CN116257024B - Alarm device and method for processing low-power-consumption display based on Internet of things - Google Patents

Abstract

The invention provides an alarm device and a method for processing a low-power-consumption display based on the Internet of things, which specifically comprise the following steps: the monitoring module acquires processing information and environment information in the processing process of the low-power-consumption display; the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data; transmitting the processing data and the environmental data to a reference calculation module, and receiving the processing data and the environmental data by the reference calculation module to obtain evaluation data; the invention can analyze and adjust the reasons of the display processing process affecting the processing efficiency according to the information, and improve the processing effect of the low-power consumption display screen.

Description

Alarm device and method for processing low-power-consumption display based on Internet of things

Technical Field

The invention relates to the technical field of display processing, in particular to an alarm device and method for processing a low-power-consumption display based on the Internet of things.

Background

The internet of things (Internet of Things, ioT for short) refers to collecting any object or process needing to be monitored, connected and interacted in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors and laser scanners, collecting various needed information such as sound, light, heat, electricity, mechanics, chemistry, biology and positions, and realizing ubiquitous connection of objects and people through various possible network access, and realizing intelligent sensing, identification and management of objects and processes. The internet of things is an information carrier based on the internet, a traditional telecommunication network and the like, and enables all common physical objects which can be independently addressed to form an interconnection network.

A display (screen) is an I/O device of a computer, i.e., an input-output device. It is a display tool for displaying certain electronic files on a screen through a specific transmission device. It can be classified into cathode ray tube display (CRT), plasma display PDP, liquid crystal display LCD, low-loss display, which means a display with lower loss power when operating.

The existing low-loss display cannot monitor and analyze the processing environment of the display in the processing process, and cannot judge the processing environment of the display according to the processing information and the environment information in the monitoring process, so that the display cannot be improved in an alarm mode according to the processing completion amount in the processing process of the display, and therefore the low-loss display processing alarm equipment and method based on the Internet of things are lacked to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the alarm equipment and the method for processing the low-power-consumption display based on the Internet of things.

In order to achieve the above object, the present invention is realized by the following technical scheme: the alarm device for processing the low-power-consumption display based on the Internet of things comprises a monitoring module, a monitoring information analysis module, an alarm module, a data evaluation module, a processing adjustment module, a reference calculation module and a server; the monitoring module, the monitoring information analysis module, the alarm module, the data evaluation module, the processing adjustment module and the reference calculation module are respectively connected with the server in a data mode;

the monitoring module acquires processing information and environment information in the processing process of the low-power-consumption display; the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data; transmitting the processing data and the environmental data to a reference calculation module, wherein the reference calculation module receives the processing data and the environmental data to calculate so as to obtain evaluation data;

The evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data; and the evaluation result is transmitted to an alarm module or a processing adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing adjusting module receives the evaluation result to adjust the processing environment.

Further, the detection and analysis module receives and analyzes the processing information, and respectively analyzes the processing time information, the processing flow information, the processing video information and the processing personnel information in the processing information;

the processing time information is analyzed as follows:

dividing the processing time in the morning into a first processing time period and a second processing time period based on the processing time value in the day, and dividing the processing time in the afternoon into a third processing time period and a fourth processing time period;

acquiring the work completion amounts of the processing staff in different processing time periods to obtain a first completion amount, a second completion amount, a third completion amount and a fourth completion amount;

and acquiring the work completion amounts of the processing personnel in a plurality of processing time periods according to the processing time values in the T time periods, and acquiring a plurality of first completion amounts, a plurality of second completion amounts, a plurality of third completion amounts and a plurality of fourth completion amounts.

Further, the processing flow information, the processing personnel information and the processing video information are analyzed, and the method specifically comprises the following steps:

acquiring the number of processing flows for processing the low-loss display based on the processing flow information, and acquiring the information of processing staff of each processing flow according to the number of processing flows;

the processing personnel agree to acquire the information of the processing personnel, acquire the names and age values of the processing personnel, and acquire the names and age information of the processing personnel during working of each processing flow;

acquiring processing video information of each processing flow, watching each processing flow by a processing person, acquiring picture information in a completion state in each processing flow, acquiring a standard picture of a low-power-consumption display at each processing stage, comparing the picture information acquired in the completion state with the standard picture, assigning a completion standard degree to obtain assignment information,

acquiring a minimum age value and a maximum age value according to the age value of a processing person, setting an age interval in the minimum age value and the maximum age value, and respectively setting a first age interval, a second age interval, a third age interval and a fourth age interval;

The method comprises the steps of acquiring assignment information in an age interval, defining the age interval, the assignment information, a first completion amount, a second completion amount, a third completion amount and a fourth completion amount as machining data, and transmitting the machining data to a reference calculation module.

