CN116679781B - Intelligent sorter test area environment management and control system - Google Patents

Abstract

The invention discloses an intelligent classifier testing area environment management and control system, which comprises a classifier acquisition module, an air flow rate acquisition module, a radio frequency acquisition module, an environment information acquisition module, a vibration information acquisition module, a data processing module and an information sending module; the sorter acquisition module is used for acquiring sorter information, wherein the sorter information comprises sorter sorting height information and area information of a sorter test environment test area; the air flow rate acquisition module is used for acquiring real-time air flow rate information of a testing area of the separator, wherein the real-time air flow rate information comprises first flow rate information, second flow rate information and third flow rate information; the test environment test acquisition module is used for acquiring real-time environment information of a test area of the sorting machine; the vibration information acquisition module is used for acquiring vibration force information of a testing area of the sorting machine. The invention can more comprehensively control the environment of the testing area of the sorting machine and improve the testing accuracy of the sorting machine.

Description

Intelligent sorter test area environment management and control system

Technical Field

The invention relates to the field of testing of sorters, in particular to an environment management and control system for a testing area of an intelligent sorter.

Background

A classifier is a device that performs weight-classified screening of products. Under the action of wind power conveying, the materials fall on a high-speed rotating distributing disc through a closing fan and a feeding hopper, under the action of centrifugal force, the materials are fully dispersed and thrown to a buffer ring, and in the falling process, heavier materials fall into a coarse material collector of a separator through blades of an adjusting ring under the action of cross air flow generated by a rotor and are discharged through the closing fan;

the sorter needs to be tested before being used to ensure sorting accuracy, and in the process of sorting machine testing, the sorter testing environment is controlled through the sorter testing area environment control system to ensure the accuracy of the sorter testing result.

The existing system for controlling the environment of the testing area of the sorting machine has single control type, so that the deviation of the testing result of the sorting machine is larger, and a certain influence is brought to the use of the system for controlling the environment of the testing area of the sorting machine, therefore, the system for controlling the environment of the testing area of the intelligent sorting machine is provided.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: how to solve the problem that the current classifier test area environment management and control system has single management and control type, which leads to larger classifier test result deviation and brings certain influence to the use of the classifier test area environment management and control system, provides an intelligent classifier test area environment management and control system.

The invention solves the technical problems through the following technical scheme that the device comprises a sorting machine acquisition module, an air flow rate acquisition module, a radio frequency acquisition module, an environment information acquisition module, a vibration information acquisition module, a data processing module and an information sending module;

the sorter acquisition module is used for acquiring sorter information, wherein the sorter information comprises sorter sorting height information and area information of a sorter test environment test area;

the air flow rate acquisition module is used for acquiring real-time air flow rate information of a testing area of the separator, wherein the real-time air flow rate information comprises first flow rate information, second flow rate information and third flow rate information;

the test environment test acquisition module is used for acquiring real-time environment information of a test area of the sorting machine;

the vibration information acquisition module is used for acquiring vibration force information of the testing area of the sorting machine, and the radio frequency acquisition module is used for acquiring radio frequency information of the testing area of the sorting machine;

the data processing module is used for processing the sorter information, the real-time air flow rate information, the real-time environment information, the vibration force information and the radio frequency information to obtain air flow rate control information, environment control information, vibration force control information and radio frequency control information;

the information sending module is used for sending the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information to a preset receiving terminal after the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information are generated.

The air flow rate acquisition module acquires real-time air flow rate information of a testing area of the separator as follows; extracting and collecting separator information, extracting separator separation height information from the separator information, setting air flow rate collecting equipment at different positions according to preset installation rules, and collecting the air flow rate information in real time after the air flow rate collecting equipment is set, namely obtaining real-time flow rate information.

