CN103434276A

CN103434276A - Multi-standard printing equipment

Info

Publication number: CN103434276A
Application number: CN2013102912591A
Authority: CN
Inventors: 田薇; 张棋; 周建国; 李文
Original assignee: Industrial and Commercial Bank of China Ltd ICBC
Current assignee: Industrial and Commercial Bank of China Ltd ICBC
Priority date: 2013-07-11
Filing date: 2013-07-11
Publication date: 2013-12-11
Anticipated expiration: 2033-07-11
Also published as: CN103434276B

Abstract

The invention provides a set of multi-standard printing equipment. The multi-standard printing equipment comprises a communication interface, a data storage chip, a central control device, paper storage devices, a paper feeding device and a printing device. The communication interface is used for receiving a printing instruction of a user and transmitting the instruction to the central control device. The data storage chip is used for storing the corresponding relation between each paper storage device and each printing paper standard. The central control device is used for determining the target paper storage device according to the printing paper standards contained in the printing instruction of the user and the corresponding relation between each paper storage device and each printing paper standard, sending a paper discharging instruction to the target paper storage device, sending a paper feeding instruction to the paper feeding device and sending printing information contained in the printing instruction of the user to the printing device. Each paper storage device is used for storing printing paper with a set standard and outputting the printing paper to the paper feeding device when receiving the paper discharging instruction. The paper feeding device is used for receiving the printing paper from the target paper storage device when receiving the paper feeding instruction and conveying the paper to the printing device. The printing device is used for receiving the printing information and printing the printing information onto the printing paper conveyed by the paper feeding device. The multi-standard printing equipment can automatically feed the paper and support printing of vouchers or receipts with multiple standards and has the advantages of being high in automation degree and working efficiency, low in error rate and the like.

Description

Multi-standard printing equipment

Technical Field

The invention relates to the technical field of printing, in particular to multi-system printing equipment.

Background

With the rapid development of information technology, more and more business types need to be handled by information systems in various industries, and correspondingly, the types of printed paper or business certificates of different systems are increased, which brings pressure to daily management and rapid service of the certificates and documents for clients.

The traditional processing method is that an operator inputs different operation instructions according to the business requirements of a client, after corresponding business transactions are processed through an information system, paper or business certificates (such as various invoices, receipts, deposit notes, bookkeeping certificates, checks and the like) of corresponding systems are manually selected and placed in a printer to complete the printing function, and finally business processing is completed. However, this method has the disadvantages of time consumption, low efficiency, and easy error, such as: at present, printers used in most industries have two paper feeding modes, one mode is manual paper feeding, and the other mode is automatic paper feeding; the printer adopting the manual paper feeding mode generally adopts a flat push paper feeding mode, namely, an operator holds a certificate and a bill and directly feeds the certificate and the bill into a paper feeding port of the printer, the printer drives a motor after detecting the paper, a printing medium is fed into the printer for printing, and the paper is withdrawn after the printing is finished, so that the operator needs to manually confirm the type of the certificate to be used according to the type of the service when the operator prints the service, and the operator manually feeds the certificate to the printer for printing, thereby easily generating errors; particularly, when a business uses various certificates of different types, the certificates need to be put into the business one by one in a manual mode, and the efficiency is very low; the printer adopting the automatic paper supply mode prints by adopting a continuous paper feeding mode, but the printer can only support certificates or documents of one system each time, and can only manually replace the mode of printing certificate paper when multiple types of certificates are required, so that the printer is not suitable for processing the printing processing requirements of multiple types of certificates; in addition, some units are standard services, generally require that an operator cannot place business certificates, documents and the like on a desktop at will, and must place the business certificates, documents and the like in a drawer, a desk cabinet or a certificate box, so that the operator must manually pick up the certificates or the documents according to business types during business processing and then place the certificates or the documents in a printer for printing, thereby causing the problems of time consumption, low service efficiency, high manual error rate and the like, and simultaneously bringing about the difficulty of reasonably placing dozens of certificates and documents.

In order to solve the problem, a mode that one computer is connected with a plurality of printers, and each printer respectively processes different types of certificates is adopted in some industries.

In summary, a technology capable of automatically feeding paper and supporting printing of multiple formats of vouchers or documents is lacking at present, so as to solve the problems of low automation degree, high error rate and the like of the current technology for printing the vouchers or documents of multiple formats.

Disclosure of Invention

The embodiment of the invention mainly aims to provide a multi-system printing device, and provides a technology for automatically feeding paper and supporting printing of multiple types of certificates or documents.

In order to achieve the above object, an embodiment of the present invention provides a multi-system printing apparatus including: the printing device comprises a communication interface, a data storage chip, a central control device, a plurality of paper storage devices, a paper feeding device and a printing device; wherein,

the communication interface is used for receiving a user printing instruction and transmitting the user printing instruction to the central control device; the user printing instruction comprises a printing paper system, a printing page number and printing information;

the data storage chip is used for storing the corresponding relation between each paper storage device and the printing paper system;

the central control device is respectively connected with the communication interface, the data storage chip, the paper storage device, the paper feeding device and the printing device; the system comprises a target paper storage device, a paper feeding device and a printing device, wherein the target paper storage device is determined according to a printing paper system contained in the user printing instruction and the corresponding relation between each paper storage device and the printing paper system, sends a paper discharging instruction to the target paper storage device, sends a paper feeding instruction to the paper feeding device and sends printing information contained in the user printing instruction to the printing device;

the paper storage device is connected with the paper feeding device and used for storing printing paper with a set system and outputting the printing paper to the paper feeding device when receiving the paper discharging command;

the paper feeding device is connected with the printing device and is used for receiving printing paper from the target paper storage device and transmitting the printing paper to the printing device when receiving the paper feeding command;

and the printing device is used for receiving the printing information and printing the printing information on the printing paper transmitted by the paper feeding device.

