CN115805754A - Printing machine intelligent remote control method and system based on Internet - Google Patents

Abstract

The invention discloses an intelligent remote control method and system of a printing machine based on the Internet, which belong to the field of printing machines and are used for solving the problems that a traditional printing machine does not select a matched printing machine according to a file printing requirement and a printing task needs to be manually paused or terminated when the printing machine is abnormal in work.

Description

Printing machine intelligent remote control method and system based on Internet

Technical Field

The invention belongs to the field of printing machines, relates to a remote control technology, and particularly relates to an intelligent remote control method and system for a printing machine based on the Internet.

Background

A printer is a machine that prints text and images. Modern printing presses generally consist of mechanisms for plating, inking, stamping, feeding (including folding) and the like. The working principle is as follows: the characters and images to be printed are made into printing plate, then it is mounted on the printing machine, then the ink is coated on the position where the characters and images are placed on the printing plate by hand or printing machine, then it is directly or indirectly transferred onto paper or other printing material (such as textile, metal plate, plastics, leather, wood plate, glass and ceramic) so as to reproduce the same printed matter as that of printing plate. The invention and the development of the printing machine play an important role in the propagation of human civilization and culture.

When a traditional printing machine is used, an operator usually randomly uses a certain machine to print a file, the printer which is adaptive is not selected according to the file printing requirement, meanwhile, when the printing machine works abnormally, the printing task needs to be manually paused or stopped, and the printing task cannot be controlled and switched at the first time.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent remote control method and system of a printer based on the Internet.

The technical problem to be solved by the invention is as follows:

how to match the printer with the adaptive performance according to the file printing requirement and carry out intelligent control switching when the printer is abnormal.

The purpose of the invention can be realized by the following technical scheme:

the intelligent remote control system of the printing machine based on the Internet comprises a plurality of printing machines and processors arranged in the printing machines, wherein the processors are connected with a data acquisition module and a server, the server is connected with an equipment analysis module, a printing matching module, a printing analysis module, a user terminal, a remote control module and an environment analysis module, the user terminal is used for inputting a file to be printed and printing parameters and transmitting the file to be printed and the printing parameters to the server, and the server sends the file with the printing and the printing parameters to the printing analysis module;

the data acquisition module is used for acquiring equipment data of the printing machine and sending the equipment data to the server, and the server sends the equipment data to the equipment analysis module; the equipment analysis module is used for carrying out equipment analysis on a plurality of printing machines to obtain equipment performance values of the printing machines and feeding the equipment performance values back to the server, and the server sends the equipment performance values of the printing machines to the printing matching module;

the printing analysis module is used for analyzing a file to be printed input by the user terminal to obtain a printing requirement value of the file to be printed and feeding the printing requirement value back to the server, and the server sends the printing requirement value of the file to be printed to the printing matching module;

the printing matching module is used for performing printing matching on the file to be printed and the printing machines to obtain the feedback of the printing machines to be matched to the server, the server sends the printing machines to be matched to the user terminal, a user at the user terminal selects a printing machine from the printing machines to be matched, and the selected printing machine prints the file to be printed;

when the selected printing machine works, the data acquisition module is used for acquiring operation data of the printing machine and sending the operation data to the server, and the server sends the operation data to the environment analysis module; the environment analysis module is used for analyzing the operating environment of the printing machine and generating an operating environment normal signal or an operating environment inspection signal.

Further, the printing parameters are the number of printing copies and the printing size of the file to be printed;

the equipment data comprises the delivery time and the failure times of the printing machine, the failure time and the maintenance times of each failure and the daily operation duration of the previous month;

the operation data are real-time temperature value, real-time conductivity value, real-time PH value and real-time concentration value of the water tank liquid of the printing machine.

Further, the device analysis process of the device analysis module is specifically as follows:

obtaining the delivery time of the printing machine and the current time of the server, and subtracting the delivery time from the current time to obtain the delivery time length of the printing machine;

then obtaining the failure times of the printing machine and the failure time of each failure, calculating the time difference of adjacent failure times, adding the time differences of a plurality of groups of adjacent failure times, and taking the average value to obtain the failure interval duration of the printing machine;

acquiring the maintenance times of the printing machine and the daily operation duration of the printing machine in the previous month, and adding and averaging the daily operation durations in the previous month to obtain the daily operation duration of the printing machine;

equipment performance values for the printing press are calculated.