Further, the content of the preset installation rule is as follows: extracting the collected sorting height information of the sorting machine, marking the sorting height of the sorting machine as K1, respectively setting at least three groups of air flow rate collecting equipment at the K1 height at one side of the sorting machine, and obtaining the air flow rate information collected at the position as first flow rate information;

setting a preset value A, obtaining the highest monitoring height Ka1 through a formula K1+A=Ka1, and obtaining the lowest monitoring height through a formula K1-A=Ka2;

at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka1 height at one side of the separator, and the air flow rate information acquired from the position is second flow rate information;

and at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka2 height at one side of the separator, and the air flow rate information acquired from the position is third flow rate information.

Further, the specific processing procedure of the air flow rate management and control information is as follows: extracting the collected first flow rate information, second flow rate information and third flow rate information;

the first flow rate information, the second flow rate information and the third flow rate information comprise nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates;

when any one of nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates is larger than a preset value B1, generating air flow rate management and control information, wherein the air flow rate management and control information comprises air flow rate corresponding positions, corresponding flow rate directions and corresponding numbers larger than the preset value B1, and the corresponding numbers comprise a first A1, a first A2, a first A3, a second B1, a second B2, a second B3, a third C1, a third C2 and a third C3;

and calculating the average value of the two upper air flow rates, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate at the corresponding positions, and collecting the upper air flow rate, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate after the two upper air flow rates, the lower air flow rate, the front air flow rate, the left air flow rate and the right air flow rate at the corresponding positions are randomly selected from the A position, the B position and the C position when the average value of any one air flow rate at any one position is larger than a preset value B2 for more than a preset duration, namely generating air flow rate management and control information, wherein B2 is smaller than B1.

Further, the specific processing procedure of the test environment management and control information is as follows: the method comprises the steps of extracting real-time environment information of a collected testing environment of the sorting machine, wherein the real-time environment information comprises real-time temperature information and real-time humidity information, and generating environment control information when the real-time information exceeds a preset range or the real-time humidity information exceeds a preset value.

Further, the concrete processing process of the vibration force control information is as follows: extracting the acquired real-time vibration information, wherein the real-time vibration information comprises first vibration information, second vibration information, third vibration information, fourth vibration information and fifth vibration information acquired by preset position points;

monitoring the first vibration information, the second vibration information, the third vibration information and the fourth vibration information in real time, and generating vibration force control information when any one of the first vibration information, the second vibration information, the third vibration information and the fourth vibration information exceeds a warning value;

the fifth vibration information is vibration information of the separator, the type information of the separator is imported into the Internet, standard vibration force of the separator is retrieved from the Internet, and when the fifth vibration information is larger than the standard vibration force, vibration force control information is generated.

Further, the specific processing procedure of the radio frequency control information is as follows: extracting radio frequency information of the collected testing environment test of the sorting machine, wherein the radio frequency information comprises radio frequency information and radio frequency protection equipment information, and the radio frequency protection equipment information comprises the number of the radio frequency protection equipment and the protection area of single radio frequency protection equipment;

then extracting area information of a testing environment testing area of the sorting machine from the information of the sorting machine, marking the area information as P, marking the number of the radio frequency protective devices as T1, and marking the protective area of the single radio frequency protective device as T2;

the method comprises the steps of processing area information P of a testing environment testing area of a sorting machine, the number T1 of radio frequency protection equipment and the protection area T2 of single radio frequency protection equipment to obtain evaluation parameters, and generating radio frequency control information when the evaluation parameters are abnormal and the radio frequency information is larger than a preset value, wherein the content of the radio frequency control information is insufficient radio frequency protection equipment.

Further, the acquiring process of the evaluation parameter and the judging process of the abnormality of the evaluation parameter are as follows: extracting area information P of a testing environment testing area of the sorting machine, the number T1 of radio frequency protective equipment and the protective area T2 of single radio frequency protective equipment, setting a correction value alpha, obtaining an evaluation parameter Tp through a formula T1 x T2 x alpha-P=Tp, wherein 0.95 is more than or equal to alpha and more than or equal to 0.85, alpha is in direct proportion to the size of P, and when the obtained evaluation parameter Tp is smaller than 0, indicating that abnormality exists.