By means of the technical scheme, the storage of printing paper of various different types is realized through the plurality of paper storage devices, the mode that the plurality of paper storage devices share the same printing device is adopted, the target paper storage device used for current printing in the plurality of paper storage devices is determined according to a printing instruction of a user, and then the printing paper output by the target paper storage device is transmitted to the printing device through the paper feeding device, so that the automatic paper feeding technology is realized and the printing technology of certificates or receipts of various systems is supported; compared with the prior art, the automatic control system has the advantages of high automation degree, high working efficiency, low error rate and the like.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a multi-system printing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a distribution structure of a paper feeding device, a paper storage device and a printing device according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a distribution structure of another paper feeding device, paper storage device and printing device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a paper feeding device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another paper feeding device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a paper storage device according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a specification adjusting mechanism according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a printing system according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

The present embodiment provides a multi-system printing apparatus, as shown in fig. 1, including: a communication interface 11, a data storage chip 12, a central control device 13, a plurality of paper storage devices 14, a paper feeding device 15 and a printing device 16; wherein,

the communication interface 11 is used for receiving a user printing instruction and transmitting the user printing instruction to the central control device 13; the user printing instruction comprises a printing paper system, a printing page number and printing information;

the data storage chip 12 is used for storing the corresponding relation between each paper storage device 14 and the printing paper system;

the central control device 13 is respectively connected with the communication interface 11, the data storage chip 12, the paper storage device 14, the paper feeding device 15 and the printing device 16; the printer is used for determining a target paper storage device 14 according to the printing paper system contained in the user printing instruction and the corresponding relation between each paper storage device 14 and the printing paper system, sending a paper output command to the target paper storage device 14, sending a paper feeding command to the paper feeding device 15, and sending printing information contained in the user printing instruction to the printing device 16;

the paper storage device 14 is connected to the paper feeding device 15, and is used for storing printing paper with a set system and outputting the printing paper to the paper feeding device 15 when receiving the paper output command;

the paper feeding device 15 is connected to the printing device 16, and is configured to receive printing paper from the target paper storage device 14 when receiving the paper feeding command, and transmit the printing paper to the printing device 16;

the printing device 16 is configured to receive the printing information and print the printing information onto the printing paper conveyed by the paper feeding device 15.

In this embodiment, the multi-system printing device is connected to an external service processing terminal/system through the communication interface 11, when a user executes a printing service through the service processing terminal/system, the service processing terminal/system generates a user printing instruction according to the printing service of the user and sends the user printing instruction to the communication interface 11, and then sends the user printing instruction to the central control device 13, and the central control device 13 coordinates each other functional component in the multi-system printing device to work, so as to complete the printing service of the user;

the user printing instruction comprises a printing paper system, a printing page number and information to be printed, wherein the printing paper system is required for completing the printing business of the user, the printing paper system comprises the size of printing paper and preprinted information corresponding to the printing paper, for example, the printing paper can be certificates or documents with different sizes and specifications, and the certificates or documents are printed with information contents in advance before being loaded into the multi-system printing equipment so as to become the certificates or documents corresponding to the specific business;

the paper storage devices 14 are used for storing and outputting printing paper, when in use, printing paper of a specific format is stored in each paper storage device 14 according to actual needs, the corresponding relation between each paper storage device 14 and the format of the stored printing paper is stored in the data storage chip 12, for example, all the paper storage devices 14 are numbered, each format of the printing paper is named, and the corresponding relation between the number of each paper storage device 14 and the format name of the stored printing paper is stored in the data storage chip 12.

The multi-system printing apparatus provided in this embodiment adopts a mode in which a plurality of paper storage devices 14 share the same printing device 16, the data storage chip 12 stores the correspondence between each paper storage device 14 and the system of the printing paper stored therein, after the central control device 13 determines the printing paper system required by the current user print job according to the user print instruction, the central control device can determine the paper storage device 14 corresponding to the printing paper system according to the correspondence stored in the data storage chip 12, and determine the paper storage device as the target paper storage device 14 to be output with the printing paper, and then the paper feeding device 15 transfers the printing paper output from the target paper storage device 14 to the printing device 16 for printing.

In this embodiment, the central control device 13 determines the required printing paper format, the number of printing pages, and the printing information by analyzing the printing instruction of the user, and determines the target paper storage device 14 according to the corresponding relationship between each paper storage device 14 and the printing paper format, and further controls the target paper storage device 14 to output the printing paper, controls the paper feeding device 15 to transfer the printing paper output by the target paper storage device 14 to the printing device 16, and sends the printing information to the printing device 16 to complete the printing task of the user, and the whole printing process is performed automatically without requiring the user to manually select the printing paper of the corresponding format or manually inputting the printing paper into the printing device 16, thereby improving the working efficiency, reducing the error rate, and supporting the printing of certificates or documents of multiple formats.

Preferably, in this embodiment, the printing device 16 is disposed directly above or directly below the paper feeding device 15; the plurality of paper storage devices 14 are arranged on the side surface of the paper feeding device 15 in a layered manner. As shown in fig. 2, the printing device 16 is provided directly above the paper feeding device 15.

