CN108389334A - A kind of recyclable self-service reprographic printing system and its monitoring method that internet is shared - Google Patents

Abstract

The invention discloses recyclable self-service reprographic printing systems and its monitoring method that a kind of internet is shared, including：Bottom sensing subsystem, human-machine interaction subsystem, remote monitoring subsystem；Also disclose the Intelligent printing method for the recyclable self-service reprographic printing system shared based on internet, intelligent copy method based on the recyclable self-service reprographic printing system that internet is shared, intelligent consumption-reducing method based on the recyclable self-service reprographic printing system that internet is shared, intelligent failure diagnosis method based on the recyclable self-service reprographic printing system that internet is shared, intelligent waste paper recovery method based on the recyclable self-service reprographic printing system that internet is shared, it can realize unattended, self-help operation, intelligence is duplicated, Intelligent printing, fault diagnosis, waste paper recycles, the functions such as intelligence consumption reduction, it is efficient to provide, fast, the self-service reprographic printing service of environmental protection.

Description

A kind of recyclable self-service reprographic printing system and its monitoring method that internet is shared

Technical field

The present invention relates to a kind of self-service reprographic printing technology, the shared recyclable self-service duplicating in specifically a kind of internet is beaten Print system and its monitoring method.

Background technology

With the continuous development of science and technology, the common print business equipment including printer, duplicator, scanner has become The necessary equipment of corporate office.However for most average families, it is low due to the use of rate, equipment price is high, need The reasons such as periodic maintenance are not equipped with print business equipment generally；But selection arrives close on the relevant print business of picture and text shop purchase when needed Service.But due to surging cost of labor and house rent so that picture and text shop must be chosen to be at the big place of the volume of the flow of passengers and open up, number Amount has received limitation with scale.Therefore often there is user and be badly in need of the phenomenon that photocopying materials but can not find picture and text shop, increase The time cost of user even results in important practice delay.

Invention content

To solve the above-mentioned problems, the present invention provides one kind, and there is unattended, self-help operation, intelligence duplicating, intelligence to beat Print, fault diagnosis, waste paper recycling, the shared equipment in internet and its monitoring method intelligently to lower consumption.

To achieve the goals above, the technical scheme is that：A kind of shared recyclable self-service duplicating in internet is beaten Print system, it includes：Bottom sensing subsystem, human-machine interaction subsystem, remote monitoring subsystem three parts, the bottom pass Feel between subsystem and human-machine interaction subsystem through USB line connection and transmission data, the human-machine interaction subsystem with it is long-range Pass through wireless network connection and transmission data between Monitor And Control Subsystem.

Preferably, the bottom sensing subsystem includes：High-definition camera, light sensor, light compensating lamp, printer, Carbon dust detector, paper detection, fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, Paper piling device；

Wherein, high-definition camera connect simultaneously transmission data, light sensor and expansion interface with expansion interface by USB line It is connect by two-line cable with expansion interface by two-line cable connection and transmission data, light compensating lamp, printer and extension Interface is by USB line connection and transmission data, and carbon dust detector is connect by two-line cable with expansion interface and transmission data, Paper detection is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two lines with expansion interface Cable connection processed and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared to take the photograph Picture head is connect by two-line cable with expansion interface and transmission data, and infrared range-measurement system passes through two-line cable with expansion interface Connect and transmission data, paper feeder and expansion interface connects simultaneously transmission data by two-line cable, paper piling device and Expansion interface passes through two-line cable connection and transmission data.

Preferably, the human-machine interaction subsystem include on-board controller, touch display screen, on-line payment equipment, mutually Networked communication device, local area network communication equipment；

Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller It is connect by USB line with on-line payment equipment and transmission data, on-board controller is connect with internet communication equipment by USB line And transmission data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.

Preferably, the remote monitoring subsystem includes：Remote data center and remote monitoring platform, the two pass through nothing Line network connection and transmission data.

A kind of monitoring method of the shared recyclable self-service reprographic printing system in internet, it is characterised in that：The monitoring Method includes Intelligent printing method, intelligent copy method, intelligent consumption-reducing method, intelligent failure diagnosis method, intelligent waste paper recycling Method.

Preferably, the Intelligent printing method includes the following steps：

(A1) when user is after the main interface of touch one-piece machine selects " printing " option, appearance connects the Quick Response Code of WIFI, User is scanned the two-dimensional code using mobile phone, you can is connected to local WIFI network；

(A2) after connecting WIFI network, touch one-piece machine playing animation and voice prompt, guiding user, which uploads, to be needed to print Document；

(A3) after user completes document upload by mobile phone, show that document preview figure, user can roots in touch one-piece machine According to needing that one page or multipage therein is selected to be printed, and the number of printing can be set, selection later " confirming printing " choosing Item enters payment interface；

(A4) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, current printing of deducting Part expense；

(A5) amount of money of deduction and the amount of money that it is still necessary to be paid, user are shown on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after click " on-line payment " option；

(A6) start printer after the completion of payment, printed out according to the page and number of above-mentioned user selection, it After terminate this printing flow, touch one-piece machine retracts main interface.