Further, the analysis process of the printing analysis module is specifically as follows:

acquiring the number of printing copies and the printing size of a file to be printed;

and calculating the printing requirement value of the file to be printed.

Further, the working process of the printing matching module is as follows:

acquiring a printing requirement value of a file to be printed and an equipment performance value of a printing machine;

then, acquiring a printing requirement value interval stored in the server and an equipment performance value interval corresponding to the printing requirement value interval;

and obtaining a corresponding equipment performance value interval according to the printing requirement value of the file to be printed, obtaining the printing machine with the equipment performance value in the corresponding equipment performance value interval, and marking the printing machine with the equipment performance value in the corresponding equipment performance value interval as the printing machine to be matched.

Further, standard operation data of the printing machine stored in the server are obtained, wherein the standard operation data comprise a water tank temperature value standard range, a conductivity value standard range, a pH value standard range and a water tank liquid concentration value standard range;

acquiring a real-time temperature value of a water tank of a printing machine, a real-time concentration value of water tank liquid, and a real-time conductivity and a real-time PH value of printing water in the printing machine;

comparing the real-time temperature value of the water tank of the printing machine with the standard range of the temperature value of the water tank of the printing machine, if the real-time temperature value of the water tank is in the standard range of the temperature value of the water tank, not performing any operation, and if the real-time temperature value of the water tank is not in the standard range of the temperature value of the water tank, calculating to obtain the temperature deviation value of the water tank of the printing machine;

similarly, calculating to obtain a conductivity deviation value, a pH deviation value and a water tank liquid concentration deviation value of the printing machine;

calculating an operating environment deviation value of the printing machine;

and comparing the running environment deviation value with a running environment deviation threshold value to generate a running environment normal signal or a running environment check signal.

Further, the environment analysis module feeds back a running environment normal signal or a running environment check signal to the server;

if the server receives a normal signal of the operating environment, no operation is performed;

and if the server receives the operation environment check signal, the server informs a worker to check the corresponding printer and forwards the operation environment check signal to the user terminal, the user terminal is used for remotely terminating the printing task of the file to be printed after receiving the operation environment check signal, and after the termination, a user at the user terminal reselects the printer and continuously prints the file to be printed through the remote control module.

The intelligent remote control method of the printer based on the Internet specifically comprises the following steps:

step S101, a user terminal inputs a file to be printed and printing parameters and sends the file to a printing analysis module, and a data acquisition module acquires equipment data of a printing machine and sends the equipment data to an equipment analysis module;

step S102, the equipment analysis module performs equipment analysis on a plurality of printing machines to obtain equipment performance values of the printing machines and sends the equipment performance values to the printing matching module;

step S103, analyzing the file to be printed input by the user terminal by using a printing analysis module to obtain a printing requirement value of the file to be printed, and sending the printing requirement value to a printing matching module;

step S104, the printing matching module performs printing matching on the file to be printed and the printing machine to obtain a printing machine to be matched and sends the printing machine to the user terminal, and the user terminal selects the printing machine to print the file to be printed;

and S105, when the printing machine works, the data acquisition module acquires the operation data of the printing machine and sends the operation data to the environment analysis module, the environment analysis module analyzes the operation environment of the printing machine to generate an operation environment normal signal or an operation environment check signal, and if the operation environment check signal is generated, the remote control module terminates the printing machine in the printing task and switches the printing machine to print.

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

the equipment analysis module is used for carrying out equipment analysis on a plurality of printing machines to obtain equipment performance values of the printing machines and sending the equipment performance values to the printing matching module, then files to be printed and printing parameters are input through the user terminal and sent to the printing analysis module, the files to be printed input by the user terminal are analyzed through the printing analysis module to obtain printing requirement values of the files to be printed and sent to the printing matching module, the printing matching module is used for carrying out printing matching on the files to be printed and the printing machines to be matched, the printing machines to be matched are obtained and sent to the user terminal, and the printing machines are selected by the user terminal to print the files to be printed;

meanwhile, when the printing machine works, the environment analysis module analyzes the running environment of the printing machine to generate a normal running environment signal or a running environment check signal, and if the running environment check signal is generated, the remote control module terminates the printing machine in the printing task and switches the printing machine to print.

