阅读说明：本技术 一种印刷用合格品检测方法、系统、装置以及存储介质 (Method, system and device for detecting qualified product for printing and storage medium ) 是由 李永刚 杨惠茹 谭岩 于 2021-08-07 设计创作，主要内容包括：本申请涉及一种印刷用合格品检测方法、系统、装置以及存储介质,涉及印刷品缺陷检测的技术领域,其包括获取预设印刷信息,所述预设印刷信息包括预设印刷数量和预设印刷样式,所述预设印刷样式由多个预设印刷元素组成；获取目标印刷品的实际印刷样式,所述实际印刷样式由多个实际印刷元素组成；判断所述实际印刷元素是否与所述预设印刷元素一致；若判断为否,则统计不合格品的数量,形成印刷余量；根据所述预设印刷信息,将所述印刷余量与所述预设印刷数量相加,形成目标印刷数量；根据所述目标印刷数量,替换预设印刷数量。本申请具有使印刷合格品在达到印刷需求量的前提下合理规划印刷余量,减少印刷浪费的效果。(The application relates to a method, a system, a device and a storage medium for detecting qualified products for printing, relating to the technical field of defect detection of printed products, and comprising the steps of acquiring preset printing information, wherein the preset printing information comprises a preset printing quantity and a preset printing style, and the preset printing style consists of a plurality of preset printing elements; acquiring an actual printing style of a target printed matter, wherein the actual printing style consists of a plurality of actual printing elements; judging whether the actual printing elements are consistent with the preset printing elements or not; if not, counting the number of unqualified products to form printing allowance; adding the printing allowance and the preset printing quantity according to the preset printing information to form a target printing quantity; and replacing the preset printing quantity according to the target printing quantity. The method and the device have the effects of reasonably planning the printing allowance on the premise of meeting the printing demand for the printing qualified products and reducing the printing waste.)

1. A method for detecting a qualified product for printing is characterized by comprising the following steps:

acquiring preset printing information, wherein the preset printing information comprises a preset printing number and a preset printing style, and the preset printing style consists of a plurality of preset printing elements;

acquiring an actual printing style of a target printed matter, wherein the actual printing style consists of a plurality of actual printing elements;

judging whether the actual printing elements are consistent with the preset printing elements or not;

if not, counting the number of unqualified products to generate printing allowance;

adding the printing allowance and the preset printing quantity according to the preset printing information to generate a target printing quantity;

and replacing the preset printing quantity according to the target printing quantity.

2. The method for detecting a print-ready product according to claim 1, wherein the step of obtaining the predetermined print information further comprises:

setting a plurality of printing points with the same number as the preset printing elements according to the number of the preset printing elements, wherein each printing point corresponds to one preset printing element, and the printing points are distributed at the printing position of each preset printing element;

and recording preset printing elements corresponding to the printing positions to the corresponding printing points according to the printing points.

3. The method for detecting a non-defective product for printing according to claim 2, wherein said step of acquiring an actual printing style of the target printed product further comprises:

setting a plurality of detection points equal to the number of the printing points according to the printing points, wherein the detection points are arranged behind the corresponding printing points and are used for acquiring actual printing elements of the target printed matter at the corresponding printing points;

and recording preset printing elements at the corresponding printing points to the corresponding detection points according to the detection points.

4. The method for detecting a non-defective product for printing according to claim 3, wherein after determining whether the actual printing element is consistent with the preset printing element, the method further comprises:

according to the judgment result, obtaining a target printed matter with the actual printing element inconsistent with the preset printing element;

and marking unqualified marks according to the obtained target printed product.

5. The method for detecting a print-ready product according to claim 4, further comprising, after the step of marking the defective mark:

judging whether the target printed matter has unqualified marks or not;

if not, generating a blanking instruction and sending out;

if the judgment result is yes, a fetch instruction is generated and sent out.

6. The method for detecting a print-ready product according to claim 5, further comprising, after the step of generating the blanking command and issuing the blanking command:

acquiring preset grouping information, wherein the preset grouping information is preset and generated by a user and comprises a plurality of receiving groups, and each receiving group is provided with a corresponding receiving amount;

counting the number of qualified target printed matters in the receiving group completing the blanking process in real time, and forming a count value;

judging whether the current count value is equal to the receiving quantity or not according to the count value and the receiving quantity;

if the judgment result is yes, a switching grouping instruction is generated and sent out;

the above steps are repeatedly executed.

