CN111301021A - Jet printing method and jet printing system for implementing same - Google Patents

Abstract

The invention relates to a jet printing method and a jet printing system for implementing the method. In particular to a jet printing method used in the field of logistics and a jet printing system for implementing the method. The jet printing method comprises the following steps: and the server terminal is communicated and interacted in real time, acquires information to be jet printed, jet prints and checks jet print images, selectively sends out a prompt in real time, and starts correction jet printing. The jet printing system comprises a first processor, a jet printing device, a recognition device and a controller. The spray printing system and the spray printing method are applied to the field of logistics, can quickly and conveniently spray print logistics waybill information or pictures corresponding to the logistics waybill information or the pictures to the packing box or the packing bag, can directly reduce or omit materials such as waybill paper, adhesive tapes or viscose, and reduce cost and environmental burden; through other conventional equipment such as a positioning device in the combined logistics, the operation efficiency of goods sorting and tracking can be improved, and the labor intensity of logistics practitioners is reduced.

Description

Jet printing method and jet printing system for implementing same

Technical Field

The invention relates to a jet printing method and a jet printing system for implementing the method. In particular to a jet printing method used in the field of logistics and a jet printing system for implementing the jet printing method.

Background

At present, although electronic waybills are popularized and used in the logistics industry, each electronic waybills consists of three layers, wherein the first layer is thermal printing paper used for information printing; the second layer is made of materials such as coated paper or glassine paper and is used for sticking; the third layer is glassine release paper for isolation. The paper, the barrier adhesive and the back adhesive used by the electronic waybill all contain harmful substances, and a large amount of paper, barrier adhesive and back adhesive used for a long time can bring certain harm to the environment; in addition, the waybill belongs to a disposable consumable, and the usage amount of the waybill in the whole express industry reaches hundreds of billions every year, thereby causing huge environmental burden; if the waybill cannot be degraded in time, a large amount of pollution is generated; the operation of printing and using the waybill is complicated, and a large amount of manual labor is needed. Therefore, there is a need to improve and alleviate this problem with respect to logistics drafts.

Although there is a portable inkjet printer in the prior art, it usually needs a physical storage medium such as a usb disk to store a document, and it is not possible to automatically identify whether the quality of the inkjet print meets the requirement after the inkjet print, and in the process of the inkjet print, it is also necessary to manually adjust the size, definition, and other presentation forms of the inkjet print information such as characters, or identification codes, and the like, and manually check that the already inkjet print information is consistent with the stored document, but it is not possible to implement intelligent intermediate processing operations such as enlarging or reducing the size of the inkjet print information, a representative identifier, and a code conversion inkjet print task, and even it is not possible to directly inkjet print a manifest such as a manifest carrying more specific information on an outer package. In a word, the existing jet printing technology cannot realize the necessary intermediate processing operation of the jet printing task and the intelligent operations of jet printing quality check, jet printing correction and the like.

Disclosure of Invention

In view of the above-mentioned deficiencies and the need for an environmentally friendly development of the prior art, the present application provides, in one aspect, a method of inkjet printing, the method comprising the steps of:

(a) the information to be printed is obtained, the information to be printed is communicably connected and received in real time by the first processor, and is processed into a task to be printed so as to be sent to the printing device;

(b) spraying and printing, starting a spraying and printing device to execute the task to be sprayed and printed; and

(c) and (3) checking the quality of the jet printing image:

when the information displayed or read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, the correction jet printing is started in real time;

and when the information read from the first jet printing image or the corrected jet printing image is consistent with the information to be jet printed or has no difference, finishing the jet printing task.

Further, in the step (a), the first processor is communicably connected to receive the jet printing instruction and the information to be jet printed from the server terminal or the mobile electronic device terminal in real time. The mobile electronic equipment terminal can be any one selected from a smart phone, a notebook computer, a tablet computer or a bargun.

Further, in the step (a), the information to be jet printed is processed into the task to be jet printed by any one of selective amplification, reduction, conversion, encoding or a combination thereof, and the task to be jet printed may include any one of characters, images, bar codes, two-dimensional codes or a combination thereof.

Further, in the step (b), when one inkjet printing task is completed, the step of checking may be performed by capturing a first inkjet printing image by a camera and transmitting the first inkjet printing image to the first processor, where the step of checking includes: when the information displayed or identified and read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, the correction jet printing is started in real time; shooting the image of the correction jet printing; and reading the corrected jet printing image by the reader, and finishing the jet printing task when the image display or the identified information comprising the first jet printing image and the corrected jet printing image is consistent with the information to be jet printed. Further, the identification device may be a scanning device.