Compared with the prior art, the invention has the following advantages: according to the intelligent sorter test area environment management and control system, air flow speed management and control information, environment management and control information, vibration force management and control information and radio frequency management and control information are obtained through processing of sorter information, real-time air flow speed information, real-time environment information, vibration force management and control information and radio frequency information, comprehensive sorter test area environment management and control are achieved, influence of environmental problems on sorter tests is reduced, test accuracy is improved, air flow speed of a sorter test area is monitored, air flow speed management and control information is generated abnormally, air speed regulation is conducted on the air flow speed abnormality-caused sorter test data, the environment state of the sorter test area is managed and controlled through the generated environment management and control information, influence of the environment problems on the sorter test result is reduced, whether abnormal vibration exists in the sorter test area or not can be timely known through the generated vibration force management and control information, the radio frequency state is reduced, the occurrence of test result deviation caused by the sorter abnormality is enabled to be more worthy of popularization.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a schematic view of the installation location of the air flow rate collection device of the present invention;

fig. 3 is a side view of the installation position of the air flow rate collection device of the present invention.

Description of the embodiments

The following describes in detail the examples of the present invention, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present invention is not limited to the following examples.

As shown in fig. 1, this embodiment provides a technical solution: an intelligent classifier testing area environment management and control system comprises a classifier acquisition module, an air flow rate acquisition module, a radio frequency acquisition module, an environment information acquisition module, a vibration information acquisition module, a data processing module and an information sending module;

the sorter acquisition module is used for acquiring sorter information, wherein the sorter information comprises sorter sorting height information and area information of a sorter test environment test area;

the air flow rate acquisition module is used for acquiring real-time air flow rate information of a testing area of the separator, wherein the real-time air flow rate information comprises first flow rate information, second flow rate information and third flow rate information;

the test environment test acquisition module is used for acquiring real-time environment information of a test area of the sorting machine;

the vibration information acquisition module is used for acquiring vibration force information of the testing area of the sorting machine, and the radio frequency acquisition module is used for acquiring radio frequency information of the testing area of the sorting machine;

the data processing module is used for processing the sorter information, the real-time air flow rate information, the real-time environment information, the vibration force information and the radio frequency information to obtain air flow rate control information, environment control information, vibration force control information and radio frequency control information;

the information sending module is used for sending the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information to a preset receiving terminal after the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information are generated;

according to the invention, the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information are obtained by processing the separator information, the real-time air flow rate information, the real-time environment information, the vibration force information and the radio frequency information, the comprehensive separator test area environment control is realized, the influence of environmental problems on the separator test is reduced, the test accuracy is improved, the air flow rate of the separator test area is monitored, the air flow rate control information which is abnormally generated is subjected to air speed regulation, the abnormal condition of the separator test data caused by the abnormal air flow rate is avoided, the environment state of the separator test area is controlled by the generated environment control information, the influence of the environmental problems on the separator test result is reduced, the abnormal vibration or the abnormal vibration of the separator body can be timely known through the generated vibration force control information, and the radio frequency state of the separator test area is controlled, so that the condition that the deviation of the test result caused by the abnormal separator is larger is reduced.

The specific processing process of the test environment management and control information is as follows: extracting the real-time environment information of the collected testing environment of the sorting machine, wherein the real-time environment information comprises real-time temperature information and real-time humidity information, and generating environment control information when the real-time information exceeds a preset range or the real-time humidity information exceeds a preset value;

the test environment management and control information indicates that the test environment needs to be adjusted;

through the process, the humidity and temperature of the testing environment of the separator can be intelligently adjusted, and abnormal operation of the separator caused by abnormal humidity and temperature is avoided, so that abnormal conditions of testing data of the separator are caused;

temperature, typically high, low, moisture, and extreme stability, can also affect the accuracy of the classifier. Generally, the working environment suitable for the weight sorting machine is-5-40 ℃, and the relative humidity is: 95% (no dew).