7. The method for detecting a print-ready product according to claim 2, further comprising, after acquiring the predetermined print information:

generating predicted printing time according to preset printing information;

generating an estimated remaining time according to the estimated printing time, wherein the estimated remaining time is generated by the inverse of the estimated printing time;

and outputting the predicted remaining time to a display terminal.

8. A print-use non-defective inspection system according to claim 1, comprising:

the printing system comprises a presetting module (1) and a printing module, wherein the presetting module is used for acquiring preset printing information, the preset printing information comprises a preset printing number and a preset printing style, and the preset printing style consists of a plurality of preset printing elements;

the identification module (2) is used for acquiring an actual printing style of a target printed matter, and the actual printing style consists of a plurality of actual printing elements;

the contrast judgment module (3) is used for judging whether the actual printing elements are consistent with the preset printing elements or not, counting the number of unqualified products and forming printing allowance;

the counting module (4) is used for adding the printing allowance and the preset printing quantity according to the preset printing information to form a target printing quantity;

and the replacing module (5) is used for replacing the preset printing quantity according to the target printing quantity.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

Technical Field

The present application relates to the field of printed matter defect detection technology, and in particular, to a method, a system, an apparatus, and a storage medium for detecting a qualified product for printing.

Background

The automation degree of equipment is high on a high-speed production line of modern printed matters, and in the printing process, characters and patterns on the printed matters are frequently printed, printed and scratched, scratched and stained, so that the detection of unqualified products on the printing production line is of great significance.

In the current printing process, before a certain number of printed matters need to be printed, a user usually sets a certain amount of printing allowance in advance, so that the number of printing qualified products can still reach the required amount under the condition that unqualified products appear.

However, in the process of setting the printing allowance, resources are wasted due to too much setting of the printing allowance, and the number of qualified products is insufficient due to too little setting of the printing allowance, so that the defect that the printing allowance is difficult to be well controlled exists in the printing process.

Disclosure of Invention

In order to reduce printing waste on the premise that a printing qualified product meets a printing demand, the application provides a method, a system, a device and a storage medium for detecting the printing qualified product.

The method, the system, the device and the storage medium for detecting the qualified products for printing adopt the following technical scheme:

in a first aspect, the present application provides a method for detecting a print-ready product, comprising the steps of:

acquiring preset printing information, wherein the preset printing information comprises a preset printing number and a preset printing style, and the preset printing style consists of a plurality of preset printing elements;

acquiring an actual printing style of a target printed matter, wherein the actual printing style consists of a plurality of actual printing elements;

judging whether the actual printing elements are consistent with the preset printing elements or not;

if not, counting the number of unqualified products to generate printing allowance;

adding the printing allowance and the preset printing quantity according to the preset printing information to generate a target printing quantity;

and replacing the preset printing quantity according to the target printing quantity.

By adopting the technical scheme, the printed target printed matter is identified and detected, whether the actual printing elements are matched with the preset printing elements or not is judged, and whether printing errors exist in the target printed matter is analyzed. After the target printed matter with printing errors is detected, the printing allowance corresponding to the number of the unqualified target printed matter is generated, the printing allowance is added with the original preset printing amount to obtain the target printing amount, the target printing amount covers the original preset printing amount, so that the printing assembly line can automatically generate the target printing amount in real time according to the number of the unqualified printed matter, the printing allowance is reasonably planned on the premise that the printing qualified matter meets the printing demand, and the printing waste is reduced.

Optionally, in the step of obtaining the preset printing information, the method further includes:

setting a plurality of printing points with the same number as the preset printing elements according to the number of the preset printing elements, wherein each printing point corresponds to one preset printing element, and the printing points are distributed at the printing position of each preset printing element;

and recording preset printing elements corresponding to the printing positions to the corresponding printing points according to the printing points.

By adopting the technical scheme, the printing assembly line is provided with a plurality of printing points for printing the target printed matter, each printing point corresponds to one preset printing element, the plurality of printing points respectively print the corresponding printing elements in sequence on the target printed matter, the segmented printing operation of the target printed matter is realized, and a user can conveniently control the printing process of the target printed matter in a segmented manner.

Optionally, the step of obtaining the actual printing style of the target printed matter further includes:

setting a plurality of detection points equal to the number of the printing points according to the printing points, wherein the detection points are arranged behind the corresponding printing points and are used for acquiring actual printing elements of the target printed matter at the corresponding printing points;

and recording preset printing elements at the corresponding printing points to the corresponding detection points according to the detection points.