Preferably, the intelligent copy method includes the following steps：

(B1) when user is after the main interface of touch one-piece machine selects " duplicatings " option, startup light compensating lamp, and playing animation And voice prompt, guiding user are put into article to be copied；

(B2) after user puts article to be copied well, after " confirm and duplicate " option in point touching all-in-one machine, start high definition Camera carries out Image Acquisition, and is automatically performed correction, shearing manipulation；

(B3) it shows that duplicating is completed in current item on touch one-piece machine, and user is prompted to be put into next article to be copied；

(B4) after user is sequentially completed the duplicating of all items, " completing to duplicate " option in point touching all-in-one machine, and All thumbnails for duplicating result are shown in touch one-piece machine afterwards；

(B5) user chooses the copy for needing to export printing, and is arranged which copy needs merging to be exported in a piece of paper It prints, and each printing number of copy, then " confirming printing " option in point touching all-in-one machine enters payment circle Face；

(B6) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, current printing of deducting Part expense；

(B7) amount of money of deduction and the amount of money that it is still necessary to be paid, user are shown on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after click " on-line payment " option；

(B8) start printer after the completion of payment, printed out according to the copy and number of above-mentioned user selection, Terminate this later and duplicate flow, touch one-piece machine retracts main interface.

Preferably, the intelligent consumption-reducing method includes the following steps：

(C1) no operation is detected whether

By touch potential n of the on-board controller record active user in touch display screen_tch, and record user and do not operate The time t of touch screen_notch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out t_Snoth, wherein n_△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34：

t_Snotch=ln (n_tch+n_Δtch) \*MERGEFORMAT (1)

By the t obtained by above-mentioned calculating_Snoth, in conjunction with the time t of the non-operation touch-screen of user_notch, can be obtained by following formula and be System whether the identifier F in no mode of operation_noth, wherein the F when system is in no mode of operation_nothIt is 1：

F_noth=sgn (t_notch-t_Snotch) \*MERGEFORMAT (2)

(C2) intensity of illumination is detected

Transducing signal I is obtained by light sensor_l, and current light intensity lm is calculated according to the following formula：

Lm=200+12487.5 (I_l-4) \*MERGEFORMAT (3)

By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lm_S, can whether environment illumination intensity be obtained by following formula Too low identifier F_l, numerical value is adjusted according to field condition, value range 45-75, wherein working as environment illumination intensity F when too low_lIt is 1：

F_l=sgn (lm-lm_s) \*MERGEFORMAT (4)

(C3) short distance personnel are detected

Sensor signal V is obtained by infrared detector_r, and the identifier for closely whether having personnel is obtained according to the following formula F_nh, wherein V_SrFor personnel's detection threshold, numerical value is adjusted according to field condition, and value range 2.6-3.8 works as detection F when to short distance without personnel_nhIt is 1：

F_nh=sgn (V_Sr-V_r) \*MERGEFORMAT (5)

(C4) remote personnel are detected

Real-time video picture in front of equipment is obtained by infrared camera, defining ith pixel point in the picture of t moment isThe mean value of t moment ith pixel point can be then calculated by following formulaAnd standard deviationWherein α is effect Rate parameter, numerical value are adjusted according to field condition, value range 3-5：

Obtained by above-mentioned calculatingThe remote mark for whether there are personnel to occur can be obtained by following formula Know symbol F_fh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, when detecting long distance F when from no personnel_fhIt is 1：

(C5) evaluation consumption reduction grade

By the F obtained by above-mentioned calculating_noth、F_l、F_nh、F_fh, consumption reduction grade R, the wherein bigger expression of R values can be obtained by following formula The rank that lowers consumption is higher：

(C6) hardware device is controlled

Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption；When 1≤R<It sets touch display screen to 75% brightness when 4；As 4≤R<It sets touch display screen to 55% brightness when 5, and closes Close infrared range-measurement system, paper transport device, paper piling device；As 5≤R<When set touch display screen to 35% brightness, and close Infrared range-measurement system, paper transport device, paper piling device, high-definition camera, printer.

Preferably, the intelligent failure diagnosis method includes the following steps：

(D1) detect whether that carbon dust is very few

It is respectively c by the nearest n sensing data of carbon dust detector acquisition₁、c₂……c_n, then biography can be obtained by following formula Feel data mean value c_aver, the wherein numerical value of n is adjusted according to field condition, value range 8-15：

By the sensing data mean value c obtained by above-mentioned calculating_aver, carbon dust surplus C can be obtained by following formula_left, wherein c_maxWith c_minMaxima and minima in respectively n sensing data, κ are compensation coefficient, and numerical value is adjusted according to field condition It is whole, value range 0.4-0.6：

C_left=κ (1+sin (π/(c_max-c_min)·(c_aver-(c_max-c_min)/2)))\*MERGEFORMAT (11)