The concrete processing process of the vibration force control information is as follows: extracting the acquired real-time vibration information, wherein the real-time vibration information comprises first vibration information, second vibration information, third vibration information, fourth vibration information and fifth vibration information acquired by preset position points;

monitoring the first vibration information, the second vibration information, the third vibration information and the fourth vibration information in real time, and generating vibration force control information when any one of the first vibration information, the second vibration information, the third vibration information and the fourth vibration information exceeds a warning value;

the fifth vibration information is vibration information of the separator, the type information of the separator is imported into the Internet, standard vibration force of the separator is retrieved from the Internet, and when the fifth vibration information is larger than the standard vibration force, vibration force control information is generated;

floor vibration, because of large workshop noise, the frequent operation of the machine causes the floor vibration, and even the uneven floor of some workshops can influence the precision of the sorting machine;

therefore, through the process, comprehensive control of the vibration force of the testing environment of the sorting machine is realized, the problem of the vibration force is found timely, the problem of discharge is controlled, the accurate information of the testing result of the sorting machine is improved, and the vibration force control information indicates that the vibration force of the testing environment of the sorting machine is adjusted.

The specific processing procedure of the radio frequency control information is as follows: extracting radio frequency information of the collected testing environment test of the sorting machine, wherein the radio frequency information comprises radio frequency information and radio frequency protection equipment information, and the radio frequency protection equipment information comprises the number of the radio frequency protection equipment and the protection area of single radio frequency protection equipment;

then extracting area information of a testing environment testing area of the sorting machine from the information of the sorting machine, marking the area information as P, marking the number of the radio frequency protective devices as T1, and marking the protective area of the single radio frequency protective device as T2;

the method comprises the steps of processing area information P of a testing environment testing area of a sorting machine, the number T1 of radio frequency protection equipment and the protection area T2 of single radio frequency protection equipment to obtain evaluation parameters, and generating radio frequency control information when the evaluation parameters are abnormal and the radio frequency information is larger than a preset value, wherein the content of the radio frequency control information is insufficient radio frequency protection equipment and needs to be adjusted unevenly;

interference from radio frequencies, a variety of radio frequency interference sorters. Therefore, how to reduce and avoid the radio frequency interference has theoretical significance and engineering value;

the radio frequency of the testing environment of the sorting machine is comprehensively analyzed and processed to know whether the radio frequency is interfered or not, and whether the number of the set anti-radio frequency interference protective devices is sufficient or not is known, so that the accuracy of testing data of the sorting machine is ensured.

The acquisition process of the evaluation parameters and the judgment process of the abnormality of the evaluation parameters are as follows: extracting area information P of a testing environment testing area of the sorting machine, the number T1 of radio frequency protective equipment and the protective area T2 of single radio frequency protective equipment, setting a correction value alpha, obtaining an evaluation parameter Tp through a formula T1 x T2 x alpha-P=Tp, wherein 0.95 is more than or equal to alpha and more than or equal to 0.85, alpha is in direct proportion to the size of P, and when the obtained evaluation parameter Tp is smaller than 0, indicating that abnormality exists.

As shown in fig. 2 and 3, the process of the air flow rate acquisition module acquiring real-time air flow rate information of the testing area of the classifier is as follows; extracting and collecting separator information, extracting separator separation height information from the separator information, setting air flow rate collecting equipment at different positions according to preset installation rules, and after the air flow rate collecting equipment is set, collecting the air flow rate information in real time, namely obtaining real-time flow rate information, wherein the preset installation rules comprise the following contents: extracting the collected sorting height information of the sorting machine, marking the sorting height of the sorting machine as K1, respectively setting at least three groups of air flow rate collecting equipment at the K1 height at one side of the sorting machine, and obtaining the air flow rate information collected at the position as first flow rate information;

setting a preset value A, obtaining the highest monitoring height Ka1 through a formula K1+A=Ka1, and obtaining the lowest monitoring height through a formula K1-A=Ka2;

at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka1 height at one side of the separator, and the air flow rate information acquired from the position is second flow rate information;

at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka2 height at one side of the separator, and the air flow rate information acquired from the position is third flow rate information;

through the process, the air flow rate acquisition equipment is arranged at a plurality of different positions, so that the air flow rate information of the testing environment of the sorting machine is acquired more comprehensively, and data support is provided for the generation of follow-up air flow rate management and control information.