By adopting the technical scheme, after each printing point performs printing operation on the target printed matter, the detection point performs detection operation on the target printed matter to detect whether printing error exists in the printing of the target printed matter by the printing point, and if the printing error exists, the subsequent printing point stops performing subsequent printing operation on the target printed matter with the error; if there is no error, the subsequent printing point normally performs the printing operation on the target printed matter, thereby reducing the waste of printing pigment.

Optionally, after determining whether the actual printing element is consistent with the preset printing element, the method further includes:

according to the judgment result, obtaining a target printed matter with the actual printing element inconsistent with the preset printing element;

and marking unqualified marks according to the obtained target printed product.

By adopting the technical scheme, after the unqualified target printed product is found by detection of the detection point, the detection point marks the unqualified mark on the target printed product, the unqualified mark does not exist on the qualified target printed product, and the unqualified target printed product has the unqualified mark, so that whether the target printed product has an error or not can be judged by directly acquiring the unqualified mark, and repeated identification and judgment on the target printed product are not needed.

Optionally, after the step of marking the unqualified mark, the method further includes:

judging whether the target printed matter has unqualified marks or not;

if not, generating a blanking instruction and sending out;

if the judgment result is yes, a fetch instruction is generated and sent out.

By adopting the technical scheme, before the target printed matter is taken down from the printing production line, whether the target printed matter is qualified or not is judged in advance, blanking and collecting operation is carried out on the qualified target printed matter, subsequent packaging and transportation are facilitated, the unqualified target printed matter is taken out, the unqualified printed matter is not mixed into the qualified printed matter, and the ex-warehouse quality of the qualified printed matter is ensured.

Optionally, after the generating the blanking instruction and the sending step, the method further includes:

acquiring preset grouping information, wherein the preset grouping information is preset and generated by a user and comprises a plurality of receiving groups, and each receiving group is provided with a corresponding receiving amount;

counting the number of qualified target printed matters in the receiving group completing the blanking process in real time, and forming a count value;

judging whether the current count value is equal to the receiving quantity or not according to the count value and the receiving quantity;

if the judgment result is yes, a switching grouping instruction is generated and sent out;

the above steps are repeatedly executed.

By adopting the technical scheme, the qualified target printed matters are grouped and collected according to the preset grouping information, when the number of the printed matters on one station reaches the collection number, the collection groups are switched, the qualified target printed matters are subjected to blanking and counting operation again until the target printed matters are all taken down from the printing production line, and subsequent packaging and delivery of the qualified printed matters of each group are facilitated.

Optionally, after the preset printing information is acquired, the method further includes:

generating predicted printing time according to preset printing information;

generating an estimated remaining time according to the estimated printing time, wherein the estimated remaining time is generated by the inverse of the estimated printing time;

and outputting the predicted remaining time to a display terminal.

By adopting the technical scheme, the preset printing time is calculated, the estimated remaining time is displayed in real time, and a user can conveniently and reasonably control and plan the printing process.

In a second aspect, the present application provides a print-use certified product detection system, comprising:

the printing system comprises a presetting module, a printing module and a printing module, wherein the presetting module is used for acquiring preset printing information, the preset printing information comprises a preset printing number and a preset printing style, and the preset printing style consists of a plurality of preset printing elements;

the identification module is used for acquiring an actual printing style of a target printed matter, and the actual printing style consists of a plurality of actual printing elements;

the comparison judgment module is used for judging whether the actual printing elements are consistent with the preset printing elements or not, counting the number of unqualified products and forming printing allowance;

the counting module is used for adding the printing allowance and the preset printing quantity according to the preset printing information to form a target printing quantity;

and the replacing module is used for replacing the preset printing quantity according to the target printing quantity.

In a third aspect, the present application provides an intelligent terminal, comprising a memory and a processor, wherein the memory stores a computer program that can be loaded by the processor and execute the above-mentioned one method for detecting qualified products for printing.

In a fourth aspect, the present application provides a computer-readable storage medium storing a computer program that can be loaded by a processor and executes the above-described one of the print-use non-defective inspection methods.