Further, the detection and analysis module receives the environmental information for analysis, and respectively analyzes the processing factory environment, the accommodation environment and the diet environment in the environmental information;

the method comprises the steps of obtaining the number of processing workshops of workers, obtaining the environment of each processing workshop according to the number of workshops, and obtaining the accommodation environment and the diet environment of the workers in each workshop;

setting n plants, respectively assigning values to the first to n-th plant processing environments, wherein the assignment is specifically as follows:

shooting the working environment of each factory building, acquiring factory building pictures, selecting s evaluators to evaluate the factory building pictures, evaluating the factory building pictures based on the factory building pictures, acquiring evaluation values of a plurality of person evaluators during evaluation through values of 1 to 10, defining the acquired evaluation values as environment evaluation values, eliminating the maximum environment evaluation value and the minimum environment evaluation value, and calculating the average value of the residual environment evaluation values to obtain an environment evaluation average value;

Assigning values to the accommodation environments and the dietary environments of the first to nth plant workers respectively, photographing the accommodation environments and the dietary environments of each plant worker, obtaining accommodation environment and dietary environment pictures, selecting s evaluators to evaluate the accommodation environments and the dietary environments, obtaining accommodation evaluation values and dietary evaluation values, eliminating the maximum accommodation evaluation value, the maximum dietary evaluation value, the minimum accommodation evaluation value and the minimum dietary evaluation value, and calculating the average value of the rest accommodation evaluation values and the dietary evaluation values to obtain accommodation evaluation average value and dietary evaluation average value; the environmental evaluation average, the accommodation evaluation average, and the diet evaluation average are defined as environmental data, and the environmental data is transmitted to the reference calculation module.

Further, the reference calculation module receives an environment evaluation average value, an accommodation evaluation average value and a diet evaluation average value in the environment data, calculates a working environment reference value, and calculates working environment reference values of n workshops;

receiving age intervals, assignment information, first completion amounts, second completion amounts, third completion amounts and fourth completion amounts in the processing data according to the acquired working environment reference value reference calculation module;

Based on the age interval and assignment information, analysis and calculation are carried out, specifically as follows:

acquiring assignment of staff in a first age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the first age interval by combining the number of staff;

acquiring assignment of staff in a second age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the second age interval by combining the number of staff;

acquiring assignment of staff in a third age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the third age interval by combining the number of staff;

acquiring assignment of staff in a fourth age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the fourth age interval by combining the number of staff;

the reference calculation module receives the first completion amount, the second completion amount, the third completion amount and the fourth completion amount, adds and averages a plurality of first completion amounts to obtain a first completion average value, adds and averages a plurality of second completion amounts to obtain a second completion average value, adds and averages a plurality of third completion amounts to obtain a third completion average value, and adds and averages a plurality of fourth completion amounts to obtain a fourth completion average value;

And defining the working environment reference value, the first completion average value, the second completion average value, the third completion average value, the fourth completion average value and the completion reference values of the first to fourth intervals as evaluation data, and transmitting the evaluation values to a data evaluation module.

Further, when the data evaluation module receives a first factory building working environment reference value, the data evaluation module acquires a first completion average value, a second completion average value, a third completion average value and a fourth completion average value, compares the sizes of the first completion average value, the second completion average value, the third completion average value and the fourth completion average value to acquire a maximum completion average value, selects a corresponding processing time period according to the maximum completion average value, and judges that the processing time period is the best in working based on the processing time period;

acquiring a completion reference value of the first to fourth intervals;

acquiring a maximum completion reference value, acquiring a corresponding age interval according to the acquired maximum completion reference value, and judging that the best work completion effect is achieved when working in the age interval according to the acquired age interval;

the data evaluation module receives the working environment reference values of the second factory building to the nth factory building, acquires a first completion average value, a second completion average value, a third completion average value and a fourth completion average value respectively, and acquires a plurality of completion reference values of the first interval to the fourth interval respectively;

