight of the single-month wet garbage; further calculating the proportion between the total weight of the monthly dry garbage and the total weight of the monthly wet garbage, and then digitally displaying the total weight of the monthly wet garbage and the total weight of the monthly wet garbage on a display screen, wherein the display unit of the total weight of the monthly wet garbage and the total weight of the monthly wet garbage is ton; and displaying the proportion between the total weight of the dry garbage in the month and the total weight of the wet garbage in the month on a display screen in a mode of a circular proportion graph.

In implementation, each time a new garbage weight is recorded in the single-day garbage condition statistical table, the cleaning room computer digitally displays the newly recorded garbage weight on the display screen.

Fig. 1 is a schematic flow chart of a method for collecting and processing garbage classification data in an embodiment. It should be understood that, although the steps in the flowchart of fig. 1 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows; the steps are not limited to be performed in the exact order disclosed, and steps may be performed in other orders, unless explicitly stated otherwise; and at least some of the steps in fig. 1 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least some of the sub-steps or stages of other steps.

Example 2

The embodiment 2 of the application discloses a system for collecting and processing classified garbage data. Referring to fig. 2, the system for collecting and processing garbage classification data comprises:

the weight and attribute obtaining module 100 is configured to obtain weight data of garbage and garbage bin information of a garbage bin containing garbage.

And a single-day garbage condition statistical table making module 200 for making a single-day garbage condition statistical table according to the weight data and the garbage bin information.

The single-day ammonia concentration condition statistical table making module 300 is configured to obtain first ammonia concentration data at the trash can, and make a single-day ammonia concentration condition statistical table according to the first ammonia concentration data.

And the garbage classification data statistical table statistical module 400 is used for manufacturing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table.

And the garbage classification data graphical display module 500 is used for graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table.

Example 3

In this embodiment 3, a computer device is disclosed, which comprises a memory and a processor, wherein the memory stores a computer program, and when the computer program is executed by the processor, the processor is enabled to execute the steps of the above-mentioned method for collecting and processing the garbage classification data. Here, the steps of a method for collecting and processing garbage classification data may be steps in a method for collecting and processing garbage classification data of the above embodiments.

Example 4

In this embodiment 4, a computer-readable storage medium is disclosed, which stores a computer program capable of being loaded by a processor and executing the method for collecting and processing the garbage classification data, and the computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Example 5

In this embodiment 5, an information data processing terminal is disclosed, which is capable of executing the above garbage classification data collection processing method.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. A method for collecting and processing garbage classification data is characterized by comprising the following steps: the method comprises the following steps:

acquiring weight data of garbage and garbage can information of a garbage can filled with the garbage;

making a single-day garbage condition statistical table according to the weight data and the garbage can information;

acquiring first ammonia concentration data at the garbage can, and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data;

preparing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table;

and graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table.

2. The method of garbage classification data collection and processing of claim 1, wherein: obtain the weight data of rubbish and be equipped with the garbage bin information of the garbage bin of rubbish includes:

acquiring weight data of the garbage in the garbage can through a preset wagon balance;

and reading the garbage bin information stored in the preset electronic tag on the garbage bin through a preset reader.

3. The method of garbage classification data collection and processing of claim 2, wherein: the trash can information includes: the garbage can number and the garbage type of the garbage loaded by the garbage can; the waste types include dry waste and wet waste.

4. The method of garbage classification data collection and processing of claim 3, wherein: the obtaining of the first ammonia concentration data at the trash can includes:

detecting by a preset ammonia gas concentration measuring instrument distributed around the garbage can to obtain second ammonia gas concentration data at the garbage can;

and performing weighted calculation on the second ammonia concentration data to obtain the first ammonia concentration data.

5. The method of garbage classification data collection and processing of claim 4, wherein: the making of the single-day ammonia concentration condition statistical table according to the first ammonia concentration data comprises the following steps:

acquiring the first ammonia concentration data every preset ammonia detection interval time;

and importing the first ammonia concentration data into a preset single-day ammonia concentration condition statistical table template according to the time sequence to obtain the single-day ammonia concentration condition statistical table.

6. The method of garbage classification data collection and processing of claim 5, wherein: the step of manufacturing a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table comprises the following steps of:

processing the weight data in the single-day garbage condition statistical table according to the garbage types to obtain the total weight of the single-day dry garbage and the total weight of the single-day wet garbage;

carrying out average processing on the first ammonia concentration data in the single-day ammonia concentration condition statistical table to obtain the single-day ammonia average concentration;

and leading the total weight of the single-day dry garbage, the total weight of the single-day wet garbage and the average concentration of the single-day ammonia gas into a preset garbage classification data statistical table template to obtain the garbage classification data statistical table.

7. A system for collecting and processing garbage classification data is characterized in that: the method comprises the following steps:

the weight and attribute acquisition module (100) is used for acquiring weight data of garbage and garbage can information of garbage cans filled with the garbage;

a single-day garbage condition statistical table making module (200) for making a single-day garbage condition statistical table according to the weight data and the garbage can information;

the single-day ammonia concentration condition statistical table making module (300) is used for obtaining first ammonia concentration data at the garbage can and making a single-day ammonia concentration condition statistical table according to the first ammonia concentration data;

a garbage classification data statistical table statistical module (400) for making a garbage classification data statistical table according to the single-day garbage condition statistical table and the single-day ammonia concentration condition statistical table;

and the garbage classification data graphical display module (500) is used for graphically displaying the garbage classification data according to the single-day garbage condition statistical table and the garbage classification data statistical table.

8. A computer device, characterized in that the computer device comprises a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform any one of the methods of garbage classification data collection processing of claims 1-6.

9. A computer readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform a method of any one of the garbage classified data collection processing of claims 1-6.

10. An information data processing terminal, characterized in that the information data processing terminal executes any one of the garbage classified data collection processing methods of claims 1-6.

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