In summary, the present application includes at least one of the following beneficial technical effects:

1. and identifying and detecting the printed target presswork, judging whether the actual printing elements are matched with the preset printing elements, and analyzing to obtain whether printing errors exist in the target presswork. After the target printed matter with printing errors is detected, the printing allowance corresponding to the number of the wrong target printed matter is generated, the printing allowance is added with the original preset printing amount to obtain the target printing amount, the target printing amount covers the original preset printing amount, so that the printing assembly line can automatically generate the target printing amount in real time according to the number of unqualified printed matters, the printing allowance is reasonably planned on the premise that the printing qualified products meet the printing demand, and the printing waste is reduced.

2. The printing assembly line is provided with a plurality of printing points for printing the target printed matter, each printing point corresponds to a preset printing element, the printing elements corresponding to the printing points are sequentially printed on the target printed matter through the plurality of printing points, segmented printing operation on the target printed matter is achieved, and a user can conveniently control the printing process of the target printed matter in a segmented mode.

3. After each printing point performs printing operation on the target printed matter, the detection point performs detection operation on the target printed matter, detects whether printing error exists in the printing of the target printed matter by the printing point, and if the printing error exists, the subsequent printing point stops performing subsequent printing operation on the target printed matter with the error; if there is no error, the subsequent printing point normally performs the printing operation on the target printed matter, thereby reducing the waste of printing pigment.

Drawings

Fig. 1 is a schematic flow chart of a method for detecting a print-ready product according to an embodiment of the present application.

Fig. 2 is a schematic flowchart of calculation and display of printing time in the embodiment of the present application.

Fig. 3 is a schematic flow chart of setting a plurality of printing dots equal to the preset number of printing elements in the embodiment of the present application.

Fig. 4 is a schematic flow chart of obtaining a defective mark in the embodiment of the present application.

Fig. 5 is a block diagram of a printing non-defective product detection system according to an embodiment of the present application.

Description of reference numerals: 1. presetting a module; 2. an identification module; 3. a comparison judgment module; 4. a counting module; 5. and replacing the module.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a method, a system, a device and a storage medium for detecting qualified products for printing, and with reference to fig. 1, the method for detecting the qualified products for printing comprises the following steps:

s1: and acquiring preset printing information.

The preset printing information is preset and generated by a user through an input terminal, and the input terminal comprises a mobile terminal such as a mobile phone and a tablet, and an input device such as a keyboard and a computer. The preset printing information comprises a preset printing number and a preset printing style, and the preset printing style is composed of a plurality of preset printing elements. For example, the preset printing pattern includes four preset printing elements, i.e., a, b, c, and d, and the preset printing number corresponding to the preset printing pattern is 100.

Referring to fig. 2, after S1, the method further calculates and displays the printing time, and specifically includes the following steps:

s101: an expected print time is generated.

Specifically, the number of the preset printing elements included in the preset printing style is acquired, and the time required for printing the preset printing style is calculated by multiplying the number of the preset printing elements by the time required for printing the preset printing elements according to the time required for printing the preset printing elements. Acquiring a preset printing quantity corresponding to a preset printing style, multiplying the time required for printing one preset printing style by the preset printing quantity corresponding to the preset printing style, and calculating to generate the predicted printing time.

For example, the preset print pattern includes four preset print elements a, b, c, and d, where 0.1 second is required for printing one a, 0.2 second is required for printing one b, 0.1 second is required for printing one c, 0.05 second is required for printing one d, and 0.45 second is calculated to be required for printing one preset print pattern. The preset printing quantity corresponding to the preset printing style is 100 parts, so that the expected printing time required for printing the preset printing style is 45 seconds.

S102: an estimated remaining time is generated.

Specifically, the expected printing time is counted down, and in the counting down process, the expected residual time is generated in real time according to the residual expected printing time.

S103: and outputting the predicted remaining time.

Specifically, the predicted remaining time is sent, and the predicted remaining time is displayed in real time through a display terminal, wherein the display terminal comprises a receiving mobile phone, a flat panel, a display screen and other display devices, so that a user can conveniently and well control the working process of the printing production line.

Further, referring to fig. 3, S1 specifically includes:

s1.1: and setting a plurality of printing points with the number equal to that of the preset printing elements.

Specifically, a plurality of printing points equal to the number of the preset printing elements are arranged according to the number of the preset printing elements, each printing point corresponds to one preset printing element, and the printing points are distributed at the printing position of each preset printing element.

S1.2: and recording preset printing elements corresponding to the printing positions to corresponding printing points.