The specific processing process of the air flow rate control information is as follows: extracting the collected first flow rate information, second flow rate information and third flow rate information;

the first flow rate information, the second flow rate information and the third flow rate information comprise nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates;

when any one of nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates is larger than a preset value B1, generating air flow rate management and control information, wherein the air flow rate management and control information comprises air flow rate corresponding positions, corresponding flow rate directions and corresponding numbers larger than the preset value B1, and the corresponding numbers comprise a first A1, a first A2, a first A3, a second B1, a second B2, a second B3, a third C1, a third C2 and a third C3;

calculating the average value of two upper air flow rates, a lower air flow rate, a front air flow rate, a rear air flow rate, a left air flow rate and a right air flow rate at corresponding positions, and collecting the upper air flow rate, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate after the two upper air flow rates, the lower air flow rate, the left air flow rate and the right air flow rate at the corresponding positions are randomly selected from the position A, the position B and the position C when the average value of any one air flow rate at any one position is larger than a preset value B2 for more than a preset duration, namely, air flow rate management and control information is generated, wherein B2 is smaller than B1;

the air flow rate acquisition devices with the A position corresponding to the numbers of the first A1, the first A2 and the first A3, the air flow rate acquisition devices with the B position corresponding to the numbers of the second B1, the second B2 and the second B3, and the air flow rate acquisition devices with the C position corresponding to the numbers of the third C1, the third C2 and the third C3;

the air flow rate control information indicates that the air flow rate of the testing environment of the separator needs to be adjusted;

through the process, the air flow rate control information is generated, so that a user can know which position in the testing environment of the separator is abnormal in air flow rate, and the air flow rate is regulated and controlled rapidly and accurately, and the control speed of the testing environment of the separator is increased;

air flow, such as shop fans, air conditioning, blowing, etc., can have an effect on the accuracy of the classifier and therefore need to be managed.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (3)

1. The intelligent classifier testing area environment management and control system is characterized by comprising a classifier acquisition module, an air flow rate acquisition module, a radio frequency acquisition module, an environment information acquisition module, a vibration information acquisition module, a data processing module and an information sending module;

the sorter acquisition module is used for acquiring sorter information, wherein the sorter information comprises sorter sorting height information and area information of a sorter test environment test area;

the air flow rate acquisition module is used for acquiring real-time air flow rate information of a testing area of the separator, wherein the real-time air flow rate information comprises first flow rate information, second flow rate information and third flow rate information;

the test environment test acquisition module is used for acquiring real-time environment information of a test area of the sorting machine;

the vibration information acquisition module is used for acquiring vibration force information of the testing area of the sorting machine, and the radio frequency acquisition module is used for acquiring radio frequency information of the testing area of the sorting machine;

the data processing module is used for processing the sorter information, the real-time air flow rate information, the real-time environment information, the vibration force information and the radio frequency information to obtain air flow rate control information, environment control information, vibration force control information and radio frequency control information;

the information sending module is used for sending the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information to a preset receiving terminal after the air flow rate control information, the environment control information, the vibration force control information and the radio frequency control information are generated;

the process of the air flow rate acquisition module for acquiring real-time air flow rate information of the testing area of the separator is as follows; extracting information of an acquisition separator, extracting information of separation height of the separator from the information of the separator, setting air flow rate acquisition equipment at different positions according to preset installation rules, and acquiring the information of the air flow rate in real time after the air flow rate acquisition equipment is set, namely acquiring the information of the real-time flow rate;

the content of the preset installation rule is as follows: extracting the collected sorting height information of the sorting machine, marking the sorting height of the sorting machine as K1, respectively setting at least three groups of air flow rate collecting equipment at the K1 height at one side of the sorting machine, and obtaining the air flow rate information collected at the position as first flow rate information;

setting a preset value A, obtaining the highest monitoring height Ka1 through a formula K1+A=Ka1, and obtaining the lowest monitoring height through a formula K1-A=Ka2;