Specifically, in order to realize a mode in which a plurality of paper storage devices 14 share one printing device 16, the multi-system printing apparatus provided in this embodiment adopts a structure in which a plurality of paper storage devices 14 are arranged in layers on the side surface of the paper feeding device 15, and the printing device 16 is arranged directly above or below the paper feeding device 15, as shown in fig. 2, the paper feeding device 15 can receive printing paper from each paper storage device 14 on the side surface thereof and transfer the printing paper to the printing device 16 directly above or below the paper feeding device, thereby completing the transfer operation of the printing paper.

Further, as shown in fig. 3, in this embodiment, two paper storage devices 14 may be disposed on each layer, and the two paper storage devices 14 are symmetrically disposed with respect to the paper feeding device 15, so as to further reduce the size of the multi-system printing apparatus and reduce the occupied space thereof on the basis that a plurality of paper storage devices 14 share one printing device 16.

Preferably, the structure of the paper feeding device 15 in this embodiment may be as shown in fig. 4, and specifically includes: a paper supporting groove 41, an expansion link 42, an expansion driving motor 43, a first paper conveying mechanism 44, a first paper conveying driving motor 45 and a paper feeding port detector 46; wherein,

the telescopic driving motor 43 is connected with the central control device 13 and is used for starting when receiving a paper feeding command sent by the central control device 13;

the telescopic rod 42 is connected with the telescopic driving motor 43 and extends or retracts under the driving of the telescopic driving motor 43;

the paper supporting groove 41 is of a groove-shaped structure for supporting printing paper, is fixedly connected to one end of the telescopic rod 42, and is perpendicular to the moving plane of the telescopic rod 42; when the telescopic rod 42 extends or contracts, the paper supporting groove 41 is driven to move, so that the paper supporting groove 41 is horizontally aligned with the target paper storage device 14 and receives printing paper output by the target paper storage device 14;

the paper feed port detector 46 is fixed on the paper support slot 41 and is used for starting the first paper feed driving motor 45 when detecting that the paper support slot 41 is horizontally aligned with the paper feed port of the printing device 16;

the first paper feeding mechanism 44 is fixed to the paper supporting slot 41, and is configured to output the printing paper in the paper supporting slot 41 to a paper feeding port of the printing apparatus 16 under the driving of the first paper feeding driving motor 45.

Specifically, after the central control device 13 determines the target paper storage device 14, the paper feeding device 15 needs to be controlled to reach the target paper storage device 14 to receive the printing paper, and then the paper feeding device 15 is controlled to deliver the printing paper to the paper inlet of the printing device 16, with the structure of the paper feeding device 15 as shown in fig. 4, the delivering process specifically includes: after the central control device 13 determines the target paper storage device 14, it determines the relative position relationship among the target paper storage device 14, the initial position of the telescopic rod 42, and the paper feeding port of the printing device 16, and generates a paper feeding command, where the paper feeding command includes two items of information, one item is information about the direction and distance of the telescopic rod 42 moving from the initial position to the position of the target paper storage device 14 (hereinafter referred to as the movement information of the first telescopic rod 42), and the other item is information about the direction and distance of the telescopic rod 42 moving from the position of the target paper storage device 14 to the paper feeding port of the printing device 16 (hereinafter referred to as the movement information of the second telescopic rod 42), and then the central control device 13 sends the paper feeding command to the telescopic driving motor 43; the telescopic driving motor 43 is started immediately after receiving a paper feeding command sent by the central control device 13, and drives the telescopic rod 42 to extend or contract for a certain distance according to the movement information of the first telescopic rod 42 contained in the paper feeding command, so that the paper supporting slot 41 fixed at the end of the telescopic rod 42 is horizontally aligned with the target paper storage device 14, and printing paper is received from the target paper storage device 14, and at the moment, the printing paper output by the target paper storage device 14 is positioned in the paper supporting slot 41; after the printing paper is received, the telescopic driving motor 43 drives the telescopic rod 42 to extend or contract for a certain distance according to the moving information of the second telescopic rod 42 contained in the paper feeding command, so that the paper supporting groove 41 fixed at the end of the telescopic rod 42 is horizontally aligned with the paper feeding port of the printing device 16; a paper feed port detector 46 fixed to the paper support groove 41 for detecting whether the paper support groove 41 is horizontally aligned with the paper feed port of the printing apparatus 16, and when the alignment is detected, starting the first paper feed drive motor 45; the first paper feed driving motor 45 drives the first paper feed mechanism 44 to start operation; the printing paper in the paper tray 41 is conveyed into a paper feed port of the printing apparatus 16 by the first paper feed mechanism 44.

The structure of the first paper feeding mechanism 44 is not particularly limited in this embodiment, and may be any structure having a function of transferring the printing paper in the paper tray 41 to the paper feeding port of the printing apparatus 16, for example, a paper feeding structure of a printer, which is commonly used at present and includes a paper feeder, a paper feeding roller, a paper guide roller, a paper pickup roller, a paper tray, and the like, may be adopted.

Preferably, the structure of the paper feeding device 15 in this embodiment may also be as shown in fig. 5, and specifically includes: a paper supporting groove 51, a conveyor 52, a first paper conveying mechanism 53, a first paper conveying driving motor 54, and a paper feeding port detector 55; wherein,

the conveyor 52 is connected with the central control device 13 and is used for starting when receiving a paper feeding command sent by the central control device 13;

the paper supporting groove 51 is of a groove-shaped structure for supporting printing paper, is fixedly connected to a conveying belt of the conveyor 52, and is perpendicular to a moving plane of the conveying belt; when the conveyor belt moves, the paper supporting groove 51 is driven to move, so that the paper supporting groove 51 is horizontally aligned with the target paper storage device 14 and receives printing paper output by the target paper storage device 14;

the paper feed port detector 55 is fixed on the paper support slot 51, and is configured to start the first paper feed driving motor 54 when detecting that the paper support slot 51 is horizontally aligned with the paper feed port of the printing apparatus 16;

the first paper feeding mechanism 53 is fixed to the paper supporting slot 51, and is configured to output the printing paper in the paper supporting slot 51 to a paper feeding port of the printing apparatus 16 under the driving of the first paper feeding driving motor 54.