The carbon dust surplus C obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of carbon dust_c, wherein C_SleftFor carbon dust alarming threshold value, numerical value is adjusted according to field condition, value range 0.10-0.15, when detection carbon dust F when very few_cIt is 1：

F_c=sgn (C_Sleft-C_left) \*MERGEFORMAT (12)

(D2) detect whether that paper is very few

It is p by the sensing data that paper detection obtains, then paper surplus P can be obtained by following formula_left, wherein τ is strong Positive coefficient, numerical value are adjusted according to field condition, value range 80-120：

The paper surplus P obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of paper_p, wherein P_SleftFor paper alarming threshold value, numerical value is adjusted according to field condition, value range 30-50, when detection paper is very few When F_pIt is 1：

F_p=sgn (P_Sleft-P_left) \*MERGEFORMAT (14)

(D3) detection is communicated with remote data center

Network connecting request being sent to remote data center from on-board controller and starting timer, timer time is denoted as t_net, stop timer after receiving data center and replying, and start network connecting request next time；

By above-mentioned timer time t_net, and can show whether there are communication failures with remote data center according to the following formula Identifier F_net, wherein t_SnetFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 800- 1000, F when with remote data center communication failure_netIt is 1：

F_net=sgn (t_Snet-t_net) \*MERGEFORMAT (15)

(D4) detection is communicated with paper feeder

Serial ports read requests are sent from on-board controller to paper feeder, read the number of paper feeder storage inside position According to, and starting timer, timer time is denoted as t_ser, stop timer when reading the numerical value of non-empty, and start next time Serial ports read requests；

By above-mentioned timer time t_ser, and can show whether there are the marks of communication failure with paper feeder according to the following formula Know symbol F_ser, wherein t_SserFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 300-500, F when with paper feeder communication failure_serIt is 1：

F_ser=sgn (t_Sser-t_ser) \*MERGEFORMAT (16)

(D5) fault level is evaluated

By the F obtained by above-mentioned calculating_c、F_p、F_net、F_ser, fault level G, the wherein bigger expression of G values can be obtained by following formula Failure severity is higher：

(D6) startup separator is alarmed

Corresponding fault warning is made by the fault level G obtained by above-mentioned calculating；As 2≤G<Only to remote server when 5 Send fault data；Local fault alarm will be started as 5≤G, need to carry out Emergency Maintenance.

Preferably, the intelligent waste paper recovery method includes the following steps：

(E1) entry condition is detected

Serial port command from on-board controller is received by paper feeder, when receiving as issued orders, starts waste paper Recycling：

(E2) detection plug paper action

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the outside of plug paper mouth₁₁、d₁₂……d_1k, d₂₁、d₂₂…… d_2k, the numerical value of k is adjusted according to field condition, value range 5-8, then can be obtained by following formula with the presence or absence of plug paper action Identifier J₁₂, wherein d_SFor sheet detecting threshold values, numerical value is adjusted according to field condition, value range 1.2-1.5, when J when outside has detected paper₁₂It is 1, you can regard as the presence of plug paper action：

(E3) start paper transport device

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the inside of plug paper mouth₃₁、d₃₂……d_3k, d₄₁、d₄₂…… d_4k, in conjunction with above-mentioned sheet detecting threshold values d_S, the identifier J with the presence or absence of plug paper action can be obtained by following formula₃₄, when inside is detected To J when having paper₃₄It is 1：

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For 1 and J₃₄When being -1, start paper transport device；

(E4) start paper piling device

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For -1 and J₃₄When being 1, start paper piling device；

(E5) transmission data

After completing above-mentioned paper stacking action, following serial port command is sent from paper feeder to on-board controller：

When on-board controller receives the serial port command, this paper number is put into and has added 1.

The beneficial effects of the present invention are：

(1) present invention is capable of providing unattended printing and copying service, and transmitting file by local WIFI improves Efficiency of transmission the problem of by can arbitrarily select printer page when the printout of the printing interface optimization of brief introduction, passes through The effect that multiple copies merge output printing may be implemented in quick copy operation, and can be by filling in waste paper deduction payment The amount of money promotes the development of low-carbon, green, environmental protection cause to promote the recycling of waste paper；

(2) present invention can detect ambient enviroment by multiple sensors, and suitable drop is calculated in conjunction with sensing data Grade is consumed, and automatically adjusts the energy consumption of key equipment according to different consumption reduction grades；

(3) present invention can have found potential faults, evaluation event in advance by the working condition of local sensor detection device Hinder grade, and fault alarm is sent out to remotely-or locally personnel according to actual conditions, to take timely measure discharge failure；

(4) present invention can open and close waste paper recovery system by the communication of main control device, and be examined by sensor The plug paper action of user, automatic start-stop paper transport device and paper piling device are surveyed, to complete the statistics and recovery operation of waste paper.

Description of the drawings

Fig. 1 is the system principle diagram of the present invention；

Fig. 2 is the Intelligent printing of the present invention and intelligent copy method flow chart；

Fig. 3 is the intelligent consumption-reducing method flow chart of the present invention；

Fig. 4 is the intelligent failure diagnosis method flow chart of the present invention；

Fig. 5 is the intelligent waste paper recovery method flow chart of the present invention.