Drawings

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

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

fig. 2 is a flow chart of the present invention.

Detailed description of the preferred embodiments

The technical solutions of the present invention will be described below clearly and completely in conjunction with the embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In an embodiment, please refer to fig. 1, the internet-based intelligent remote control system for a printing machine includes a plurality of printing machines u and processors disposed inside the printing machines, wherein u =1,2, \ 8230 \ 8230;, z and z are positive integers, the processors are connected with a data acquisition module and a server, and the server is connected with an equipment analysis module, a printing matching module, a printing analysis module, a user terminal, a remote control module and an environment analysis module;

in the embodiment of the invention, the user terminal is used for registering a login system after a user inputs personal information, and sending the personal information to the server for storage, wherein the personal information comprises a real name of the user and a mobile phone number authenticated by the real name;

the user terminal is used for inputting a file to be printed and printing parameters, transmitting the file to be printed and the printing parameters to the server, and the server sends the file with the print and the printing parameters to the print analysis module;

the data acquisition module is used for acquiring equipment data of the printing machine and sending the equipment data to the server, and the server sends the equipment data to the equipment analysis module; in actual use, the data acquisition module is set with acquisition equipment such as a sensor assembly on the printing machine, and the equipment data can be acquired through an industrial introduction label or a use specification on the printing machine;

specifically, the default printers are purchased in the same type and in the same batch, and the printing parameters are the number of printing copies and the printing size of the file to be printed; the equipment data comprise the delivery time and the failure times of the printing machine, the failure time and the maintenance times of each failure, the daily operation duration of the previous month and the like;

the equipment analysis module is used for carrying out equipment analysis on the plurality of printing machines, and the equipment analysis process specifically comprises the following steps:

step S100: obtaining the factory time of the printing machine and the current time of the server, and subtracting the factory time from the current time to obtain the factory time length CTu of the printing machine;

step S200: acquiring the failure times of the printing machine and the failure time of each failure, calculating the time difference value of adjacent failure time, and adding and averaging the time difference values of a plurality of groups of adjacent failure time to obtain the failure interval time GJTu of the printing machine;

step S300: acquiring the maintenance times of the printing machine, and marking the maintenance times as BCu; meanwhile, the daily operation time of the printing machine in the previous month is obtained, and the daily operation time of the printing machine in the previous month is added and averaged to obtain the daily operation time RYU of the printing machine;

step S400: calculating an equipment performance value SXu of the printing press by a formula SXu = (GJTu × a1+ BCu × a 2)/(CTu × a3+ RYu × a 4); in the formula, a1, a2, a3 and a4 are proportionality coefficients with fixed numerical values, and the values of a1, a2, a3 and a4 are all larger than zero;

the equipment analysis module feeds back an equipment performance value Sxu of the printing machine to the server, and the server sends the equipment performance value Sxu of the printing machine to the printing matching module;

the printing analysis module is used for analyzing the file to be printed input by the user terminal, and the analysis process is as follows:

marking a file to be printed as i, i =1,2, \8230;, x and x are positive integers;

acquiring the number of printing copies and the printing size of a file to be printed, and respectively marking the number of printing copies and the printing size as YFi and CCi; the printing size is obtained by multiplying the length and the width of a file to be printed;

calculating to obtain a printing requirement value YYi of the file to be printed by using a formula YYi = YYi multiplied by b1+ CCi multiplied by b 2; in the formula, b1 and b2 are both weight coefficients with fixed values, and the values of b1 and b2 are both larger than zero;

the printing analysis module feeds back a printing requirement value YYi of a file to be printed to the server, and the server sends the printing requirement value YYi of the file to be printed to the printing matching module;

the printing matching module is used for matching the file to be printed with the printing machine in a printing mode, and the working process is as follows:

step S10: obtaining the printing requirement value YYi of the file to be printed and the equipment performance value Sxu of the printing machine obtained by the calculation;

step S20: acquiring a printing requirement value interval stored in a server and an equipment performance value interval corresponding to the printing requirement value interval;

step S30: obtaining a corresponding equipment performance value interval according to the printing requirement value of the file to be printed, obtaining a printing machine with an equipment performance value in the corresponding equipment performance value interval, and marking the printing machine with the equipment performance value in the corresponding equipment performance value interval as a printing machine to be matched;

the printing matching module feeds back the printers to be matched to the server, the server sends the printers to be matched to the user terminal, a user at the user terminal selects a printer from the printers to be matched, and the selected printer is used for printing a file to be printed;

in step S20, the printing requirement value section may be [0, 20), (20, 40], (40, 60], \8230 [ \ 8230 ], (n, ∞ ], (n is a positive integer), and the device performance value section may be [10, 30), (30, 50], (50, 70], \8230 ], (m, ∞ ], (m, m is a positive integer), where the printing requirement value section [0, 20 ] corresponds to the device performance value section [10, 30 ], the printing requirement value section (20, 40] corresponds to the device performance value section (30, 50], and so on, and the printing requirement value section (n, ∞ ] corresponds to the device performance value section (m, ∞ ];

in the embodiment of the invention, when the selected printing machine works, the data acquisition module is used for acquiring the operation data of the printing machine and sending the operation data to the server, and the server sends the operation data to the environment analysis module;

specifically, the operation data includes a real-time temperature value, a real-time conductivity value, a real-time PH value, a real-time concentration value of a water tank liquid and the like of the printing machine;

the environment analysis module is used for analyzing the operating environment of the printing machine, and the analysis process specifically comprises the following steps:

step S1: acquiring standard operation data of the printing machine stored in a server, wherein the standard operation data comprises a standard range of a water tank temperature value, a standard range of a conductivity value, a standard range of a PH value and a standard range of a water tank liquid concentration value;

step S2: acquiring a real-time temperature value of a water tank of the printing machine, and marking the real-time temperature value of the water tank as SSWu; acquiring a real-time conductivity value of printing water in a printing machine, and marking the real-time conductivity value as SDDu;

and step S3: acquiring a real-time PH value of printing water in a printing machine, and marking the real-time PH value as SSJu; acquiring a real-time concentration value of a water tank liquid of the printing machine, and marking the real-time concentration value of the water tank liquid as SSNu;

and step S4: comparing the real-time temperature value of the water tank of the printing machine with the standard range of the temperature value of the water tank of the printing machine;

if the real-time temperature value of the water tank is within the standard range of the temperature value of the water tank, no operation is carried out;

if the real-time temperature value of the water tank is not in the standard range of the temperature value of the water tank, calculating to obtain a water tank temperature deviation value SWCu of the printing machine; similarly, calculating to obtain a conductivity deviation value DDCu, a PH deviation value PHCu and a water tank liquid concentration deviation value SNCu of the printing machine;

in step S4, a calculation process of the temperature deviation value of the water tank is illustrated, which specifically includes the following steps:

if the standard range of the water tank temperature value is [ X1, X2], X1 is less than X2, X1 and X2 are positive integers with fixed values, the real-time water tank temperature value SSWu is not in the standard range of the water tank temperature value, if SSWu is less than X1, the water tank temperature deviation value SWCu of the printing machine is obtained by calculation by using a formula SWCu = | X1-SSWu | if SSWu |, if SSWu is greater than X2, the water tank temperature deviation value SWCu of the printing machine is obtained by calculation by using a formula SWCu = | SSWu-X2 |, and the conductivity deviation value DDCu, the pH deviation value PHCu and the water tank liquid concentration deviation value SNCu are obtained by calculation according to the processes;

step S5: calculating an operating environment deviation value YHPu of the printing machine according to a formula YHPu = SWCu × c1+ DDCu × c2+ PHCu × c3+ SNCu × c 4; in the formula, c1, c2, c3 and c4 are all weight coefficients with fixed numerical values, and the values of c1, c2, c3 and c4 are all larger than zero;