Specifically, after the central control device 13 determines the target paper storage device 14, the paper feeding device 15 needs to be controlled to reach the target paper storage device 14 to receive the printing paper, and then the paper feeding device 15 is controlled to deliver the printing paper to the paper inlet of the printing device 16, with the structure of the paper feeding device 15 as shown in fig. 5, the delivering process specifically includes: after the central control device 13 determines the target paper storage device 14, the central control device 13 determines the relative position relationship among the target paper storage device 14, the initial position of the conveyor belt and the paper feeding port of the printing device 16, and generates a paper feeding command, wherein the paper feeding command includes two items of information, one item is information about the direction and distance of the movement of the conveyor belt from the initial position to the position of the target paper storage device 14 (hereinafter referred to as first conveyor belt movement information), and the other item is information about the direction and distance of the movement of the conveyor belt from the position of the target paper storage device 14 to the paper feeding port of the printing device 16 (hereinafter referred to as second conveyor belt movement information), and then the central control device 13 sends the paper feeding command to the conveyor 52; the conveyor 52 starts immediately after receiving a paper feeding command sent by the central control device 13, and drives the conveyor belt to move a certain distance according to first conveyor belt movement information contained in the paper feeding command, so that the paper supporting groove 51 fixed on the conveyor belt is horizontally aligned with the target paper storage device 14, and printing paper is received from the target paper storage device 14, and at the moment, the printing paper output by the target paper storage device 14 is positioned in the paper supporting groove 51; after receiving the printing paper, the conveyor 52 drives the conveyor belt to move a certain distance according to the second conveyor belt movement information included in the paper feeding command, so that the paper supporting slot 51 fixed on the conveyor belt is horizontally aligned with the paper feeding port of the printing device 16; a paper feed port detector 55 fixed to the paper tray 51 for detecting whether the paper tray 51 is horizontally aligned with the paper feed port of the printing apparatus 16, and when the alignment is detected, the first paper feed drive motor 54 is started; the first paper feed driving motor 54 drives the first paper feed mechanism 53 to start operation; the printing paper in the paper tray 51 is conveyed into a paper feed port of the printing apparatus 16 by the first paper feed mechanism 53.

The structure of the first paper feeding mechanism 53 is not particularly limited in this embodiment, and any structure having a function of transferring the printing paper in the paper tray 51 to the paper feeding port of the printing apparatus 16 may be adopted, for example, a paper feeding structure of a printer, which is currently common and is composed of a paper feeder, a paper feeding roller, a paper guide roller, a paper pickup roller, a paper tray, and the like, may be adopted.

Preferably, the paper feeding device 15 further includes: and the first paper jam detector is used for sending out an alarm signal when detecting that a paper jam problem occurs in the process that the first paper feeding mechanism outputs printing paper to the paper feeding port of the printing device 16.

The structure of the first jam detector is not specifically limited in this embodiment, and may be any structure having a jam detecting function, for example, a structure of a currently common printer jam detecting sensor may be adopted.

Preferably, the structure of the paper storage device 14 in this embodiment may be as shown in fig. 6, and specifically includes: a paper storage bin 61, a paper supporting groove detector 62, a gate driving motor 63, a rotary gate 64, a second paper conveying driving motor 65 and a second paper conveying mechanism 66; wherein,

the paper storage bin 61 is a bin-shaped structure for storing printing paper;

the rotary gate 64 is arranged on the paper storage bin 61, is connected with the gate driving motor 63, and is driven by the gate driving motor 63 to open or close; the rotary shutter 64 is parallel to the moving plane of the paper supporting slot in the closed state, and is perpendicular to the moving plane of the paper supporting slot in the open state;

the paper supporting groove detector 62 is arranged outside the paper storage bin 61, is connected with the gate driving motor 63, and is used for starting the gate driving motor 63 when detecting that the paper supporting groove is horizontally aligned with the rotary gate 64;

the second paper feeding driving motor 65 is connected with the central control device 13 and the second paper feeding mechanism 66, and is used for starting when receiving a paper discharging command sent by the central control device 13;

the second paper feeding mechanism 66 is disposed inside the paper storage 61, and is configured to output the printing paper stored in the paper storage 61 to the paper receiving slot through the opened rotary shutter 64 under the driving of the second paper feeding driving motor 65.