at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka1 height at one side of the separator, and the air flow rate information acquired from the position is second flow rate information;

at least three groups of air flow rate acquisition equipment are respectively arranged at the Ka2 height at one side of the separator, and the air flow rate information acquired from the position is third flow rate information;

the specific processing process of the air flow rate control information is as follows: extracting the collected first flow rate information, second flow rate information and third flow rate information;

the first flow rate information, the second flow rate information and the third flow rate information comprise nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates;

when any one of nine upper air flow rates, nine lower air flow rates, nine front air flow rates, nine rear air flow rates, nine left air flow rates and nine right air flow rates is larger than a preset value B1, generating air flow rate management and control information, wherein the air flow rate management and control information comprises air flow rate corresponding positions, corresponding flow rate directions and corresponding numbers larger than the preset value B1, and the corresponding numbers comprise a first A1, a first A2, a first A3, a second B1, a second B2, a second B3, a third C1, a third C2 and a third C3;

calculating the average value of the two upper air flow rates, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate at the corresponding positions, and generating air flow rate management and control information when any one air flow rate average value at any one position is larger than a preset value b2 for more than a preset duration, wherein b2 is smaller than b1;

the selection of the two upper air flow rates, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate at corresponding positions is that after two of the A position, the B position and the C position are randomly selected, the upper air flow rate, the lower air flow rate, the front air flow rate, the rear air flow rate, the left air flow rate and the right air flow rate are collected;

the specific processing procedure of the radio frequency control information is as follows: extracting radio frequency information of the collected testing environment test of the sorting machine, wherein the radio frequency information comprises radio frequency information and radio frequency protection equipment information, and the radio frequency protection equipment information comprises the number of the radio frequency protection equipment and the protection area of single radio frequency protection equipment;

then extracting area information of a testing environment testing area of the sorting machine from the information of the sorting machine, marking the area information as P, marking the number of the radio frequency protective devices as T1, and marking the protective area of the single radio frequency protective device as T2;

the method comprises the steps of processing area information P of a testing environment testing area of a sorting machine, the number T1 of radio frequency protection equipment and the protection area T2 of single radio frequency protection equipment to obtain evaluation parameters, and generating radio frequency control information when the evaluation parameters are abnormal and the radio frequency information is larger than a preset value, wherein the content of the radio frequency control information is insufficient radio frequency protection equipment;

the acquisition process of the evaluation parameters and the judgment process of the abnormality of the evaluation parameters are as follows: extracting area information P of a testing environment testing area of the sorting machine, the number T1 of radio frequency protective equipment and the protective area T2 of single radio frequency protective equipment, setting a correction value alpha, obtaining an evaluation parameter Tp through a formula T1 x T2 x alpha-P=Tp, wherein 0.95 is more than or equal to alpha and more than or equal to 0.85, alpha is in direct proportion to the size of P, and when the obtained evaluation parameter Tp is smaller than 0, indicating that abnormality exists.

2. The intelligent classifier testing area environment management and control system according to claim 1, wherein: the specific processing process of the test environment management and control information is as follows: the method comprises the steps of extracting real-time environment information of a collected testing environment of the sorting machine, wherein the real-time environment information comprises real-time temperature information and real-time humidity information, and generating environment control information when the real-time information exceeds a preset range or the real-time humidity information exceeds a preset value.

3. The intelligent classifier testing area environment management and control system according to claim 1, wherein: the concrete processing process of the vibration force control information is as follows: extracting the acquired real-time vibration information, wherein the real-time vibration information comprises first vibration information, second vibration information, third vibration information, fourth vibration information and fifth vibration information acquired by preset position points;

monitoring the first vibration information, the second vibration information, the third vibration information and the fourth vibration information in real time, and generating vibration force control information when any one of the first vibration information, the second vibration information, the third vibration information and the fourth vibration information exceeds a warning value;

the fifth vibration information is vibration information of the separator, the type information of the separator is imported into the Internet, standard vibration force of the separator is retrieved from the Internet, and when the fifth vibration information is larger than the standard vibration force, vibration force control information is generated.