Specific implementation mode

Preferred embodiment of the invention is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1, the recyclable self-service reprographic printing system that a kind of internet is shared, including：Bottom sensing subsystem, Human-machine interaction subsystem, remote monitoring subsystem three parts, between the bottom sensing subsystem and human-machine interaction subsystem By USB line connection and transmission data, connected by wireless network between the human-machine interaction subsystem and remote monitoring subsystem Connect simultaneously transmission data.

The bottom sensing subsystem includes：High-definition camera, light sensor, light compensating lamp, printer, carbon dust detection Device, paper detection, fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, paper are stacked Device；

Wherein, high-definition camera connect simultaneously transmission data, light sensor and expansion interface with expansion interface by USB line It is connect by two-line cable with expansion interface by two-line cable connection and transmission data, light compensating lamp, printer and extension Interface is by USB line connection and transmission data, and carbon dust detector is connect by two-line cable with expansion interface and transmission data, Paper detection is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two lines with expansion interface Cable connection processed and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared to take the photograph Picture head is connect by two-line cable with expansion interface and transmission data, and infrared range-measurement system passes through two-line cable with expansion interface Connect and transmission data, paper feeder and expansion interface connects simultaneously transmission data by two-line cable, paper piling device and Expansion interface passes through two-line cable connection and transmission data.

The human-machine interaction subsystem includes on-board controller, touch display screen, on-line payment equipment, internet communication Equipment, local area network communication equipment；

Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller It is connect by USB line with on-line payment equipment and transmission data, on-board controller is connect with internet communication equipment by USB line And transmission data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.

The remote monitoring subsystem includes：Remote data center and remote monitoring platform, the two pass through wireless network Connect simultaneously transmission data.

Intelligent printing method in a kind of shared recyclable self-service reprographic printing system in internet, as shown in Fig. 2, it is walked Flow is as follows：

(A1) when user is after the main interface of touch one-piece machine selects " printing " option, appearance connects the Quick Response Code of WIFI, User is scanned the two-dimensional code using mobile phone, you can is connected to local WIFI network；

(A2) after connecting WIFI network, touch one-piece machine playing animation and voice prompt, guiding user, which uploads, to be needed to print Document；

(A3) after user completes document upload by mobile phone, show that document preview figure, user can roots in touch one-piece machine According to needing that one page or multipage therein is selected to be printed, and the number of printing can be set, selection later " confirming printing " choosing Item enters payment interface；

(A4) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, current printing of deducting Part expense；

(A5) amount of money of deduction and the amount of money that it is still necessary to be paid, user are shown on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after click " on-line payment " option；

(A6) start printer after the completion of payment, printed out according to the page and number of above-mentioned user selection, it After terminate this printing flow, touch one-piece machine retracts main interface.

Intelligent copy method in a kind of shared recyclable self-service reprographic printing system in internet, as shown in Fig. 2, it is walked Flow is as follows：

(B1) when user is after the main interface of touch one-piece machine selects " duplicatings " option, startup light compensating lamp, and playing animation And voice prompt, guiding user are put into article to be copied；

(B2) after user puts article to be copied well, after " confirm and duplicate " option in point touching all-in-one machine, start high definition Camera carries out Image Acquisition, and is automatically performed correction, shearing manipulation；

(B3) it shows that duplicating is completed in current item on touch one-piece machine, and user is prompted to be put into next article to be copied；

(B4) after user is sequentially completed the duplicating of all items, " completing to duplicate " option in point touching all-in-one machine, and All thumbnails for duplicating result are shown in touch one-piece machine afterwards；

(B5) user chooses the copy for needing to export printing, and is arranged which copy needs merging to be exported in a piece of paper It prints, and each printing number of copy, then " confirming printing " option in point touching all-in-one machine enters payment circle Face；

(B6) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, current printing of deducting Part expense；

(B7) amount of money of deduction and the amount of money that it is still necessary to be paid, user are shown on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after click " on-line payment " option；

(B8) start printer after the completion of payment, printed out according to the copy and number of above-mentioned user selection, Terminate this later and duplicate flow, touch one-piece machine retracts main interface.