Specifically, after the central control device 13 determines the target paper storage device 14, it is necessary to control the target paper storage device 14 to output printing paper to the paper feeding device 15, each paper storage device 14 may become the target paper storage device 14, and each paper storage device 14 has functions of storing printing paper and outputting printing paper to the paper feeding device 15, when in use, a user loads printing paper of various systems into the paper storage bin 61 of each paper storage device 14 according to actual needs, and the structure shown in fig. 5 is utilized for each paper storage device 14, and the working principle is as follows: after the central control device 13 determines the target paper storage device 14, firstly, the paper feeding device 15 is controlled to move to the target paper storage device 14, so that the paper supporting slot is horizontally aligned with the rotary gate 64 of the target paper storage device 14; the paper supporting slot detector 62 is used for detecting whether the paper supporting slot is horizontally aligned with the rotary gate 64 or not, and after the alignment is detected, the gate driving motor 63 is started; the shutter driving motor 63 drives the rotary shutter 64 to open as an output path of the printing paper; meanwhile, the central control device 13 generates a paper output command according to the user print instruction, the paper output command including information of the number of printed pages required to complete the user print job, and then the central control device 13 transmits the paper output command to the second paper feed driving motor 65 of the target paper storage device 14; the second paper feeding driving motor 65 is started immediately after receiving the paper discharging command, and drives the second paper feeding mechanism 66 to work according to the information of the number of printed pages contained in the paper discharging command; the second paper feed mechanism 66 feeds out one or more sheets of printing paper in the paper hopper 61 to the paper catch tray according to the number of printed pages.

The structure of the second paper feeding mechanism 66 in this embodiment is not particularly limited, and any structure having a function of outputting the printing paper in the paper storage 61 to the paper supporting slot may be adopted, for example, a paper feeding structure of a printer, which is composed of a paper feeder, a paper feeding roller, a paper guiding roller, a paper pickup roller, a paper supporting frame, and the like, which is commonly used at present.

In view of the fact that the types of documents or vouchers used in various industries are various and the sizes of the documents are different, it is preferable that the present embodiment is designed such that all the paper storage devices 14 have paper storage bins with the same space size, but a size adjusting mechanism is installed inside the paper storage bins, and the space for storing printing paper in the paper storage bins can be adjusted by the size adjusting mechanism so as to adapt to printing paper with different sizes.

The present embodiment does not limit the specific structure of the specification adjusting mechanism, and for example, the specification adjusting mechanism may adopt a structure as shown in fig. 7, including: the sliding rail 71 fixed at the bottom of the paper storage bin, the first corner piece 72 fixedly connected to the side wall of the paper storage bin and perpendicular to the first sliding rail 71, and the second corner piece 73 capable of sliding on the sliding rail 71 are arranged, and the distance between the first corner piece 72 and the second corner piece 73 is changed by sliding the second corner piece 73, so that the space for storing printing paper in the paper storage bin is adjusted to adapt to the printing paper with different specifications and sizes.

Preferably, the paper storage device 14 further comprises: and the second paper jam detector is used for sending out an alarm signal when detecting that the second paper conveying mechanism outputs printing paper to the paper supporting groove and a paper jam problem occurs in the process of the second paper conveying mechanism outputting the printing paper to the paper supporting groove.

The second jam detector of this embodiment is not particularly limited in structure, and may be any structure having a jam detecting function, for example, a structure of a currently common printer jam detecting sensor may be adopted.

Preferably, the paper storage device 14 further comprises: and the paper quantity reminding mechanism is used for detecting the quantity of printing paper stored in the paper storage bin and sending out an alarm signal when the detection result is less than the set quantity.

The structure of the paper quantity reminding mechanism is not specifically limited in this embodiment, for example, the paper quantity reminding mechanism may be composed of an electronic counter and an alarm, when in operation, the electronic counter determines the number of printing papers remaining in the paper storage bin according to the number of printing papers initially loaded in the paper storage bin and the number of printing papers output in the use process, and when it is determined that the number of printing papers remaining in the paper storage bin is smaller than the preset number, the alarm is triggered to send an alarm signal to remind a user to add printing papers; or, the paper quantity reminding mechanism can be composed of a displacement sensor and an alarm, the displacement sensor is used for detecting the thickness of printing paper in the paper storage bin during working, and when the detected thickness is smaller than the preset pressure, the alarm is triggered to send out an alarm signal to remind a user of adding printing paper. In specific implementation, the alarm preferably adopts an alarm device capable of sending different alarm signals according to different paper storage devices 14 so as to prompt a user which paper storage device 14 lacks printing paper, so as to provide convenience for the user to determine which type of printing paper should be added, for example, the alarm device can send different sounds according to different paper storage devices 14, or the alarm device can display different text alarm information according to different paper storage devices 14.

Preferably, the paper storage device 14 further comprises: and the electronic coded lock is used for locking the paper storage bin to ensure the safety of printing paper.

In particular, considering that some printing papers have special importance, such as certificates or documents commonly used in the industries of banking, tax and the like, an electronic password lock can be added in the paper storage device 14 to perform locking management on the paper storage device 14 for storing such printing papers, so as to ensure the safety of the important printing papers.

In addition, the central control device 13 can be further configured to record the initial storage quantity of the printing paper, the quantity of the printing paper used by each printing service, and the execution time in detail, and store the recording data into the data storage chip 12, so that the user can manage and use the printing paper later, and the security of the printing paper is further ensured.

Preferably, the multi-system printing apparatus provided in this embodiment further includes: and the edge grinding device is used for carrying out edge grinding treatment on the printing paper with the cost to enable the printing paper to be a single piece of printing paper.

Specifically, for the cost-bound printing paper, before the printing paper is put into the paper storage device 14, the edge grinding device is used to grind the cost-bound printing paper, so that the printing paper can be stored in the paper storage device 14 in a single sheet form.

Preferably, the multi-system printing apparatus provided in this embodiment further includes: an information input device and a display device.

Specifically, the information input device is a device for providing a function of setting relevant parameters for the multi-system printing device by a user, and may be, for example, a button, a light pen, a keyboard, a touch screen, or the like; the display device is a device that provides functions of displaying input information of a user, user print service information, alarm information of each functional component, and the like, and may be, for example, a liquid crystal display, a touch panel, or the like.