Observing the acquired working environment reference values in the first to nth workshops and the completion reference values of the first to fourth intervals, and judging the change of the working environment reference values and the completion reference values;

if the working environment reference value is larger, the completion reference value is larger, the working environment is judged to be better, and the completion efficiency of the staff is better; if the working environment reference value is smaller, the completion reference value is smaller, the environment is judged to be worse, and the completion efficiency of the staff is poorer;

if the completion reference value changes along with the fluctuation of the working environment reference value, acquiring the working environment reference value corresponding to the maximum completion reference value, and acquiring a corresponding processing factory building;

the data evaluation module acquires the rated completion amount of each time period through the server, compares the rated completion amount of the corresponding time period with the first completion average value, the second completion average value, the third completion average value and the fourth completion average value respectively, judges that the rated completion amount is in accordance with the completion standard if the rated completion amount is larger than the corresponding rated completion amount, and transmits the judgment result to the alarm module if the rated completion amount is smaller than the corresponding rated completion amount, and the alarm module gives an alarm to prompt the staff of the time period to carry out work improvement.

Further, the processing adjusting module receives the maximum completion reference value in the corresponding processing factory building, judges that the processing factory building environment, accommodation environment and diet environment in the processing factory building are suitable for working, and changes the processing environment of staff.

An alarm method for processing a low-power-consumption display based on the Internet of things comprises the following specific steps:

step S1: acquiring processing information and environment information in the processing process of the low-power-consumption display;

step S2: the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data;

step S3: transmitting the processing data and the environmental data to a reference calculation module, and receiving the processing data and the environmental data by the reference calculation module to obtain evaluation data;

step S4: the evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data;

step S5: and the evaluation result is transmitted to an alarm module or a processing adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing adjusting module receives the evaluation result to adjust the processing environment.

Further, in the step S2, the detection and analysis module receives and analyzes the processing information, and respectively analyzes the processing time information, the processing flow information, the processing video information and the processing personnel information in the processing information, and specifically includes the following steps:

step S21: based on the processing time value in one day, dividing the processing time value into a first processing time, a second processing time, a third processing time and a fourth processing time, acquiring the working completion amounts of the processing personnel in different processing time periods to obtain a first completion amount, a second completion amount, a third completion amount and a fourth completion amount, and acquiring the working completion amounts of the processing personnel in a plurality of processing time periods according to the processing time value in the T time period to obtain a plurality of first completion amounts, a plurality of second completion amounts, a plurality of third completion amounts and a plurality of fourth completion amounts;

step S22: acquiring the number of processing flows of the low-loss display based on the processing flow information, acquiring the processing personnel information of each processing flow according to the number of the processing flows, acquiring the processing video information of each processing flow, watching each processing flow by the processing personnel, acquiring the picture information in the completion state of each processing flow, acquiring the standard picture of the low-power display in each processing stage, comparing the picture information acquired based on the completion state with the standard picture, and assigning a value to the completion standard degree to obtain assignment information;

Step S23: acquiring a minimum age value and a maximum age value according to the age value of a processing person, setting an age interval in the minimum age value and the maximum age value, and respectively setting a first age interval, a second age interval, a third age interval and a fourth age interval; acquiring assignment information in an age interval, defining the age interval, the assignment information, the first completion amount, the second completion amount, the third completion amount and the fourth completion amount as processing data, and transmitting the processing data to a reference calculation module;

step S24: the method comprises the steps of obtaining the number of processing workshops of workers, obtaining the environment of each processing workshop according to the number of workshops, and obtaining the accommodation environment and the diet environment of the workers in each workshop;

shooting the working environment of each factory building, acquiring factory building pictures, selecting s evaluators to evaluate the factory building pictures, evaluating the factory building pictures based on the factory building pictures, acquiring evaluation values of a plurality of person evaluators, defining the acquired evaluation values as environment evaluation values, eliminating the maximum environment evaluation value and the minimum environment evaluation value, and calculating the average value of the residual environment evaluation values to obtain an environment evaluation average value;

Step S25: assigning values to the accommodation environments and the dietary environments of plant workers, photographing the accommodation environments and the dietary environments of each plant worker, obtaining accommodation environment and dietary environment pictures, selecting s evaluators to evaluate the accommodation environments and the dietary environments, obtaining accommodation evaluation values and dietary evaluation values, eliminating the maximum accommodation evaluation values, the maximum dietary evaluation values, the minimum accommodation evaluation values and the minimum dietary evaluation values, and obtaining the average value of the residual accommodation evaluation values and the dietary evaluation values to obtain accommodation evaluation average values and dietary evaluation average values; environmental, accommodation, and diet evaluation averages were defined as environmental data.