Specifically, the preset printing elements corresponding to the printing positions are recorded into the corresponding printing points in advance, when the target printed matter is subjected to printing operation, the target printed matter sequentially passes through each printing point, and at the moment, the printing points sequentially print the preset printing elements corresponding to the printing points onto the surface of the target printed matter, so that the printing operation on the target printed matter is completed.

For example, if the preset printing style being printed consists of four preset printing elements a, b, c, and d, four printing dots at corresponding positions are arranged in the printing sequence of the four preset printing elements a, b, c, and d on the printing production line, and five printing elements are preset in the four corresponding printing dots respectively.

Referring back to fig. 1, the detection method further includes:

s2: the actual printing style is acquired.

Specifically, the detection point obtains an actual printing style of the target printed matter in real time, the actual printing style is composed of a plurality of actual printing elements, the actual printing elements are generated by printing the target printed matter through the printing points according to preset printing elements, and the actual printing elements correspond to the preset printing elements.

Further, referring to fig. 3, S2 specifically includes:

s2.1: a plurality of detection points equal to the number of printing points are provided.

Specifically, the detection points correspond to the printing points one by one, and are arranged behind the corresponding printing points, and the detection points are used for acquiring actual printing elements of the target printed matter at the corresponding printing points.

S2.2: and recording preset printing elements at the corresponding printing points to the corresponding detection points.

And pre-inputting the preset printing elements of the target printed matter at the printing points corresponding to the detection points into the corresponding detection points in advance, wherein the preset printing elements are used as the detection reference of the detection points.

Referring back to fig. 1, the detection method further includes:

s3: and judging whether the actual printing elements are consistent with the preset printing elements.

If the judgment result is yes, continuously acquiring the actual printing style of the next target printed matter;

if no, the process goes to S6.

Specifically, after the detection point obtains the actual printing element of the printing point at the corresponding position, the actual printing element of the printing point is compared with the preset printing element of the detection point, and whether the actual printing element is consistent with the preset printing element is judged.

Because each detection point only contains one preset printing element, and the preset printing element corresponds to the preset printing element at the printing point where the detection point is located, the detection point only judges the actual printing element corresponding to the preset printing element. After the printing point finishes the printing operation of a preset printing element, the detection point corresponding to the printing point immediately executes error detection operation on the printed actual printing element, and judges whether the actual printing element corresponds to the preset printing element.

S4: marking unqualified marks.

The unqualified marks are used for marking target printed matters indicating unqualified signs, when actual printing elements do not conform to preset printing elements, the detection points mark the unqualified marks, the unqualified target printed matters are marked through the unqualified marks, at the moment, the unqualified target printed matters are marked, the qualified target printed matters are not marked, and the target printed matters can be conveniently and quickly distinguished in the follow-up process.

S5: and generating and sending a halt signal.

The stop calling signal is used for calling the working process of the detection point and the printing point, the stop calling signal is generated and sent out after the detection point finds an unqualified target printed product, and the subsequent printing and detection of the unqualified target printed product are stopped after the detection point and the printing point receive the stop calling signal, so that the waste of printing resources is reduced to a certain extent.

S6: generating a printing allowance.

Specifically, the detection point detects a target printed matter of which the actual printing style does not conform to the preset printing style according to a corresponding result of the actual printing element and the preset printing element, and generates a printing allowance according to the unqualified target printed matter, wherein the printing allowance is the number of the target printed matters with printing errors. For example, if the number of defective target prints is 5, a print margin of 5 is generated.

S7: a target print quantity is generated.

Specifically, the preset printing quantity and the printing allowance are added to generate a target printing quantity, and the target printing quantity is the sum of the required target printed matter quantity and the error target printed matter quantity.

S8: the preset number of prints is replaced.

Specifically, the target printing quantity covers and replaces the original preset printing quantity, and the target printed matter is printed in a corresponding quantity according to the target printing quantity. For example, if the original preset printing quantity is 1000 parts, and the printing allowance value is 5, a target printing quantity with a value of 1005 is generated by adding, and the target printing quantity replaces the original preset printing quantity, so that the newly generated value of the preset printing quantity is the value of the target printing quantity, and is 1005 parts.

Referring to fig. 4, after S8, the blanking operation is performed on the target printed product, which specifically includes:

s9: and acquiring an unqualified mark.

Specifically, each target printed matter to be blanked is detected, and an attempt is made to obtain an unqualified mark on the target printed matter.

S10: and judging whether the target printed matter has unqualified marks or not.

If yes, go to S11;

if no, the process goes to S12.

S11: a fetch instruction is generated and issued.