step S6: if YHPu is less than Y1, generating a normal operating environment signal;

if Y1 is less than or equal to YHPu, generating an operation environment check signal; wherein Y1 is a running environment deviation threshold of a fixed value;

the environment analysis module feeds back a normal operating environment signal or an operating environment inspection signal to the server;

if the server receives a normal signal of the operating environment, no operation is performed;

if the server receives the operating environment inspection signal, then inform the staff to check corresponding printing machine and forward the operating environment inspection signal to user terminal, user terminal receives behind the operating environment inspection signal and is used for treating the printing task of printing the file and carries out remote termination, and remote termination instruction sends the server, the server loads remote termination instruction to remote control module, remote control module is used for terminating the printing machine that will be in the printing and treat the printing file, after the termination, user of user terminal department can reselect the printing machine and will treat that the printing file continues to print through remote control module.

In another embodiment, referring to fig. 2, an internet-based intelligent remote control method for a printing machine includes the following steps:

step S101, a user terminal inputs a file to be printed and printing parameters, and transmits the file to be printed and the printing parameters to a server, the server sends the file with the printing and the printing parameters to a printing analysis module, a data acquisition module acquires equipment data of a printing machine and sends the equipment data to the server, and the server sends the equipment data to the equipment analysis module;

step S102, performing equipment analysis on a plurality of printing machines through an equipment analysis module to obtain the delivery time of the printing machines and the current time of a server, subtracting the delivery time from the current time to obtain the delivery time CTu of the printing machines, then obtaining the failure times of the printing machines and the failure time of each failure, calculating the time difference of adjacent failure times, adding and averaging the time differences of a plurality of groups of adjacent failure times to obtain the failure interval time GJTu of the printing machines, finally obtaining the maintenance times BCu of the printing machines, obtaining the daily operation time of the previous month of the printing machines, adding and averaging the daily operation time of the previous month to obtain the daily operation time RYu of the printing machines, calculating the equipment performance value Sxu of the printing machines through a formula = (GJTu × a1+ BCu × a 2)/(CTu × a3+ RYu × a 4), feeding back the equipment performance value Sxu of the printing machines to the server by the equipment analysis module, and sending the equipment performance value Sxu of the printing machines to a printing matching module by the server;

step S103, analyzing a to-be-printed file input by a user terminal by using a printing analysis module to obtain the printing number Yfi and the printing size CCi of the to-be-printed file, calculating to obtain a printing requirement value YYi of the to-be-printed file by using a formula YYi = YYi x b1+ CCi x b2, feeding back the printing requirement value YYi of the to-be-printed file to a server by using the printing analysis module, and sending the printing requirement value YYi of the to-be-printed file to a printing matching module by the server;

step S104, a printing matching module performs printing matching on a file to be printed and a printing machine to obtain a printing requirement value YYi of the file to be printed and an equipment performance value Sxu of the printing machine, then obtains a printing requirement value interval stored in a server and an equipment performance value interval corresponding to the printing requirement value interval, obtains a corresponding equipment performance value interval according to the printing requirement value of the file to be printed, finally obtains the printing machine with the equipment performance value in the corresponding equipment performance value interval, marks the printing machine with the equipment performance value in the corresponding equipment performance value interval as the printing machine to be matched, feeds the printing machine to be matched back to the server by the printing matching module, sends the printing machine to be matched to a user terminal by the server, and users at the user terminal select a printing machine from the printing machines to be matched, wherein the selected printing machine is used for printing the file to be printed;