The multi-system printing device provided by this embodiment can realize an automatic paper feeding function, and also support a manual paper feeding mode, for example, for some certificates or documents with a very small usage amount, if a paper storage device is used alone to store printing paper of such certificates or documents, the device will occupy space resources, and for such certificates or documents, the printing can be completed by using the manual paper feeding mode.

Example two

As shown in fig. 8, the printing system corresponding to this embodiment includes a bank counter terminal device 81 and a multi-system printing device 82, where the multi-system printing device 82 is connected to the bank counter terminal device 81 through a communication interface thereof.

The following description will be made by taking the example of using the printing system when the bank teller performs the account opening business: the user printing service is to print a blank voucher, a deposit receipt voucher and a bookkeeping voucher which are needed by the account opening service; in the multi-system printing apparatus 82, a blank voucher is identified by the system name N _1 and stored in the paper storage device numbered 1001; the deposit receipt is marked by the system name N _2 and is stored in a paper storage device with the number of 1002; the accounting voucher is marked with the standard name of N _3 and is stored in a paper storage device with the number of 1003; the deposit receipt voucher is an important type voucher, the paper storage device with the number of 1002 is provided with an electronic coded lock, and the number of the initially stored deposit receipt vouchers is 5.

The specific working process and principle of executing the account opening business printing by using the printing system shown in fig. 8 are as follows:

in step SS01, the counter terminal 81 generates a corresponding user print instruction (hereinafter referred to as user print instruction No. 1) according to the relevant customer information (such as customer name, identification number, business transaction name, etc.) and the operation command for printing the blank certificate, which are input by the bank teller, where the user print instruction No. 1 includes the following information: the printing paper mode is blank voucher, the number of printing pages is 1 page, and the printing information is related customer information, and then the bank counter terminal device 81 sends the printing instruction of the number 1 user to the communication interface of the multi-mode printing device 82;

step SS02, the communication interface sends the No. 1 user printing instruction to the central control device; the central control device analyzes the printing instruction of the number 1 user, determines that a printing paper system corresponding to the printing task is a blank voucher with the system name of N _1, and then determines that the serial number corresponding to the target paper storage device is 1001 according to the corresponding relation stored in the data storage chip;

step SS03, the central control device generates a paper feeding command (hereinafter referred to as a No. 1 paper feeding command) according to the position of the paper storage device with the number of 1001, the initial position of the paper feeding device (specifically, the initial position of the telescopic rod or the initial position of the conveyor belt) and the position of the paper feeding port of the printing device, wherein the No. 1 paper feeding command includes information such as the moving direction and distance of the paper feeding device (specifically, the moving direction and distance of the telescopic rod or the conveyor belt), and sends the paper feeding command to the paper feeding device;

the central control device generates a paper output command (hereinafter referred to as a paper output command No. 1) according to a printing instruction of a user No. 1, wherein the paper output command No. 1 comprises information of outputting 1 blank certificate, and sends the paper output command to the paper storage device with the serial number of 1001;

the central control device sends the printing information corresponding to the printing task to the printing device according to the printing instruction of the No. 1 user;

step S04, after receiving the paper feeding command No. 1, the paper feeding device moves to the paper storage device with the serial number of 1001 according to the command, at this time, in the paper storage device with the serial number of 1001, the paper supporting groove detector detects that the paper supporting groove is horizontally aligned with the rotary gate, the gate driving motor is started, and then the rotary gate is driven to be opened, meanwhile, the second paper conveying driving motor is started under the triggering of the paper discharging command No. 1, and the second paper conveying mechanism is driven to output 1 blank certificate to the paper supporting groove; then, the gate driving motor drives the rotary gate to close;

step S05, the paper feeding device continues to move to the printing device according to the No. 1 paper feeding command, at the moment, the paper feeding port detector of the paper feeding device detects that the paper supporting groove is horizontally aligned with the paper feeding port of the printing device, and triggers the first paper feeding driving motor to start, so as to drive the first paper feeding mechanism to output the blank voucher in the paper supporting groove to the paper feeding port of the printing device; then, the paper feeding device returns to its initial position;

step S06, the printing device prints the blank voucher received by the paper feeding port according to the printing information sent by the central control device;

in step SS07, the counter terminal 81 generates a corresponding user print instruction (hereinafter referred to as user print instruction No. 2) according to the relevant customer information (such as the types of the regular deposit receipt and the current deposit receipt) input by the teller and the operation command for printing the deposit receipt voucher, where the user print instruction No. 2 includes the following information: the printing paper mode is deposit receipt voucher, the number of printing pages is 1 page, and the printing information is related customer information, and then the bank counter terminal device 81 sends the user printing instruction No. 2 to the communication interface of the multi-mode printing device 82;

step SS08, the communication interface sends the user print instruction No. 2 to the central control device; the central control device analyzes the printing instruction of the No. 2 user, determines that the printing paper mode corresponding to the printing task is a deposit receipt certificate and the mode name is N _2, and then determines the number corresponding to the target paper storage device to be 1002 according to the corresponding relation stored in the data storage chip;

step SS09, the central control device generates a paper feeding command (hereinafter referred to as a No. 2 paper feeding command) according to the position of the paper storage device with the number 1002, the initial position of the paper feeding device (specifically, the initial position of the telescopic rod or the initial position of the conveyor belt) and the position of the paper feeding port of the printing device, wherein the No. 2 paper feeding command includes information such as the moving direction and distance of the paper feeding device (specifically, the moving direction and distance of the telescopic rod or the conveyor belt), and sends the paper feeding command to the paper feeding device;