Further, in the step (b), the jet printing device starts and executes the correction jet printing task according to the correction instruction.

Further, in the step (c), the checking step further includes a marking step of marking the inconsistent area and then starting the correction jet printing specifically.

Further, the step (c) is processed by a verification module in the first processor.

Further, the checking step in the step (c) may transmit the first jet printing image photographed by the camera to the first processor to perform the checking step.

Further, in the checking step in the step (c), the image or the text in the jet-printed image can be identified by a scanning device, whether the jet-printed image or the text can be identified is read, and whether the identified information is consistent with the original information to be jet-printed.

In another aspect, the present application provides a jet printing system, including:

a first processor comprising at least a storage module and a verification module;

the jet printing device executes primary jet printing and/or correction jet printing;

the recognition device is arranged on the jet printing device and is used for recognizing the image subjected to the first jet printing and selectively starting to shoot the image subjected to the second jet printing; and

and the controller sends out a jet printing instruction, starts the checking and marking of the checking module and sends out a correction jet printing instruction.

Further, the jet printing device can also comprise a display for displaying the task being executed by the system in real time.

Further, the first processor may further include a conversion module, which is configured to selectively enlarge, reduce, or convert the information to be printed into a picture or text in the form of a unique identifier such as a barcode or a two-dimensional code.

Furthermore, the maximum value of the correction jet printing times can be selectively set; when the number of times of execution reaches the maximum value, the image corrected and printed by the jet printing is checked, and if the image is still inconsistent or has a difference value, the task is cancelled. Preferably, the maximum number of corrections is three. Preferably, the maximum value of the correction jet printing is 3, and when the third correction jet printing is completed, the task is cancelled when the images after correction jet printing are still inconsistent or have a difference value after verification; and then the first processor calls the corresponding information to be jet printed, processes the information into a new task to be jet printed and implements jet printing.

Further, the correction jet printing instruction can at least comprise a first correction jet printing instruction, a second correction jet printing instruction and/or a third correction jet printing instruction; accordingly, the correction jet printing comprises a first correction jet printing, a second jet printing and/or a third jet printing.

Further, the correction jet printing can adopt a color different from that of the first jet printing to perform jet printing coverage on a labeling area, wherein the labeling area refers to an area for labeling an inconsistent area in the checking step.

Further, the correction jet printing may be performed by performing full coverage jet printing using a color that is the same as a background color of the jet printing, and performing the correction jet printing using another color that is different from the first jet printing and is different from the background color.

Further, the to-be-jet-printed task is an image or a character which meets a set threshold range, when the to-be-jet-printed information is lower than or higher than the set threshold, the processing unit of the first processor correspondingly enlarges or reduces the to-be-jet-printed information according to a proper proportion, so that the attribute parameters of the processed to-be-jet-printed image are within the set threshold range and are transmitted to the jet printing device as the to-be-jet-printed task.

Furthermore, the same color as the background color of the jet printing is used for carrying out the complete covering jet printing, and other colors different from the first jet printing and the background color are used for correcting the jet printing.

Optionally, the identifying may also be accomplished using the camera and the first processor in cooperation. And when the jet printing is finished each time, the camera timely responds to shoot an image of the first jet printing or the correction jet printing, and transmits the image of the first jet printing to the first processor in real time for checking.

Further, the to-be-jet-printed task is an image or a character which meets a set threshold range, when the to-be-jet-printed information is lower than or higher than the set threshold, the processing unit of the first processor enlarges or reduces the to-be-jet-printed information according to a proper proportion, so that the attribute parameters of the processed to-be-jet-printed image are within the set threshold range and are transmitted to the jet printing device as the to-be-jet-printed task. Further, the threshold range may be resolution, contrast, or pixel, etc.

And after the primary jet printing image or the corrected jet printing image is subjected to the checking step and/or the corrected jet printing, the identified information of the final jet printing image is consistent with the initial information to be jet printed, the jet printing task is finished, and the next jet printing task is performed randomly.

The jet printing method and the jet printing system can also be combined with image recognition and marking algorithms in the field of computer deep learning to perform artificial intelligent recognition, execute verification steps and correct jet printing.