step S105, when the selected printing machine works, the data acquisition module acquires the operation data of the printing machine and sends the operation data to the server, the server sends the operation data to the environment analysis module, the operation environment of the printing machine is analyzed through the environment analysis module, the standard operation data of the printing machine stored in the server is firstly acquired, then the real-time water tank temperature value SSWu, the real-time conductivity value SDDu, the real-time PH value SSJu and the real-time water tank concentration value SSNu of the printing machine are acquired, the real-time water tank temperature value of the printing machine is compared with the standard water tank temperature value range of the printing machine, if the real-time water tank temperature value is in the standard water tank temperature value range, no operation is carried out, if the real-time water tank temperature value is not in the standard water tank temperature value range, the water tank temperature deviation value SWCu of the printing machine is calculated, and the same principle is obtained, calculating to obtain a conductivity deviation value DDCu, a PH deviation value PHCu and a water tank liquid concentration deviation value SNCu of the printer, calculating to obtain an operating environment deviation value YHPu of the printer through a formula YHPu = SWCu x c1+ DDCu x c2+ PHCu x c3+ SNCu x c4, generating an operating environment normal signal if YHPu < Y1, generating an operating environment check signal if Y1 is not more than YHPu, feeding back the operating environment normal signal or the operating environment check signal to a server by an environment analysis module, not performing any operation if the server receives the operating environment normal signal, notifying a worker to check the corresponding printer and forward the operating environment check signal to a user terminal if the server receives the operating environment check signal, remotely terminating a printing task of a file to be printed after the user terminal receives the operating environment check signal, transmitting a remote termination instruction to the server, and loading the remote termination instruction to a remote control module by the server, the remote control module terminates the printer in the print job, and after termination, the user at the user terminal reselects the printer and continues printing the document to be printed through the remote control module.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula of the latest real situation obtained by collecting a large amount of data and performing software simulation, the preset parameters in the formula are set by the technical personnel in the field according to the actual situation, the weight coefficient and the scale coefficient are specific numerical values obtained by quantizing each parameter, and the subsequent comparison is convenient.

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

Claims (8)

1. The intelligent remote control system of the printing machine based on the Internet is characterized by comprising a plurality of printing machines and processors arranged in the plurality of printing machines, wherein the processors are connected with a data acquisition module and a server, the server is connected with an equipment analysis module, a printing matching module, a printing analysis module, a user terminal, a remote control module and an environment analysis module, the user terminal is used for inputting a file to be printed and printing parameters and transmitting the file to be printed and the printing parameters to the server, and the server sends the file with the printing and the printing parameters to the printing analysis module;

the data acquisition module is used for acquiring equipment data of the printing machine and sending the equipment data to the server, and the server sends the equipment data to the equipment analysis module; the equipment analysis module is used for carrying out equipment analysis on a plurality of printing machines to obtain equipment performance values of the printing machines and feeding the equipment performance values back to the server, and the server sends the equipment performance values of the printing machines to the printing matching module;

the printing analysis module is used for analyzing a file to be printed input by the user terminal to obtain a printing requirement value of the file to be printed and feeding the printing requirement value back to the server, and the server sends the printing requirement value of the file to be printed to the printing matching module;

the printing matching module is used for performing printing matching on the file to be printed and the printing machines to obtain the feedback of the printing machines to be matched to the server, the server sends the printing machines to be matched to the user terminal, a user at the user terminal selects a printing machine from the printing machines to be matched, and the selected printing machine prints the file to be printed;

when the selected printing machine works, the data acquisition module is used for acquiring operation data of the printing machine and sending the operation data to the server, and the server sends the operation data to the environment analysis module; the environment analysis module is used for analyzing the operating environment of the printing machine and generating an operating environment normal signal or an operating environment inspection signal.

2. The intelligent remote control system of internet-based printer according to claim 1, wherein the printing parameters are the number of copies to be printed and the printing size of the document to be printed;

the equipment data comprises the delivery time and the failure times of the printing machine, the failure time and the maintenance times of each failure and the daily operation duration of the previous month;

the operation data are real-time temperature value, real-time conductivity value, real-time PH value and real-time concentration value of the water tank liquid of the printing machine.

3. The intelligent remote control system for printing machines based on the internet as claimed in claim 1, wherein the device analysis process of the device analysis module is as follows:

obtaining the factory time of the printing machine and the current time of the server, and subtracting the factory time from the current time to obtain the factory time length of the printing machine;

then obtaining the failure times of the printing machine and the failure time of each failure, calculating the time difference of adjacent failure times, adding the time differences of a plurality of groups of adjacent failure times, and taking the average value to obtain the failure interval duration of the printing machine;

acquiring the maintenance times of the printing machine and the daily operation duration of the printing machine in the previous month, and adding and averaging the daily operation durations in the previous month to obtain the daily operation duration of the printing machine;

equipment performance values for the printing press are calculated.