The invention has the beneficial effects that: according to the invention, the processing information and the environment information in the process of the low-loss display mechanism are acquired, so that the reason of influencing the processing efficiency of the display in the processing process can be analyzed according to the processing information and the environment information, the processing environment and the information of processing staff are regulated after the analysis is finished, and the price data which is not in accordance with the finished quantity is alarmed, so that the processing effect of the low-power consumption display screen is improved;

According to the invention, the ages of the workers are divided into a plurality of age groups, the completion reference values of the workers in the different age groups are obtained, the completion reference values are analyzed, and recruitment is performed according to the age groups obtained by the analysis when recruiting the workers.

Additional aspects of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic block diagram of an alarm device for processing a low-power-consumption display based on the Internet of things;

fig. 2 is a method step diagram of an alarm method for processing a low-power-consumption display based on the internet of things.

Description of the embodiments

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention.

Embodiments of the invention and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1 and 2, the invention provides an alarm device for processing a low-power-consumption display based on the internet of things, which comprises a monitoring module, a monitoring information analysis module, an alarm module, a data evaluation module, a processing adjustment module, a reference calculation module and a server; the monitoring module, the monitoring information analysis module, the alarm module, the data evaluation module, the processing adjustment module and the reference calculation module are respectively connected with the server in a data mode;

the monitoring module acquires processing information and environment information in the processing process of the low-power-consumption display;

the processing information comprises processing time information, processing flow information, processing video information and processing personnel information;

the environment information comprises a processing factory environment, an accommodation environment and a diet environment;

the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data;

The detection analysis module receives and analyzes the processing information, and respectively analyzes the processing time information, the processing flow information, the processing video information and the processing personnel information in the processing information;

the processing time information is analyzed as follows:

dividing the processing time in the morning into a first processing time period and a second processing time period based on the processing time value in the day, and dividing the processing time in the afternoon into a third processing time period and a fourth processing time period;

acquiring the work completion amounts of the processing staff in different processing time periods to obtain a first completion amount, a second completion amount, a third completion amount and a fourth completion amount;

acquiring working completion amounts of a processor in a plurality of processing time periods according to the processing time values in the T time periods, and acquiring a plurality of first completion amounts, a plurality of second completion amounts, a plurality of third completion amounts and a plurality of fourth completion amounts;

analyzing the processing flow information, the processing personnel information and the processing video information, wherein the processing flow information, the processing personnel information and the processing video information are as follows:

acquiring the number of processing flows for processing the low-loss display based on the processing flow information, and acquiring the information of processing staff of each processing flow according to the number of processing flows;

The processing personnel agree to acquire the information of the processing personnel, acquire the names and age values of the processing personnel, and acquire the names and age information of the processing personnel during working of each processing flow;

acquiring processing video information of each processing flow, watching each processing flow by a processing person, acquiring picture information in a finishing state in each processing flow, acquiring a standard picture of a low-power-consumption display at each processing stage, comparing the picture information acquired in the finishing state with the standard picture, assigning the finishing standard degree to obtain assignment information, and respectively assigning a1, a2, a3 and a4 according to the finishing standard degree;

wherein: a1 > a2 > a3 > a4;

acquiring a minimum age value and a maximum age value according to the age value of a processing person, setting an age interval in the minimum age value and the maximum age value, and respectively setting a first age interval, a second age interval, a third age interval and a fourth age interval;

acquiring assignment information in an age interval, defining the age interval, the assignment information, the first completion amount, the second completion amount, the third completion amount and the fourth completion amount as processing data, and transmitting the processing data to a reference calculation module;

The detection and analysis module receives the environmental information for analysis, and respectively analyzes the processing factory environment, the accommodation environment and the diet environment in the environmental information;

the method comprises the steps of obtaining the number of processing workshops of workers, obtaining the environment of each processing workshop according to the number of workshops, and obtaining the accommodation environment and the diet environment of the workers in each workshop;

setting n plants, respectively assigning values to the first to n-th plant processing environments, wherein the assignment is specifically as follows:

shooting the working environment of each factory building, acquiring factory building pictures, selecting s evaluators to evaluate the factory building pictures, evaluating the factory building pictures based on the factory building pictures, acquiring evaluation values of a plurality of person evaluators during evaluation through values of 1 to 10, defining the acquired evaluation values as environment evaluation values, eliminating the maximum environment evaluation value and the minimum environment evaluation value, and calculating the average value of the residual environment evaluation values to obtain an environment evaluation average value;

assigning values to the accommodation environments and the dietary environments of the first to nth plant workers respectively, photographing the accommodation environments and the dietary environments of each plant worker, obtaining accommodation environment and dietary environment pictures, selecting s evaluators to evaluate the accommodation environments and the dietary environments, obtaining accommodation evaluation values and dietary evaluation values, eliminating the maximum accommodation evaluation value, the maximum dietary evaluation value, the minimum accommodation evaluation value and the minimum dietary evaluation value, and calculating the average value of the rest accommodation evaluation values and the dietary evaluation values to obtain accommodation evaluation average value and dietary evaluation average value; defining an environmental evaluation average value, an accommodation evaluation average value, and a diet evaluation average value as environmental data;