Advantageous effects

The improved jet printing method and the jet printing system thereof provided by the invention have the advantages that the jet printing is carried out by communicating and interacting with other service terminals in real time, obtaining the information to be jet printed, confirming the image condition of the task to be jet printed, checking the jet printing quality, and sending out jet printing correction instructions and corresponding jet printing correction operations in real time. The method and the system can directly spray-print the required information on the specific package or package without directly contacting the sprayed and printed package surface, can also complete information binding and verification in real time, and improve the spray-printing quality and the identification accuracy.

The spray printing system and the spray printing method thereof are applied to the logistics field or the related spray printing field, so that the logistics waybill information or pictures corresponding to the packaging box or the packaging bag can be quickly and conveniently spray printed, the traditional logistics waybill printing or labeling mode is improved, materials such as waybill paper, adhesive tapes or viscose can be directly reduced or omitted, and the cost and the environmental burden are reduced. In addition, the intelligent spray printing system and the spray printing method thereof are simple to operate, have no strict requirements on users and working environments, can be small and portable according to the spray printing information quantity or working requirements, and are very suitable for the transportation requirements of mass parcels in the field of logistics.

Drawings

FIG. 1 is a schematic flow chart of a jet printing method according to an embodiment of the present application;

FIG. 2 is a schematic diagram of the inkjet printing system according to one embodiment of the present application;

wherein, fig. 2: 1, a spray printing system; 10, a base; 11, a first processor; 12, a jet printing device; 13, a camera; 14, a controller; 141, manual control buttons; 15, a display.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of key components of systems or devices, or key steps of methods, described in the present application and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. Other components or steps not explicitly shown or described in detail may be understood as prior art devices or means and are not limited thereto.

In the present application, the embodiments and features of the embodiments may be combined with or replaced with each other without conflict. In particular, where certain features are described in detail, it is to be understood that the same is by no means conventional in the art, and that the same may be used by direct or in alternate forms, to advantage in connection with other combinations of parts so described.

One embodiment of the present application provides a method of inkjet printing, the method comprising the steps of:

(a) the information to be printed is obtained, the information to be printed is communicably connected and received in real time by the first processor, and is processed into a task to be printed so as to be sent to the printing device;

(b) spraying and printing, starting a spraying and printing device to execute a task to be sprayed and printed; and

(c) the quality of the jet printed image is checked,

when the information displayed or read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, the correction jet printing is started in real time;

and when the information read from the first jet printing image or the corrected jet printing image is consistent with the information to be jet printed, finishing the jet printing task.

Further, in the step (a), the first processor is communicably connected and receives the jet printing instruction and the information to be jet printed from the server terminal or the mobile electronic device terminal in real time. The mobile electronic device terminal can be any one selected from a smart phone, a notebook computer, a tablet computer or a rifle. Thus, the job to be jet printed may be transmitted in various ways through a terminal communicably connected to the first processor.

Further, in the step (a), the information to be jet printed is processed into the task to be jet printed by any one of selective amplification, reduction, conversion, encoding or a combination thereof, and the task to be jet printed may include any one of characters, images, bar codes, two-dimensional codes or a combination thereof. Therefore, on the premise of ensuring the accuracy of the information, the converted information to be printed can simplify the original information to be printed, save the printing material and improve the printing efficiency.

Further, in the step (b), when the execution of one inkjet printing task is finished, the checking step may be executed by capturing a first inkjet printing image by the camera and transmitting the first inkjet printing image to the first processor, wherein the checking step includes: when the information displayed or identified and read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, the correction jet printing is started in real time; shooting an image for correcting jet printing; and reading the corrected jet printing image by the reader, and finishing the jet printing task when the image display or the identified information comprising the first jet printing image and the corrected jet printing image is consistent with the information to be jet printed. Further, the identification means may be a scanning means. The checking step is carried out in real time, so that the tedious labor of recalling the specific object (such as a single article or an outer packing box, a package and the like) for receiving the jet printing when the identification is not smooth or wrong after a large number of jet printing tasks are completed is avoided, and when the checking step is carried out, the first processor or other parts of the jet printing system can also carry out other steps at the same time, such as the step (a), the waiting time is not generated, and the efficiency of the jet printing work is hardly influenced.

Furthermore, in the step (b), the jet printing device starts and executes the correction jet printing task according to the correction command.

Further, in the step (c), the checking step further includes a marking step of marking the inconsistent area and then starting the correction jet printing in a targeted manner.

Further, step (c) is handled by a verification module in the first processor.