Intelligent consumption-reducing method in a kind of shared recyclable self-service reprographic printing system in internet, as shown in figure 3, it is walked Flow is as follows：

(C1) no operation is detected whether

By touch potential n of the on-board controller record active user in touch display screen_tch, and record user and do not operate The time t of touch screen_notch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out t_Snoth, wherein n_△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34：

t_Snotch=ln (n_tch+n_Δtch) \*MERGEFORMAT (1)

By the t obtained by above-mentioned calculating_Snoth, in conjunction with the time t of the non-operation touch-screen of user_notch, can be obtained by following formula and be System whether the identifier F in no mode of operation_noth, wherein the F when system is in no mode of operation_nothIt is 1：

F_noth=sgn (t_notch-t_Snotch) \*MERGEFORMAT (2)

(C2) intensity of illumination is detected

Transducing signal I is obtained by light sensor_l, and current light intensity lm is calculated according to the following formula：

Lm=200+12487.5 (I_l-4) \*MERGEFORMAT (3)

By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lm_S, can whether environment illumination intensity be obtained by following formula Too low identifier F_l, numerical value is adjusted according to field condition, value range 45-75, wherein working as environment illumination intensity F when too low_lIt is 1：

F_l=sgn (lm-lm_s) \*MERGEFORMAT (4)

(C3) short distance personnel are detected

Sensor signal V is obtained by infrared detector_r, and the identifier for closely whether having personnel is obtained according to the following formula F_nh, wherein V_SrFor personnel's detection threshold, numerical value is adjusted according to field condition, and value range 2.6-3.8 works as detection F when to short distance without personnel_nhIt is 1：

F_nh=sgn (V_Sr-V_r) \*MERGEFORMAT (5)

(C4) remote personnel are detected

Real-time video picture in front of equipment is obtained by infrared camera, defining ith pixel point in the picture of t moment isThe mean value of t moment ith pixel point can be then calculated by following formulaAnd standard deviationWherein α is effect Rate parameter, numerical value are adjusted according to field condition, value range 3-5：

Obtained by above-mentioned calculatingThe remote mark for whether there are personnel to occur can be obtained by following formula Know symbol F_fh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, when detecting long distance F when from no personnel_fhIt is 1：

(C5) evaluation consumption reduction grade

By the F obtained by above-mentioned calculating_noth、F_l、F_nh、F_fh, consumption reduction grade R, the wherein bigger expression of R values can be obtained by following formula The rank that lowers consumption is higher：

(C6) hardware device is controlled

Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption；When 1≤R<It sets touch display screen to 75% brightness when 4；As 4≤R<It sets touch display screen to 55% brightness when 5, and closes Close infrared range-measurement system, paper transport device, paper piling device；As 5≤R<When set touch display screen to 35% brightness, and close Infrared range-measurement system, paper transport device, paper piling device, high-definition camera, printer.

A kind of intelligent failure diagnosis method in the shared recyclable self-service reprographic printing system in internet, as shown in figure 4, It is as follows that it walks flow：

(D1) detect whether that carbon dust is very few

It is respectively c by the nearest n sensing data of carbon dust detector acquisition₁、c₂……c_n, then biography can be obtained by following formula Feel data mean value c_aver, the wherein numerical value of n is adjusted according to field condition, value range 8-15：

By the sensing data mean value c obtained by above-mentioned calculating_aver, carbon dust surplus C can be obtained by following formula_left, wherein c_maxWith c_minMaxima and minima in respectively n sensing data, κ are compensation coefficient, and numerical value is adjusted according to field condition It is whole, value range 0.4-0.6：

C_left=κ (1+sin (π/(c_max-c_min)·(c_aver-(c_max-c_min)/2)))\*MERGEFORMAT (11)

The carbon dust surplus C obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of carbon dust_c, wherein C_SleftFor carbon dust alarming threshold value, numerical value is adjusted according to field condition, value range 0.10-0.15, when detection carbon dust F when very few_cIt is 1：

F_c=sgn (C_Sleft-C_left) \*MERGEFORMAT (12)

(D2) detect whether that paper is very few

It is p by the sensing data that paper detection obtains, then paper surplus P can be obtained by following formula_left, wherein τ is strong Positive coefficient, numerical value are adjusted according to field condition, value range 80-120：

The paper surplus P obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of paper_p, wherein P_SleftFor paper alarming threshold value, numerical value is adjusted according to field condition, value range 30-50, when detection paper is very few When F_pIt is 1：

F_p=sgn (P_Sleft-P_left) \*MERGEFORMAT (14)

(D3) detection is communicated with remote data center

Network connecting request being sent to remote data center from on-board controller and starting timer, timer time is denoted as t_net, stop timer after receiving data center and replying, and start network connecting request next time；

By above-mentioned timer time t_net, and can show whether there are communication failures with remote data center according to the following formula Identifier F_net, wherein t_SnetFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 800- 1000, F when with remote data center communication failure_netIt is 1：

F_net=sgn (t_Snet-t_net) \*MERGEFORMAT (15)

(D4) detection is communicated with paper feeder

Serial ports read requests are sent from on-board controller to paper feeder, read the number of paper feeder storage inside position According to, and starting timer, timer time is denoted as t_ser, stop timer when reading the numerical value of non-empty, and start next time Serial ports read requests；

By above-mentioned timer time t_ser, and can show whether there are the marks of communication failure with paper feeder according to the following formula Know symbol F_ser, wherein t_SserFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 300-500, F when with paper feeder communication failure_serIt is 1：

F_ser=sgn (t_Sser-t_ser) \*MERGEFORMAT (16)

(D5) fault level is evaluated

By the F obtained by above-mentioned calculating_c、F_p、F_net、F_ser, fault level G, the wherein bigger expression of G values can be obtained by following formula Failure severity is higher：

(D6) startup separator is alarmed

Corresponding fault warning is made by the fault level G obtained by above-mentioned calculating；As 2≤G<Only to remote server when 5 Send fault data；Local fault alarm will be started as 5≤G, need to carry out Emergency Maintenance.