the central control device generates a paper output command (hereinafter referred to as a paper output command No. 2) according to a printing instruction of a user No. 2, wherein the paper output command No. 2 comprises information of outputting 2 deposit receipt certificates, and sends the paper output command to the paper storage device with the number of 1002;

the central control device sends the printing information corresponding to the printing task to the printing device according to the No. 2 user printing instruction;

step S10, after receiving the paper feeding command No. 2, the paper feeding device moves to the paper storage device with the number of 1002 according to the command, at this time, in the paper storage device with the number of 1002, the paper supporting groove detector detects that the paper supporting groove is horizontally aligned with the rotary gate, the gate driving motor is started, and then the rotary gate is driven to be opened, meanwhile, the second paper conveying driving motor is started under the triggering of the paper discharging command No. 2, and the second paper conveying mechanism is driven to output 1 deposit receipt voucher to the paper supporting groove; then, the gate driving motor drives the rotary gate to close, and the central control device records the number of pages and the execution time of the voucher output by the printing task because the voucher is an important type voucher;

step S11, the paper feeding device continues to move to the printing device according to the No. 2 paper feeding command, at the moment, the paper feeding port detector of the paper feeding device detects that the paper supporting groove is horizontally aligned with the paper feeding port of the printing device, and triggers the first paper conveying driving motor to start, so as to drive the first paper conveying mechanism to output the deposit receipt in the paper supporting groove to the paper feeding port of the printing device; then, the paper feeding device returns to its initial position;

step S12, the printing device prints the deposit receipt received by the paper feeding port according to the printing information sent by the central control device;

in step SS13, the counter terminal 81 generates a corresponding user print instruction (hereinafter referred to as user print instruction No. 3) according to the relevant customer information (such as customer name, identification number, business transaction name, etc.) and the operation command of printing the accounting voucher, which are input by the bank teller, where the user print instruction No. 3 includes the following information: the printing paper mode is accounting voucher, the number of printing pages is 1 page, and the printing information is related customer information, and then the bank counter terminal device 81 sends the user printing instruction No. 3 to the communication interface of the multi-mode printing device 82;

step SS14, the communication interface sends the No. 3 user printing instruction to the central control device; the central control device analyzes the No. 3 user printing instruction, determines a printing paper system corresponding to the printing task as an accounting voucher with the system name of N _1, and then determines the number 1003 corresponding to the target paper storage device according to the corresponding relation stored in the data storage chip;

step SS15, the central control device generates a paper feeding command (hereinafter referred to as a No. 3 paper feeding command) according to the position of the paper storage device with the number of 1003, the initial position of the paper feeding device (specifically, the initial position of the telescopic rod or the initial position of the conveyor belt) and the position of the paper feeding port of the printing device, wherein the No. 3 paper feeding command includes information such as the moving direction and distance of the paper feeding device (specifically, the moving direction and distance of the telescopic rod or the conveyor belt), and sends the paper feeding command to the paper feeding device;

the central control device generates a paper output command (hereinafter referred to as a paper output command No. 3) according to a printing instruction of a user No. 3, wherein the paper output command No. 3 comprises information of 1 bookkeeping voucher to be output, and the paper output command is sent to the paper storage device with the serial number of 1003;

the central control device sends the printing information corresponding to the printing task to the printing device according to the No. 3 user printing instruction;

step S16, after receiving the paper feeding command No. 3, the paper feeding device moves to the paper storage device with the serial number of 1003 according to the command, at this time, in the paper storage device with the serial number of 1003, the paper supporting groove detector detects that the paper supporting groove is horizontally aligned with the rotary gate, the gate driving motor is started, the rotary gate is driven to be opened, meanwhile, the second paper conveying driving motor is started under the triggering of the paper discharging command No. 3, and the second paper conveying mechanism is driven to output 1 bookkeeping voucher to the paper supporting groove; then, the gate driving motor drives the rotary gate to close;

step S17, the paper feeding device continues to move to the printing device according to the No. 3 paper feeding command, at the moment, the paper feeding port detector of the paper feeding device detects that the paper supporting groove is horizontally aligned with the paper feeding port of the printing device, and triggers the first paper feeding driving motor to start, so as to drive the first paper feeding mechanism to output the accounting voucher in the paper supporting groove to the paper feeding port of the printing device; then, the paper feeding device returns to its initial position;

step S18, the printing device prints the accounting voucher received by the paper feeding port according to the printing information sent by the central control device;

and step S19, finally completing the printing tasks of the blank voucher, the deposit voucher and the accounting voucher required by the account opening service.

In this embodiment, the bank counter terminal device 81 may respectively issue the user print instruction No. 1, the user print instruction No. 2, and the user print instruction No. 3 to respectively complete the print tasks of the blank voucher, the deposit voucher, and the bookkeeping voucher, and may also integrate the three user print instructions into one user print instruction to be sent to the multi-system printing device 82, where the integrated user print instruction specifically includes information that needs to be continuously printed for 3 times, so that the multi-system printing device 82 determines whether to complete all the print tasks by determining whether the accumulated print times is equal to 3, for example, after the multi-system printing device 82 completes printing the blank voucher, it determines that all the print tasks are not completed, and the deposit voucher needs to be continuously printed; similarly, after printing the deposit receipt voucher, if the accumulated number of prints is determined to be 2, it is determined that all print jobs have not been completed and printing of the accounting voucher is to be continued.