Specifically, if the target printed matter to be blanked is an unqualified target printed matter, an unqualified mark exists, and the unqualified mark can be successfully obtained. And after the unqualified marks are obtained, generating a taking-out instruction, taking the unqualified target printed matter off the printing production line, and stacking the unqualified target printed matter elsewhere, so that the unqualified target printed matter is not easily mixed in the qualified target printed matter.

S12: and generating and sending a blanking instruction.

Specifically, if the target printed matter to be blanked is a qualified target printed matter, no unqualified mark exists on the target printed matter, the target printed matter fails to be acquired, a blanking instruction is directly generated, the qualified target printed matter is taken down from the production line and collected, and subsequent packaging processing operation is conveniently performed on the qualified target printed matter.

Referring to fig. 4, after S12, the method specifically includes:

s13: and acquiring preset grouping information.

Specifically, the preset grouping information is preset and generated by a user, and the preset grouping information comprises a plurality of receiving groups and receiving quantities corresponding to the receiving groups. For example, when a user needs to produce 600 target printed matters, and the user wants to discharge and collect qualified target printed matters into 100 parts by group, 200 parts by group and 300 parts by group, the user sets A, B, C three receiving groups in advance and sets the receiving amount of the three receiving groups in such a manner that the receiving amount of the group A is 100 parts, the receiving amount of the group B is 200 parts, and the receiving amount of the group C is 300 parts.

And acquiring a material receiving group and the material receiving quantity corresponding to the material receiving group. For example, the group A is obtained and the receiving amount is obtained at the same time as 100.

S14: a count value is generated.

Specifically, the count value is generated according to the qualified target printed matter, when the blanking collecting operation is performed on the qualified target printed matter, one qualified target printed matter is collected every time, namely the count value is increased by one quantity unit, wherein the numerical value of one quantity unit is one, so that the count value is the number of the qualified target printed matters completing the blanking process, and the counting and counting of the qualified target printed matters completing the blanking process are facilitated.

S15: and judging whether the current count value is equal to the receiving quantity.

Specifically, the updated count value is compared with the current material receiving quantity every time the count value is updated, and whether the current count value is equal to the preset material receiving quantity or not is judged.

If not, acquiring the count value again and judging repeatedly until the judgment result is yes;

if yes, the process proceeds to S18.

S16: and generating and sending a switching grouping instruction.

And the switching grouping instruction is used for controlling qualified target printed matters to execute grouping blanking operation. For example, if the number of the qualified target printed matters collected at the current blanking station reaches the collection number of the group a, the blanking station stops blanking the subsequent qualified target printed matters to obtain a group of qualified target printed matters with the number of 100, the subsequent qualified target printed matters are grouped into different groups, and the grouped blanking operation is performed at another station.

After S16 is completed, the process goes to S9.

Specifically, after the group switching, the subsequent target printed matter is subjected to the cyclic detection and blanking operation.

The implementation principle of the qualified product detection method for printing in the embodiment of the application is as follows: and when the detection finds that the target printed matter has printing errors, the target printed matter with the errors is subjected to unqualified marking, and a stop-and-call signal is sent out. And generating printing allowance according to the number of unqualified target printed matters, adding the preset printing amount and the printing allowance to generate a target printing amount, covering the original preset printing amount by the target printing amount, and printing the target printed matters in a corresponding amount according to the target printing amount.

Based on the method, the embodiment of the application also discloses a qualified product detection system for printing. Referring to fig. 5, a print-use non-defective product detection system includes:

the printing system comprises a presetting module 1, wherein the presetting module 1 is used for acquiring preset printing information, the preset printing information comprises a preset printing quantity and a preset printing style, and the preset printing style consists of a plurality of preset printing elements.

And the identification module 2 is used for acquiring an actual printing style of the target printed matter, and the actual printing style consists of a plurality of actual printing elements.

And the comparison judgment module 3 is used for judging whether the actual printing elements are consistent with the preset printing elements or not, counting the number of unqualified products and forming printing allowance.

And the counting module 4 is used for adding the printing allowance and the preset printing quantity according to the preset printing information to form a target printing quantity.

And the replacing module 5 is used for replacing the preset printing quantity according to the target printing quantity.

The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the qualified product detection method for printing.

The embodiment of the application also discloses a computer readable storage medium. A computer program that can be loaded by a processor and executes a method of detecting a print-related non-defective product as described above is stored in a computer-readable storage medium, which includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.