Further, the checking step in the step (c) may transmit the first jet printing image photographed by the camera to the first processor to perform the checking step.

Further, in the checking step in the step (c), the scanning device may further identify an image or a character in the printed image, read whether the printed image or the character can be identified, and determine whether the identified information is consistent with the original information to be printed.

In another aspect, the present application provides a jet printing system, including:

the first processor at least comprises a storage module and a verification module;

the jet printing device executes first jet printing and/or correction jet printing;

the recognition device is arranged on the jet printing device and is used for recognizing the image subjected to the first jet printing and selectively starting to shoot the image subjected to the second jet printing; and

and the controller sends out a jet printing instruction, starts the checking and marking of the checking module and sends out a jet printing correction instruction.

Further, the jet printing device can also comprise a display for displaying the task being executed by the system in real time.

Further, the first processor may further include a conversion module for selectively enlarging, reducing, or converting the information to be jet-printed into a picture or text in the form of a unique identifier such as a barcode or a two-dimensional code.

Furthermore, the maximum value of the correction jet printing times can be selectively set; when the number of times of execution reaches the maximum value, the image corrected and printed by the jet printing is checked, and if the image is still inconsistent or has a difference value, the task is cancelled. Preferably, the maximum number of corrections is three. Preferably, the maximum value of the correction jet printing is 3, and when the third correction jet printing is completed, the task is cancelled when the images after correction jet printing are still inconsistent or have a difference value after verification; and then the first processor calls the corresponding information to be jet printed, processes the information into a new task to be jet printed and implements jet printing.

Further, the correction jet print instruction may include at least a first correction jet print instruction, a second correction jet print instruction, and/or a third correction jet print instruction; accordingly, the correction jet includes a first correction jet, a second jet, and/or a third jet.

Further, the correction jet printing can adopt a color different from that of the first jet printing to perform jet printing coverage on a labeling area, wherein the labeling area refers to an area for labeling the inconsistent area in the checking step.

Further, the correction jet printing may be performed by performing the full-coverage jet printing with a color that is the same as the background color of the jet printing, and then performing the correction jet printing with another color that is different from the first jet printing and is different from the background color.

Further, the to-be-jet-printed task is an image or a character which accords with a set threshold range, when the to-be-jet-printed information is lower than or higher than the set threshold, the processing unit of the first processor correspondingly enlarges or reduces the to-be-jet-printed information according to a proper proportion, so that the attribute parameters of the processed to-be-jet-printed image are within the set threshold range and are transmitted to the jet printing device as the to-be-jet-printed task.

Furthermore, the same color as the background color of the jet printing is used for carrying out the complete covering jet printing, and other colors different from the first jet printing and the background color are used for correcting the jet printing.

Alternatively, the identification may be performed by cooperation of the camera and the first processor. When each jet printing is finished, the camera timely responds to shoot the first jet printing or corrects the jet printing image, and transmits the first jet printing image to the first processor in real time for checking.

Further, the to-be-jet-printed task is an image or a character which accords with a set threshold range, when the to-be-jet-printed information is lower than or higher than the set threshold, the processing unit of the first processor enlarges or reduces the to-be-jet-printed information according to a proper proportion, so that the attribute parameters of the processed to-be-jet-printed image are within the set threshold range and are transmitted to the jet printing device as the to-be-jet-printed task. Further, the threshold range may be resolution, contrast, or pixel, etc.

When the first jet printing image or the corrected jet printing image is subjected to the checking step and/or the corrected jet printing, the identified information of the last jet printing image is consistent with the initial information to be jet printed, the jet printing task is finished, and the next jet printing task is performed randomly.

Fig. 1 is a schematic flow chart of the inkjet printing method according to an embodiment of the present application. As shown in fig. 1, in this embodiment, the inkjet printing method includes the steps of:

(a) the method comprises the steps that information to be jet printed is obtained, the first processor is connected in a communication mode and receives jet printing information from a server terminal in real time, and the information is processed into a task to be jet printed so as to be sent to a jet printing device;

(b) spraying and printing, starting a spraying and printing device to execute a task to be sprayed and printed; and

(c) and checking the quality of the jet printing image, and when one jet printing task is executed, transmitting a first jet printing image shot by the camera to the first processor to execute a checking step, wherein the checking step comprises the following steps:

comparing the information in the first jet printing image with the information to be jet printed, and starting correction jet printing in real time when the information read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, wherein the correction jet printing comprises secondary jet printing and/or tertiary jet printing;

shooting the image of the correction jet printing; and

and reading the first jet printing image or the corrected jet printing image by the reader, and finishing the jet printing task when the information read from the first jet printing image or the corrected jet printing image is consistent with the information to be jet printed.