The printing system provided by the embodiment can automatically complete the printing of the certificates of different systems due to the application of the multi-system printing equipment 82, thereby avoiding the work of manually selecting and inputting the certificates by a bank teller, reducing the error rate, shortening the execution time of the printing tasks required by banking business transactions, providing a reasonable placing space for up to dozens of different systems of certificates, and improving the customer service efficiency and the service quality.

In summary, the multi-system printing apparatus provided by the embodiment of the present invention has the following beneficial effects:

(1) supporting the printing of certificates or documents of various systems;

(2) the paper feeding is automatically finished, so that the manual work of selecting and inputting the certificate by a bank teller is avoided, and the error rate is reduced;

(3) the printing time is shortened, and the working efficiency is improved;

(4) providing convenience for reasonably placing the certificate.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A multi-system printing apparatus, comprising: the printing device comprises a communication interface, a data storage chip, a central control device, a plurality of paper storage devices, a paper feeding device and a printing device; wherein,

2. The multi-system printing apparatus according to claim 1,

the printing device is arranged right above or right below the paper feeding device;

the paper storage devices are arranged on the side face of the paper feeding device in a layered and lined mode.

3. The multi-system printing apparatus according to claim 2, wherein the paper feeding device specifically comprises: the paper feeding device comprises a paper supporting groove, a telescopic rod, a telescopic driving motor, a first paper conveying mechanism, a first paper conveying driving motor and a paper feeding port detector; wherein,

the telescopic driving motor is connected with the central control device and is used for starting when receiving a paper feeding command sent by the central control device;

the telescopic rod is connected with the telescopic driving motor and extends out or retracts under the driving of the telescopic driving motor;

the paper supporting groove is of a groove-shaped structure for supporting printing paper, is fixedly connected to one end of the telescopic rod and is perpendicular to the moving plane of the telescopic rod; when the telescopic rod extends or contracts, the paper supporting groove is driven to move, so that the paper supporting groove is horizontally aligned to the target paper storage device and receives printing paper output by the target paper storage device;

the paper feeding port detector is fixed on the paper supporting groove and used for starting the first paper conveying driving motor when detecting that the paper supporting groove is horizontally aligned with the paper feeding port of the printing device;

the first paper conveying mechanism is fixed on the paper supporting groove and used for outputting printing paper in the paper supporting groove to a paper feeding opening of the printing device under the driving of the first paper conveying driving motor.

4. The multi-system printing apparatus according to claim 2, wherein the paper feeding device specifically comprises: the paper feeding device comprises a paper supporting groove, a conveyor, a first paper conveying mechanism, a first paper conveying driving motor and a paper feeding port detector; wherein,

the conveyor is connected with the central control device and is used for starting when receiving a paper feeding command sent by the central control device;

the paper supporting groove is of a groove-shaped structure for supporting printing paper, is fixedly connected to a conveying belt of the conveyor and is perpendicular to the moving plane of the conveying belt; when the conveyor belt moves, the paper supporting groove is driven to move, so that the paper supporting groove is horizontally aligned with the target paper storage device and receives printing paper output by the target paper storage device;

5. The multi-system printing apparatus according to claim 3 or 4, wherein the paper feeding device further comprises: and the first paper jam detector is used for sending out an alarm signal when detecting that the first paper feeding mechanism outputs printing paper to the paper inlet of the printing device and a paper jam problem occurs.

6. The multi-system printing apparatus according to claim 3 or 4, wherein the paper storage device comprises: the paper storage bin, the paper supporting groove detector, the gate driving motor, the rotary gate, the second paper conveying driving motor and the second paper conveying mechanism; wherein,

the paper storage bin is of a bin-shaped structure for storing printing paper;

the rotary gate is arranged on the paper storage bin, is connected with the gate driving motor and is driven by the gate driving motor to open or close; the rotary gate is parallel to the moving plane of the paper supporting groove in a closed state, and is vertical to the moving plane of the paper supporting groove in an open state;

the paper supporting groove detector is arranged on the outer side of the paper storage bin, is connected with the gate driving motor and is used for starting the gate driving motor when detecting that the paper supporting groove is horizontally aligned with the rotary gate;

the second paper conveying driving motor is connected with the central control device and the second paper conveying mechanism and is used for starting when receiving a paper outlet command sent by the central control device;

the second paper feeding mechanism is arranged in the paper storage bin and used for outputting printing paper stored in the paper storage bin to the paper supporting groove through the opened rotary gate under the driving of the second paper feeding driving motor.

7. The multi-system printing apparatus according to claim 6, wherein the paper storage device further comprises: and the specification adjusting mechanism is arranged in the paper storage bin and is used for adjusting the size of printing paper stored in the paper storage bin.

8. The multi-system printing apparatus according to claim 6, wherein the paper storage device further comprises: and the second paper jam detector is used for sending out an alarm signal when detecting that the second paper conveying mechanism outputs printing paper to the paper supporting groove and a paper jam problem occurs in the process of the second paper conveying mechanism outputting the printing paper to the paper supporting groove.

9. The multi-system printing apparatus according to claim 6, wherein the paper storage device further comprises: and the paper quantity reminding mechanism is used for detecting the quantity of printing paper stored in the paper storage bin and sending out an alarm signal when the detection result is less than the set quantity.

10. The multi-system printing apparatus according to claim 6, wherein the paper storage device further comprises: and the electronic coded lock is used for locking the paper storage bin to ensure the safety of printing paper.

11. The multi-system printing apparatus according to claim 1, further comprising: and the edge grinding device is used for carrying out edge grinding treatment on the printing paper with the cost to enable the printing paper to be a single piece of printing paper.

12. The multi-system printing apparatus according to claim 1, further comprising: an information input device and a display device.