Wherein: n and s are positive integers;

transmitting the processing data and the environmental data to a reference calculation module, and receiving the processing data and the environmental data by the reference calculation module to obtain evaluation data;

the reference calculation module receives an environment evaluation average value, an accommodation evaluation average value and a diet evaluation average value in the environment data to calculate a working environment reference value, and the working environment reference value is set as follows: GZHJCKZ; the average environmental evaluation value is: hjppjpjz; the accommodation evaluation average value is: ZSPJPJZ; the average diet evaluation value was: ysppjpjz; please refer to the following formula:

GZHJCKZ=HJPJPJZ×ZSPJPJZ×YSPJPJZ；

working environment reference values of n workshops are calculated;

receiving age intervals, assignment information, first completion amounts, second completion amounts, third completion amounts and fourth completion amounts in the processing data according to the acquired working environment reference value reference calculation module;

based on the age interval and assignment information, analysis and calculation are carried out, specifically as follows:

acquiring assignment of staff in a first age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the first age interval by combining the number of staff;

Acquiring assignment of staff in a second age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the second age interval by combining the number of staff;

acquiring assignment of staff in a third age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the third age interval by combining the number of staff;

acquiring assignment of staff in a fourth age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the fourth age interval by combining the number of staff;

the reference calculation module receives the first completion amount, the second completion amount, the third completion amount and the fourth completion amount, adds and averages a plurality of first completion amounts to obtain a first completion average value, adds and averages a plurality of second completion amounts to obtain a second completion average value, adds and averages a plurality of third completion amounts to obtain a third completion average value, and adds and averages a plurality of fourth completion amounts to obtain a fourth completion average value;

Defining a working environment reference value, a first completion average value, a second completion average value, a third completion average value, a fourth completion average value and completion reference values of the first to fourth intervals as evaluation data, and transmitting the evaluation values to a data evaluation module;

the evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data;

when the data evaluation module receives a first factory building working environment reference value, a first finishing average value, a second finishing average value, a third finishing average value and a fourth finishing average value are obtained, when the first finishing average value, the second finishing average value, the third finishing average value and the fourth finishing average value are obtained, the first finishing average value, the second finishing average value, the third finishing average value and the fourth finishing average value are compared, the maximum finishing average value is obtained, a corresponding processing time period is selected according to the maximum finishing average value, and when the processing time period is judged to work according to the processing time period, the working task finishing condition is the best;

acquiring a completion reference value of the first to fourth intervals;

acquiring a maximum completion reference value, acquiring a corresponding age interval according to the acquired maximum completion reference value, and judging that the best work completion effect is achieved when working in the age interval according to the acquired age interval;

The data evaluation module receives the working environment reference values of the second factory building to the nth factory building, acquires a first completion average value, a second completion average value, a third completion average value and a fourth completion average value respectively, and acquires a plurality of completion reference values of the first interval to the fourth interval respectively;

observing the acquired working environment reference values in the first to nth workshops and the completion reference values of the first to fourth intervals, and judging the change of the working environment reference values and the completion reference values;

if the working environment reference value is larger, the completion reference value is larger, the working environment is judged to be better, and the completion efficiency of the staff is better; if the working environment reference value is smaller, the completion reference value is smaller, the environment is judged to be worse, and the completion efficiency of the staff is poorer;

if the completion reference value changes along with the fluctuation of the working environment reference value, acquiring the working environment reference value corresponding to the maximum completion reference value, and acquiring a corresponding processing factory building;

the data evaluation module acquires the rated completion amount of each time period through the server, compares the rated completion amount of the corresponding time period with the first completion average value, the second completion average value, the third completion average value and the fourth completion average value respectively, judges that the rated completion amount is in accordance with the completion standard if the rated completion amount is larger than the corresponding rated completion amount, and transmits the judgment result to the alarm module if the rated completion amount is smaller than the corresponding rated completion amount, and the alarm module gives an alarm to prompt the staff of the time period to carry out work improvement.