A kind of intelligent waste paper recovery method in the shared recyclable self-service reprographic printing system in internet, as shown in figure 5, It is as follows that it walks flow：

(E1) entry condition is detected

Serial port command from on-board controller is received by paper feeder, when receiving as issued orders, starts waste paper Recycling：

(E2) detection plug paper action

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the outside of plug paper mouth₁₁、d₁₂……d_1k, d₂₁、d₂₂…… d_2k, the numerical value of k is adjusted according to field condition, value range 5-8, then can be obtained by following formula with the presence or absence of plug paper action Identifier J₁₂, wherein d_SFor sheet detecting threshold values, numerical value is adjusted according to field condition, value range 1.2-1.5, when J when outside has detected paper₁₂It is 1, you can regard as the presence of plug paper action：

(E3) start paper transport device

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the inside of plug paper mouth₃₁、d₃₂……d_3k, d₄₁、d₄₂…… d_4k, in conjunction with above-mentioned sheet detecting threshold values d_S, the identifier J with the presence or absence of plug paper action can be obtained by following formula₃₄, when inside is detected To J when having paper₃₄It is 1：

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For 1 and J₃₄When being -1, start paper transport device；

(E4) start paper piling device

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For -1 and J₃₄When being 1, start paper piling device；

(E5) transmission data

After completing above-mentioned paper stacking action, following serial port command is sent from paper feeder to on-board controller：

When on-board controller receives the serial port command, this paper number is put into and has added 1.

The above, only presently preferred embodiments of the present invention, are not intended to limit the invention, every skill according to the present invention Art essence should be included in technical solution of the present invention to any trickle amendment, equivalent replacement and improvement made by above example Protection domain within.

Claims (10)

1. a kind of shared recyclable self-service reprographic printing system in internet, which is characterized in that including：Bottom sensing subsystem, Human-machine interaction subsystem, remote monitoring subsystem three parts, between the bottom sensing subsystem and human-machine interaction subsystem By USB line connection and transmission data, connected by wireless network between the human-machine interaction subsystem and remote monitoring subsystem Connect simultaneously transmission data.

2. the shared recyclable autonomous reprographic printing system in internet according to claim 1, it is characterised in that：Described Bottom sensing subsystem includes：High-definition camera, light sensor, light compensating lamp, printer, carbon dust detector, paper detection, Fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, paper piling device；

Wherein, high-definition camera is connect with expansion interface by USB line and transmission data, light sensor pass through with expansion interface Simultaneously transmission data, light compensating lamp are connect with expansion interface by two-line cable for two-line cable connection, printer and expansion interface By USB line connection and transmission data, carbon dust detector is connect by two-line cable with expansion interface and transmission data, paper Detector is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two-wire system electricity with expansion interface Cable connection and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared camera It is connect by two-line cable with expansion interface and transmission data, infrared range-measurement system is connect with expansion interface by two-line cable And transmission data, paper feeder is connect by two-line cable with expansion interface and transmission data, paper piling device and extension Interface passes through two-line cable connection and transmission data.

3. the shared recyclable autonomous reprographic printing system in internet according to claim 1, it is characterised in that：Described Human-machine interaction subsystem includes on-board controller, touch display screen, on-line payment equipment, internet communication equipment, local Netcom Believe equipment；

Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller with Line payment devices are connect and are passed by USB line with internet communication equipment by USB line connection and transmission data, on-board controller Transmission of data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.

4. the shared recyclable autonomous reprographic printing system in internet according to claim 1, it is characterised in that：Described Remote monitoring subsystem includes：Remote data center and remote monitoring platform, the two pass through wireless network connection and transmission data.

5. a kind of monitoring for the recyclable self-service reprographic printing system shared based on claim 1-4 any one of them internet Method, it is characterised in that：The monitoring method includes Intelligent printing method, intelligent copy method, intelligent consumption-reducing method, intelligence event Hinder diagnostic method, intelligent waste paper recovery method.

6. the monitoring method of the shared recyclable self-service reprographic printing system in internet according to claim 5, feature It is：The Intelligent printing method includes the following steps：

(A1) when user is after the main interface of touch one-piece machine selects " printing " option, appearance connects the Quick Response Code of WIFI, user It is scanned the two-dimensional code using mobile phone, you can be connected to local WIFI network；

(A2) after connecting WIFI network, touch one-piece machine playing animation and voice prompt, guiding user upload the text for needing to print Shelves；

(A3) after user completes document upload by mobile phone, show that document preview figure, user can be according to need in touch one-piece machine Select one page or multipage therein to be printed, and the number of printing can be set, later selection " confirm printing " option into Enter interface of paying the bill；

(A4) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, deduct the portion currently printed Divide expense；

(A5) show that the amount of money of deduction and the amount of money that it is still necessary to be paid, user are clicked on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after " on-line payment " option；

(A6) start printer after the completion of payment, printed out according to the page and number of above-mentioned user selection, Zhi Houjie Shu Benci prints flow, and touch one-piece machine retracts main interface.