When the information to be jet printed exceeds the set threshold value of the jet printing device in the step (a), the step (a) can also optionally additionally comprise the step (a1) of selectively amplifying, reducing or converting and coding the information to be jet printed into a task to be jet printed, wherein the task to be jet printed can comprise any one of characters, images, bar codes, two-dimensional codes or a combination of the characters, the images, the bar codes and the two-dimensional codes.

When the first jet printing image is inconsistent with the information to be jet printed or the job to be jet printed, the jet printing device optionally starts and executes a correction jet printing job (b1) in the step (b).

When a correction jet print instruction is issued, the step (c) of checking further includes a step (c1) of initiating marking, i.e., marking the inconsistent area, and then initiating the correction jet print on a targeted basis.

Step (c) is handled by a verification module in the first processor.

Optionally, in the checking step in step (c), the scanning device may further identify the image or text in the printed image, read whether the printed image or text can be identified, and determine whether the identified information is consistent with the original information to be printed. When the information which can not be identified by the scanning device or the identified information is messy codes and the like which are inconsistent with the original image or character information to be sprayed and printed,

fig. 2 is a schematic structural diagram of the inkjet printing system according to an embodiment of the present application. As shown in fig. 2, the inkjet printing system 1 includes: a first processor 11 including a storage module and a check module; a jet printing device 12 for performing the first jet printing and/or correcting the jet printing; the camera 13 is arranged on the jet printing device and is used for shooting an image subjected to first jet printing and selectively starting to shoot a second jet printing image; and the controller 14 is used for sending out a jet printing instruction, starting the verification and marking of the verification module and sending out a jet printing correction instruction. These components are collectively arranged on the base 10.

Further, the inkjet printing apparatus 1 may further include a display 15 for displaying in real time the task being performed by the system.

Alternatively, the camera 13 may also be an identification device, such as a code reader or a scanning device, which applies any form of inkjet image, such as an identification of already inkjet printed images, text, two-dimensional codes or bar codes, for the checking step. The controller 14 may also include auxiliary manual control buttons 141 for human intervention to control the operation of the jet printing system.

The correction jet printing instruction can at least comprise a second jet printing instruction and/or a third jet printing instruction. Accordingly, the correction jet includes a second jet and/or a third jet. Optionally setting the maximum value of the correction jet printing times; when the implementation times reach the maximum value, for example, the third time, the image corrected and printed by the jet printing is checked, is still inconsistent or has a difference value, and the task is cancelled; then the first processor calls the original information to be jet printed and converts the information into a task to be jet printed, and jet printing is carried out.

And the correction jet printing can adopt colors different from the first jet printing to carry out jet printing coverage on the marking area, wherein the marking area refers to marking the inconsistent area in the checking step. More specifically, the full-coverage jet printing is performed using the same color as the background color of the jet printing, and then the correction jet printing is performed using another color different from the first jet printing and also different from the background color.

Further, when each jet printing is finished, the camera timely responds to shoot an image of the first jet printing or correction jet printing, and transmits the image of the first jet printing to the first processor in real time for checking.

It should be appreciated by those skilled in the art that the inkjet printing system or apparatus shown in fig. 2 is only one embodiment and is not intended to limit the inkjet printing system described herein. The first processor or other components may optionally be centrally located on the inkjet printing system or inkjet printing apparatus, or may be remotely located to perform their respective operations and perform their respective functions.

The inkjet printing system of the present application may also employ a different inkjet printing system configuration than that shown in fig. 2. Although the main components are similar, different components or configurations may exist, for example, the first processor of the inkjet printing system may also have a built-in conversion module (not explicitly shown in fig. 2) for selectively enlarging, reducing, or converting the information to be inkjet printed into a picture or text in the form of a unique identifier such as a bar code or two-dimensional code. The conversion module can be used before the first jet printing, and can also be used for canceling the secondary jet printing task, selecting a conversion parameter or mode different from that of the primary jet printing task when the secondary jet printing task is started, determining the task to be jet printed again and starting the secondary jet printing task.