And the evaluation result is transmitted to an alarm module or a processing adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing adjusting module receives the evaluation result to adjust the processing environment.

The processing adjusting module receives the largest completion reference value in the corresponding processing factory building, judges that the processing factory building environment, accommodation environment and diet environment in the processing factory building are suitable for working, and changes the processing environment of staff.

Working principle: an alarm method for processing a low-power-consumption display based on the Internet of things comprises the following specific steps:

step S1: acquiring processing information and environment information in the processing process of the low-power-consumption display;

step S2: the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data;

the detection and analysis module receives and analyzes the processing information, and respectively analyzes the processing time information, the processing flow information, the processing video information and the processing personnel information in the processing information, and specifically comprises the following steps:

step S21: based on the processing time value in one day, dividing the processing time value into a first processing time, a second processing time, a third processing time and a fourth processing time, acquiring the working completion amounts of the processing personnel in different processing time periods to obtain a first completion amount, a second completion amount, a third completion amount and a fourth completion amount, and acquiring the working completion amounts of the processing personnel in a plurality of processing time periods according to the processing time value in the T time period to obtain a plurality of first completion amounts, a plurality of second completion amounts, a plurality of third completion amounts and a plurality of fourth completion amounts;

Step S22: acquiring the number of processing flows of the low-loss display based on the processing flow information, acquiring the processing personnel information of each processing flow according to the number of the processing flows, acquiring the processing video information of each processing flow, watching each processing flow by the processing personnel, acquiring the picture information in the completion state of each processing flow, acquiring the standard picture of the low-power display in each processing stage, comparing the picture information acquired based on the completion state with the standard picture, and assigning a value to the completion standard degree to obtain assignment information;

step S23: acquiring a minimum age value and a maximum age value according to the age value of a processing person, setting an age interval in the minimum age value and the maximum age value, and respectively setting a first age interval, a second age interval, a third age interval and a fourth age interval; acquiring assignment information in an age interval, defining the age interval, the assignment information, the first completion amount, the second completion amount, the third completion amount and the fourth completion amount as processing data, and transmitting the processing data to a reference calculation module;

Step S24: the method comprises the steps of obtaining the number of processing workshops of workers, obtaining the environment of each processing workshop according to the number of workshops, and obtaining the accommodation environment and the diet environment of the workers in each workshop;

shooting the working environment of each factory building, acquiring factory building pictures, selecting s evaluators to evaluate the factory building pictures, evaluating the factory building pictures based on the factory building pictures, acquiring evaluation values of a plurality of person evaluators, defining the acquired evaluation values as environment evaluation values, eliminating the maximum environment evaluation value and the minimum environment evaluation value, and calculating the average value of the residual environment evaluation values to obtain an environment evaluation average value;

step S25: assigning values to the accommodation environments and the dietary environments of plant workers, photographing the accommodation environments and the dietary environments of each plant worker, obtaining accommodation environment and dietary environment pictures, selecting s evaluators to evaluate the accommodation environments and the dietary environments, obtaining accommodation evaluation values and dietary evaluation values, eliminating the maximum accommodation evaluation values, the maximum dietary evaluation values, the minimum accommodation evaluation values and the minimum dietary evaluation values, and obtaining the average value of the residual accommodation evaluation values and the dietary evaluation values to obtain accommodation evaluation average values and dietary evaluation average values; defining an environmental evaluation average value, an accommodation evaluation average value, and a diet evaluation average value as environmental data;

Step S3: transmitting the processing data and the environmental data to a reference calculation module, and receiving the processing data and the environmental data by the reference calculation module to obtain evaluation data;

step S4: the evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data;

step S5: and the evaluation result is transmitted to an alarm module or a processing adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing adjusting module receives the evaluation result to adjust the processing environment.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media having computer-usable program code embodied therein. The storage medium may be implemented by any type or combination of volatile or nonvolatile Memory devices, such as static random access Memory (Static Random Access Memory, SRAM), electrically erasable Programmable Read-Only Memory (Electrically Erasable Programmable Read-Only Memory, EEPROM), erasable Programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), programmable Read-Only Memory (PROM), read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk.