7. the monitoring method of the shared recyclable self-service reprographic printing system in internet according to claim 5, feature It is：The intelligence copy method includes the following steps：

(B1) when user is after the main interface of touch one-piece machine selects " duplicatings " option, startup light compensating lamp, and playing animation and language Sound prompts, and guiding user is put into article to be copied；

(B2) after user puts article to be copied well, after " confirm and duplicate " option in point touching all-in-one machine, start high-definition camera Head carries out Image Acquisition, and is automatically performed correction, shearing manipulation；

(B3) it shows that duplicating is completed in current item on touch one-piece machine, and user is prompted to be put into next article to be copied；

(B4) after user is sequentially completed the duplicating of all items, " completing to duplicate " option in point touching all-in-one machine then touches It touches and shows all thumbnails for duplicating result in all-in-one machine；

(B5) user chooses the copy for needing to export printing, and is arranged which copy needs merging to be beaten in a piece of paper output It prints, and each printing number of copy, then " confirming printing " option in point touching all-in-one machine enters payment interface；

(B6) can be by filling in the waste paper printed comprising deduction item, user in interface of paying the bill, deduct the portion currently printed Divide expense；

(B7) show that the amount of money of deduction and the amount of money that it is still necessary to be paid, user are clicked on interface after user completes plug paper operation By scanning the two-dimensional code the remaining amount of money of payment after " on-line payment " option；

(B8) start printer after the completion of payment, printed out according to the copy and number of above-mentioned user selection, later Terminate this and duplicate flow, touch one-piece machine retracts main interface.

8. the monitoring method of the shared recyclable self-service reprographic printing system in internet according to claim 5, feature It is：The intelligence consumption-reducing method includes the following steps：

(C1) no operation is detected whether

By touch potential n of the on-board controller record active user in touch display screen_tch, and record user and do not operate touch The time t of screen_notch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out t_Snoth, wherein n_△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34：

t_Snotch=ln (n_tch+n_Δtch)\*MERGEFORMAT (1)

By the t obtained by above-mentioned calculating_Snoth, in conjunction with the time t of the non-operation touch-screen of user_notch, can show that system is by following formula The no identifier F in no mode of operation_noth, wherein the F when system is in no mode of operation_nothIt is 1：

F_noth=sgn (t_notch-t_Snotch)\*MERGEFORMAT (2)

(C2) intensity of illumination is detected

Transducing signal I is obtained by light sensor_l, and current light intensity lm is calculated according to the following formula：

Lm=200+12487.5 (I_l-4)\*MERGEFORMAT (3)

By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lm_S, can show whether environment illumination intensity is too low by following formula Identifier F_l, numerical value is adjusted according to field condition, value range 45-75, wherein when environment illumination intensity is too low When F_lIt is 1：

F_l=sgn (lm-lm_s)\*MERGEFORMAT (4)

(C3) short distance personnel are detected

Sensor signal V is obtained by infrared detector_r, and the identifier F for closely whether having personnel is obtained according to the following formula_nh, Middle V_SrFor personnel's detection threshold, numerical value is adjusted according to field condition, value range 2.6-3.8, when detecting low coverage F when from no personnel_nhIt is 1：

F_nh=sgn (V_Sr-V_r)\*MERGEFORMAT (5)

(C4) remote personnel are detected

Real-time video picture in front of equipment is obtained by infrared camera, it is m to define ith pixel point in the picture of t moment_t ⁱ(x, Y), then the mean value u of t moment ith pixel point can be calculated by following formula_t ⁱ(x, y) and standard deviation sigma_t ⁱ(x, y), wherein α are effect Rate parameter, numerical value are adjusted according to field condition, value range 3-5：

By the u obtained by above-mentioned calculating_t ⁱ(x, y), σ_t ⁱ(x, y) can be obtained the remote mark for whether having personnel to occur by following formula Accord with F_fh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, remote when detecting F when without personnel_fhIt is 1：

(C5) evaluation consumption reduction grade

By the F obtained by above-mentioned calculating_noth、F_l、F_nh、F_fh, consumption reduction grade R, the wherein bigger expression consumption reduction of R values can be obtained by following formula Rank is higher：

(C6) hardware device is controlled

Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption；As 1≤R <It sets touch display screen to 75% brightness when 4；As 4≤R<It sets touch display screen to 55% brightness when 5, and closes red Outer rangefinder, paper transport device, paper piling device；As 5≤R<When set touch display screen to 35% brightness, and close infrared Rangefinder, paper transport device, paper piling device, high-definition camera, printer.