Further, the to-be-jet-printed task is an image or a character which accords with a set threshold range, when the to-be-jet-printed information is lower than or higher than the set threshold, the processing unit of the first processor enlarges or reduces the to-be-jet-printed information according to a proper proportion, so that the attribute parameters of the processed to-be-jet-printed image are within the set threshold range and are transmitted to the jet printing device as the to-be-jet-printed task. Further, the threshold range may be resolution, contrast, or pixel, etc.

And after the primary jet printing image or the corrected jet printing image is subjected to the checking step and/or the corrected jet printing, the identified information of the final jet printing image is consistent with the initial information to be jet printed, the jet printing task is finished, and the next jet printing task or the related program for executing the next jet printing task is sequentially carried out.

In addition, by combining other conventional equipment in the logistics field, such as a positioning device, the operation efficiency of cargo sorting and tracking can be improved, the labor intensity of logistics practitioners is reduced, the method is significant, and the method is worthy of popularization and application.

The above description is only a preferred embodiment of the present application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the spirit of the present application; and any equivalent replacement, modification or combination of parts or elements of the present invention without departing from the spirit of the present invention is within the scope of the present invention.

Claims (13)

1. A jet printing method is characterized by comprising the following steps:

(a) the information to be printed is obtained, the information to be printed is communicably connected and received in real time by the first processor, and is processed into a task to be printed so as to be sent to the printing device;

(b) spraying and printing, starting a spraying and printing device to execute the task to be sprayed and printed; and

(c) the quality of the jet printed image is checked,

when the information displayed or read from the first jet printing image is inconsistent with the information to be jet printed or has a difference value, the correction jet printing is started in real time;

and when the information read from the first jet printing image or the corrected jet printing image is consistent with the information to be jet printed, finishing the jet printing task.

2. The inkjet printing method according to claim 1, wherein in the step (a), the information to be inkjet printed is processed into the task to be inkjet printed by any one of selective enlargement, reduction, conversion, encoding or a combination thereof, and the task to be inkjet printed may include any one of characters, images, bar codes, two-dimensional codes or a combination thereof.

3. The method of claim 1, wherein in step (b), the jet printing device further initiates and performs a correction jet printing job based on the correction command.

4. The inkjet printing method according to claim 1, wherein in the step (c), the checking step further comprises a step of initiating marking, namely marking the inconsistent area, and then initiating the correction inkjet printing specifically.

5. The method of claim 1, wherein the checking step in step (c) is performed by transmitting a first inkjet image captured by the camera to the first processor.

6. The inkjet printing method according to claim 1, wherein the checking step in step (c) further identifies whether the image in the inkjet-printed image can be identified by a scanning device, and whether the identified information is consistent with the information to be inkjet printed.

7. An inkjet printing system, comprising:

a first processor comprising at least a storage module and a verification module;

the jet printing device executes primary jet printing and/or correction jet printing;

the recognition device is arranged on the jet printing device and is used for recognizing the image subjected to the first jet printing and selectively starting to shoot the image subjected to the second jet printing; and

and the controller sends out a jet printing instruction, starts the checking and marking of the checking module and sends out a correction jet printing instruction.

8. The inkjet printing system of claim 7 wherein the inkjet printing apparatus further comprises a display for displaying in real time the task being performed by the system.

9. The inkjet printing system of claim 7 wherein the first processor further comprises a conversion module for selectively enlarging, reducing, or converting the information to be printed into a picture or text in the form of a unique identifier such as a bar code or two-dimensional code.

10. The system of claim 7, wherein a maximum number of correction passes is selectively settable; when the number of times of execution reaches the maximum value, the image corrected and printed by the jet printing is checked, and if the image is still inconsistent or has a difference value, the task is cancelled.

11. The system of claim 7, wherein the correction jet is a jet overlay of a marking area marked with a different color than the first jet, wherein the marking area is an area marked with a non-consistent area in the verification step.

12. The system of claim 7, wherein the correction jet is applied by performing a full blanket jet using the same color as the background color of the jet, and then performing the correction jet using a different color than the first jet and the background color.

13. The jet printing system according to claim 7, wherein the to-be-jet printing task is an image or a character which meets a set threshold range, when the to-be-jet printing information is lower than or higher than the set threshold, the processing unit of the first processor correspondingly enlarges or reduces the to-be-jet printing task in a proper proportion, so that the attribute parameters of the processed to-be-jet printing image are within the set threshold range, and the processed to-be-jet printing task is transmitted to the jet printing device as the to-be-jet printing task.

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