The above examples are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, but it should be understood by those skilled in the art that the present invention is not limited thereto, and that the present invention is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The alarm device for processing the low-power-consumption display based on the Internet of things is characterized by comprising a monitoring module, a monitoring information analysis module, an alarm module, a data evaluation module, a processing adjustment module, a reference calculation module and a server; the monitoring module, the monitoring information analysis module, the alarm module, the data evaluation module, the processing adjustment module and the reference calculation module are respectively connected with the server in a data mode;

The monitoring module acquires processing information and environment information in the processing process of the low-power-consumption display; the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data; transmitting the processing data and the environmental data to a reference calculation module, wherein the reference calculation module receives the processing data and the environmental data to calculate so as to obtain evaluation data;

the evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data; the evaluation result is transmitted to an alarm module or a processing and adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing and adjusting module receives the evaluation result to adjust the processing environment;

the detection and analysis module receives the environmental information for analysis, and respectively analyzes the processing factory environment, the accommodation environment and the diet environment in the environmental information;

the method comprises the steps of obtaining the number of processing workshops of workers, obtaining the environment of each processing workshop according to the number of workshops, and obtaining the accommodation environment and the diet environment of the workers in each workshop;

Setting n plants, respectively assigning values to the first to n-th plant processing environments, wherein the assignment is specifically as follows:

shooting the working environment of each factory building, acquiring factory building pictures, selecting s evaluators to evaluate the factory building pictures, evaluating the factory building pictures based on the factory building pictures, acquiring evaluation values of a plurality of person evaluators during evaluation through values of 1 to 10, defining the acquired evaluation values as environment evaluation values, eliminating the maximum environment evaluation value and the minimum environment evaluation value, and calculating the average value of the residual environment evaluation values to obtain an environment evaluation average value;

assigning values to the accommodation environments and the dietary environments of the first to nth plant workers respectively, photographing the accommodation environments and the dietary environments of each plant worker, obtaining accommodation environment and dietary environment pictures, selecting s evaluators to evaluate the accommodation environments and the dietary environments, obtaining accommodation evaluation values and dietary evaluation values, eliminating the maximum accommodation evaluation value, the maximum dietary evaluation value, the minimum accommodation evaluation value and the minimum dietary evaluation value, and calculating the average value of the rest accommodation evaluation values and the dietary evaluation values to obtain accommodation evaluation average value and dietary evaluation average value; defining an environmental evaluation average value, an accommodation evaluation average value and a diet evaluation average value as environmental data, and transmitting the environmental data to a reference calculation module;

The reference calculation module receives an environment evaluation average value, an accommodation evaluation average value and a diet evaluation average value in the environment data, calculates a working environment reference value, and calculates working environment reference values of n workshops;

receiving age intervals, assignment information, first completion amounts, second completion amounts, third completion amounts and fourth completion amounts in the processing data according to the acquired working environment reference value reference calculation module;

based on the age interval and assignment information, analysis and calculation are carried out, specifically as follows:

acquiring assignment of staff in a first age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the first age interval by combining the number of staff;

acquiring assignment of staff in a second age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the second age interval by combining the number of staff;

acquiring assignment of staff in a third age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the third age interval by combining the number of staff;

Acquiring assignment of staff in a fourth age interval, counting the number of staff in the interval, summing the acquired assignment, acquiring a summation value, and acquiring a completion reference value of the fourth age interval by combining the number of staff;

the reference calculation module receives the first completion amount, the second completion amount, the third completion amount and the fourth completion amount, adds and averages a plurality of first completion amounts to obtain a first completion average value, adds and averages a plurality of second completion amounts to obtain a second completion average value, adds and averages a plurality of third completion amounts to obtain a third completion average value, and adds and averages a plurality of fourth completion amounts to obtain a fourth completion average value;

defining a working environment reference value, a first completion average value, a second completion average value, a third completion average value, a fourth completion average value and completion reference values of the first to fourth intervals as evaluation data, and transmitting the evaluation values to a data evaluation module;

the alarm method of the alarm equipment is also included, and the alarm method comprises the following specific steps:

step S1: acquiring processing information and environment information in the processing process of the low-power-consumption display;

step S2: the processing information and the environmental information are transmitted to a detection and analysis module, and the detection and analysis module analyzes the processing information and the environmental information to obtain processing data and environmental data;

Step S3: transmitting the processing data and the environmental data to a reference calculation module, and receiving the processing data and the environmental data by the reference calculation module to obtain evaluation data;

step S4: the evaluation data are transmitted to a data evaluation module, and the data evaluation module evaluates the obtained evaluation data;

step S5: and the evaluation result is transmitted to an alarm module or a processing adjusting module, the alarm module receives the evaluation result and gives an alarm, and the processing adjusting module receives the evaluation result to adjust the processing environment.