9. the monitoring method of the shared recyclable self-service reprographic printing system in internet according to claim 5, feature It is：The intelligent failure diagnosis method includes the following steps：

(D1) detect whether that carbon dust is very few

It is respectively c by the nearest n sensing data of carbon dust detector acquisition₁、c₂……c_n, then sensing number can be obtained by following formula According to mean value c_aver, the wherein numerical value of n is adjusted according to field condition, value range 8-15：

By the sensing data mean value c obtained by above-mentioned calculating_aver, carbon dust surplus C can be obtained by following formula_left, wherein c_maxWith c_minPoint Maxima and minima that Wei be in n sensing data, κ is compensation coefficient, and numerical value is adjusted according to field condition, value Ranging from 0.4-0.6：

C_left=κ (1+sin (π/(c_max-c_min)·(c_aver-(c_max-c_min)/2)))\*MERGEFORMAT (11)

The carbon dust surplus C obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of carbon dust_c, wherein C_Sleft For carbon dust alarming threshold value, numerical value is adjusted according to field condition, value range 0.10-0.15, when detection carbon dust is very few When F_cIt is 1：

F_c=sgn (C_Sleft-C_left)\*MERGEFORMAT (12)

(D2) detect whether that paper is very few

It is p by the sensing data that paper detection obtains, then paper surplus P can be obtained by following formula_left, wherein τ is that correction is Number, numerical value are adjusted according to field condition, value range 80-120：

The paper surplus P obtained by above formula_left, and can obtain according to the following formula whether the very few identifier F of paper_p, wherein P_Sleft For paper alarming threshold value, numerical value is adjusted according to field condition, value range 30-50, the F when detection paper is very few_p It is 1：

F_p=sgn (P_Sleft-P_left)\*MERGEFORMAT (14)

(D3) detection is communicated with remote data center

Network connecting request being sent to remote data center from on-board controller and starting timer, timer time is denoted as t_net, Stop timer after receiving data center and replying, and starts network connecting request next time；

By above-mentioned timer time t_net, and can show whether there are the marks of communication failure with remote data center according to the following formula Accord with F_net, wherein t_SnetFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 800-1000, when With F when remote data center communication failure_netIt is 1：

F_net=sgn (t_Snet-t_net)\*MERGEFORMAT (15)

(D4) detection is communicated with paper feeder

Serial ports read requests are sent from on-board controller to paper feeder, read the data of paper feeder storage inside position, And starting timer, timer time is denoted as t_ser, stop timer when reading the numerical value of non-empty, and start and go here and there next time Mouth read requests；

By above-mentioned timer time t_ser, and can show whether there are the identifiers of communication failure with paper feeder according to the following formula F_ser, wherein t_SserFor Connection Time threshold values, numerical value is adjusted according to field condition, value range 300-500, when with F when paper feeder communication failure_serIt is 1：

F_ser=sgn (t_Sser-t_ser)\*MERGEFORMAT (16)

(D5) fault level is evaluated

By the F obtained by above-mentioned calculating_c、F_p、F_net、F_ser, fault level G, the wherein bigger expression failure of G values can be obtained by following formula Severity is higher：

(D6) startup separator is alarmed

Corresponding fault warning is made by the fault level G obtained by above-mentioned calculating；As 2≤G<It is only sent to remote server when 5 Fault data；Local fault alarm will be started as 5≤G, need to carry out Emergency Maintenance.

10. the monitoring method of the shared recyclable self-service reprographic printing system in internet according to claim 5, feature It is：The intelligence waste paper recovery method includes the following steps：

(E1) entry condition is detected

Serial port command from on-board controller is received by paper feeder, when receiving as issued orders, starts waste paper recycling：

(E2) detection plug paper action

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the outside of plug paper mouth₁₁、d₁₂……d_1k, d₂₁、d₂₂……d _2k, The numerical value of k is adjusted according to field condition, value range 5-8, then the mark with the presence or absence of plug paper action can be obtained by following formula Know symbol J₁₂, wherein d_SFor sheet detecting threshold values, numerical value is adjusted according to field condition, value range 1.2-1.5, when outer J when side has detected paper₁₂It is 1, you can regard as the presence of plug paper action：

(E3) start paper transport device

Continuous k sensing data d is obtained by 2 infrared range-measurement systems on the inside of plug paper mouth₃₁、d₃₂……d_3k, d₄₁、d₄₂……d _4k, In conjunction with above-mentioned sheet detecting threshold values d_S, the identifier J with the presence or absence of plug paper action can be obtained by following formula₃₄, when inside detects J when having paper₃₄It is 1：

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For 1 and J₃₄When being -1, start paper transport device；

(E4) start paper piling device

J in conjunction with obtained by above-mentioned calculating₁₂And J₃₄, work as J₁₂For -1 and J₃₄When being 1, start paper piling device；

(E5) transmission data

After completing above-mentioned paper stacking action, following serial port command is sent from paper feeder to on-board controller：

When on-board controller receives the serial port command, this paper number is put into and has added 1.