4. The intelligent internet-based remote control system for printing presses of claim 1, wherein the analysis process of the print analysis module is specifically as follows:

acquiring the printing number and the printing size of a file to be printed;

and calculating the printing requirement value of the file to be printed.

5. The intelligent remote control system for the internet-based printing machine according to claim 1, wherein the working process of the printing matching module is as follows:

acquiring a printing requirement value of a file to be printed and an equipment performance value of a printing machine;

then, acquiring a printing requirement value interval stored in the server and an equipment performance value interval corresponding to the printing requirement value interval;

and obtaining a corresponding equipment performance value interval according to the printing requirement value of the file to be printed, obtaining the printing machine with the equipment performance value in the corresponding equipment performance value interval, and marking the printing machine with the equipment performance value in the corresponding equipment performance value interval as the printing machine to be matched.

6. The intelligent remote control system of the printer based on the internet as claimed in claim 1, wherein standard operation data of the printer stored in the server are obtained, the standard operation data include a standard range of a temperature value of the water tank, a standard range of a conductivity value, a standard range of a PH value, and a standard range of a concentration value of a liquid of the water tank;

acquiring a real-time temperature value and a real-time concentration value of a water tank liquid of a printing machine, and a real-time conductivity and a real-time pH value of printing water in the printing machine;

comparing the real-time temperature value of the water tank of the printing machine with the standard range of the temperature value of the water tank of the printing machine, if the real-time temperature value of the water tank is in the standard range of the temperature value of the water tank, not performing any operation, and if the real-time temperature value of the water tank is not in the standard range of the temperature value of the water tank, calculating to obtain the temperature deviation value of the water tank of the printing machine;

similarly, calculating to obtain a conductivity deviation value, a pH deviation value and a water tank liquid concentration deviation value of the printing machine;

calculating an operating environment deviation value of the printing machine;

and comparing the running environment deviation value with a running environment deviation threshold value to generate a running environment normal signal or a running environment check signal.

7. The intelligent internet-based printing press remote control system according to claim 6, wherein the environment analysis module feeds back an operating environment normal signal or an operating environment check signal to the server;

if the server receives a normal signal of the operating environment, no operation is performed;

if the server receives the operation environment inspection signal, then inform the staff to inspect corresponding printing machine and forward the operation environment inspection signal to user terminal, user terminal receives behind the operation environment inspection signal and is used for treating the printing task of printing the file and carries out remote termination, and remote termination instruction sends to the server, the server loads remote termination instruction to remote control module, remote control module is used for terminating the printing machine that will be in the printing and treat the printing file, after the termination, user of user terminal department reselects the printing machine and will treat the printing file through remote control module and continue to print.

8. Method for intelligent remote control system of internet based printing press according to any of claims 1 to 7, characterized in that the method is as follows:

step S101, a user terminal inputs a file to be printed and printing parameters and sends the file to a printing analysis module, and a data acquisition module acquires equipment data of a printing machine and sends the equipment data to an equipment analysis module;

step S102, the equipment analysis module performs equipment analysis on a plurality of printing machines to obtain equipment performance values of the printing machines and sends the equipment performance values to the printing matching module;

step S103, analyzing the file to be printed input by the user terminal by using a printing analysis module to obtain a printing requirement value of the file to be printed and sending the printing requirement value to a printing matching module;

step S104, the printing matching module performs printing matching on the file to be printed and the printing machine to obtain the printing machine to be matched and sends the printing machine to the user terminal, and the user terminal selects the printing machine to print the file to be printed;

and S105, when the printing machine works, the data acquisition module acquires the running data of the printing machine and sends the running data to the environment analysis module, the running environment of the printing machine is analyzed through the environment analysis module to generate a normal running environment signal or a running environment check signal, and if the running environment check signal is generated, the printing machine in the printing task is stopped through the remote control module and the printing machine is switched to print.

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