2. The alarm device for processing the low-power-consumption display based on the internet of things according to claim 1, wherein the detection and analysis module receives and analyzes processing information, and respectively analyzes processing time information, processing flow information, processing video information and processing personnel information in the processing information;

the processing time information is analyzed as follows:

dividing the processing time in the morning into a first processing time period and a second processing time period based on the processing time value in the day, and dividing the processing time in the afternoon into a third processing time period and a fourth processing time period;

acquiring the work completion amounts of the processing staff in different processing time periods to obtain a first completion amount, a second completion amount, a third completion amount and a fourth completion amount;

And acquiring the work completion amounts of the processing personnel in a plurality of processing time periods according to the processing time values in the T time periods, and acquiring a plurality of first completion amounts, a plurality of second completion amounts, a plurality of third completion amounts and a plurality of fourth completion amounts.

3. The alarm device for processing a low-power consumption display based on the internet of things according to claim 2, wherein the analysis of the processing flow information, the processing personnel information and the processing video information is specifically as follows:

acquiring the number of processing flows for processing the low-loss display based on the processing flow information, and acquiring the information of processing staff of each processing flow according to the number of processing flows;

the processing personnel agree to acquire the information of the processing personnel, acquire the names and age values of the processing personnel, and acquire the names and age information of the processing personnel during working of each processing flow;

acquiring processing video information of each processing flow, watching each processing flow by a processing person, acquiring picture information in a completion state in each processing flow, acquiring a standard picture of a low-power-consumption display at each processing stage, comparing the picture information acquired in the completion state with the standard picture, assigning a completion standard degree to obtain assignment information,

Acquiring a minimum age value and a maximum age value according to the age value of a processing person, setting an age interval in the minimum age value and the maximum age value, and respectively setting a first age interval, a second age interval, a third age interval and a fourth age interval;

the method comprises the steps of acquiring assignment information in an age interval, defining the age interval, the assignment information, a first completion amount, a second completion amount, a third completion amount and a fourth completion amount as machining data, and transmitting the machining data to a reference calculation module.

4. The alarm device for processing the low-power-consumption display based on the internet of things according to claim 1, wherein when the data evaluation module receives the first factory building working environment reference value, the first completion average value, the second completion average value, the third completion average value and the fourth completion average value are obtained, when the first completion average value, the second completion average value, the third completion average value and the fourth completion average value are obtained, the maximum completion average value is obtained by comparing the sizes of the first completion average value, the second completion average value, the third completion average value and the fourth completion average value, a corresponding processing time period is selected according to the maximum completion average value, and when the processing time period is judged to work according to the processing time period, the working task completion condition is the best;

Acquiring a completion reference value of the first to fourth intervals;

acquiring a maximum completion reference value, acquiring a corresponding age interval according to the acquired maximum completion reference value, and judging that the best work completion effect is achieved when working in the age interval according to the acquired age interval;

the data evaluation module receives the working environment reference values of the second factory building to the nth factory building, acquires a first completion average value, a second completion average value, a third completion average value and a fourth completion average value respectively, and acquires a plurality of completion reference values of the first interval to the fourth interval respectively;

observing the acquired working environment reference values in the first to nth workshops and the completion reference values of the first to fourth intervals, and judging the change of the working environment reference values and the completion reference values;

if the working environment reference value is larger, the completion reference value is larger, the working environment is judged to be better, and the completion efficiency of the staff is better; if the working environment reference value is smaller, the completion reference value is smaller, the environment is judged to be worse, and the completion efficiency of the staff is poorer;

if the completion reference value changes along with the fluctuation of the working environment reference value, acquiring the working environment reference value corresponding to the maximum completion reference value, and acquiring a corresponding processing factory building;

The data evaluation module acquires the rated completion amount of each time period through the server, compares the rated completion amount of the corresponding time period with the first completion average value, the second completion average value, the third completion average value and the fourth completion average value respectively, judges that the rated completion amount is in accordance with the completion standard if the rated completion amount is larger than the corresponding rated completion amount, and transmits the judgment result to the alarm module if the rated completion amount is smaller than the corresponding rated completion amount, and the alarm module gives an alarm to prompt the staff of the time period to carry out work improvement.

5. The alarm device for processing a low-power-consumption display based on the internet of things according to claim 1, wherein the processing adjustment module receives a maximum completion reference value in a corresponding processing factory, determines that the processing factory environment, accommodation environment and diet environment in the processing factory are suitable for working, and changes the processing environment of staff.