CN112297652A - Ink jet printing system for generating two-dimensional code and printing two-dimensional code and LOGO - Google Patents

Abstract

The invention discloses an ink-jet printing system for generating a two-dimensional code and printing the two-dimensional code and LOGO, which is characterized by comprising a first code-spraying machine, an automatic code scanner and a second code-spraying machine which are sequentially arranged on a ceramic product production line, wherein the first code-spraying machine and the automatic code scanner are positioned before a glaze spraying procedure, and the second code-spraying machine is positioned after the glaze spraying procedure; the automatic code scanning device comprises a first code spraying machine, a second code spraying machine and a client, wherein the first code spraying machine generates a two-dimensional code according to rules and prints the two-dimensional code onto a blank for the first time, the automatic code scanning machine is responsible for identifying the two-dimensional code on the blank and transmitting the two-dimensional code to the second code spraying machine, and the second code spraying machine is responsible for printing the same two-dimensional code and a LOGO pattern appointed by the client for the second time. The two-dimensional code can be automatically generated according to the product information and the production date without manually pasting the product information and the LOGO pattern; and the generated two-dimensional code and LOGO pattern can be stored on the surface of the product for a long time, and information in the production process of the product can be traced at any time.

Description

Ink jet printing system for generating two-dimensional code and printing two-dimensional code and LOGO

Technical Field

The invention relates to the technical field of ceramic production equipment, in particular to an ink-jet printing system for printing two-dimensional codes and LOGO on ceramic products.

Background

At present, product identification of an extra-high voltage material is manually pasted, time and labor are consumed, product information differentiation cannot be achieved, and information of a current product can be traced. In the prior art, although some technologies for tracing the current product information by using a two-dimensional code exist, the technology is difficult to apply to the field of ceramic production and manufacturing.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide an ink-jet printing system which is suitable for ceramic production and is used for generating two-dimensional codes and printing the two-dimensional codes and LOGO.

In order to achieve the purpose, the invention adopts the following technical scheme.

An ink-jet printing system for generating a two-dimensional code and printing the two-dimensional code and LOGO is characterized by comprising a first code-spraying machine, an automatic code-scanning machine and a second code-spraying machine which are sequentially arranged on a ceramic product production line, wherein the first code-spraying machine and the automatic code-scanning machine are positioned before a glaze spraying procedure, and the second code-spraying machine is positioned after the glaze spraying procedure; the automatic code scanning device comprises a first code spraying machine, a second code spraying machine and a client, wherein the first code spraying machine generates a two-dimensional code according to rules and prints the two-dimensional code onto a blank for the first time, the automatic code scanning machine is responsible for identifying the two-dimensional code on the blank and transmitting the two-dimensional code to the second code spraying machine, and the second code spraying machine is responsible for printing the same two-dimensional code and a LOGO pattern appointed by the client for the second time.

More preferably, a counter is used to count the number of blanks entering the automatic code scanner; and (4) the difference between the glaze spraying process and the middle of the second code spraying machine is n stations, and when the number counted to the nth blank body enters the automatic code scanner, the second code spraying machine is controlled to start printing the two-dimensional code for the second time.

More preferably, the two-dimensional code includes product model information, production date information, and serial number information.

More preferably, the ink used by the first inkjet printer is non-color-developing ink after firing, and the ink used by the second inkjet printer is color-developing ink after firing.

More preferably, the first inkjet printer and the second inkjet printer each include: the conveying belt, set up the shower nozzle of conveying belt top to and with the operation display that the shower nozzle is connected.

More preferably, the spray head is rotatably mounted on the frame to form a spray angle adjustable structure; the bearing plate is rotatably arranged on the rack, the inclination angle between the bearing plate and the rack is adjusted through a threaded rod and a pull rod which are matched with each other, and the spray head is arranged on the bearing plate.

More preferably, the operation display of the first inkjet printer is used to input a product model and a production date, and the operation display of the second inkjet printer is used to input a LOGO to the corresponding nozzle.

More preferably, the first code spraying machine and the second code spraying machine are connected to an upper computer, and the upper computer inputs the product model, the production date and the LOGO.

More preferably, the second inkjet printer comprises two groups of nozzles, wherein one nozzle in each group is used for printing a two-dimensional code, and the other nozzle in each group is used for printing a LOGO; different groups of the nozzles have different printing colors.

More preferably, the automatic scanner includes: the system comprises an industrial code reader, a machine vision lens, a machine vision light source and a light source controller; the industrial code reader is used for converting the shot two-dimensional code into data, the machine vision lens is used for shooting the two-dimensional code on the blank body and identifying characteristics, the machine vision light source provides a good lighting environment for shooting, and the light source controller is used for being matched with the light source to provide a power supply and a trigger signal.

The technical scheme can achieve the following technical effects.

The method comprises the steps that firstly, a first ink-jet printer and a second ink-jet printer are arranged, two-dimensional codes can be automatically generated according to product information and production date, and manual pasting of the product information and LOGO patterns is not needed; and the generated two-dimensional code and LOGO pattern can be stored on the surface of the product for a long time, and information in the production process of the product can be traced at any time.

And secondly, the automatic code scanner is arranged before the glaze spraying procedure, and the second code spraying machine connected with the automatic scanner is arranged after the glaze spraying procedure, so that the problem that the two-dimensional code is shielded by glaze after glaze spraying cannot be accurately identified is solved. Meanwhile, the number of blanks entering the automatic code scanner is counted by combining a counter, so that the consistency of two-dimensional code printing for the second time and two-dimensional code printing for the first time is ensured.

And thirdly, because the ink of the first printed two-dimensional code does not develop color after being fired, and the ink of the second printed two-dimensional code develops color after being fired, the two-dimensional codes printed twice are effectively prevented from interfering with each other, and the quality of the product is also ensured.

And fourthly, corresponding operation displays are arranged on the first ink-jet printer and the second ink-jet printer, so that corresponding two-dimensional code coding rules can be conveniently recompiled and different LOGO patterns can be selectively input according to different requirements of customers.

Drawings

Fig. 1 is a schematic structural diagram of an inkjet printing system according to the present invention.

Fig. 2 is a schematic structural diagram of the inkjet printer.

Description of reference numerals:

1: first ink jet numbering machine, 2: automatic code scanner, 3: second ink jet printer, 4: a glaze pouring procedure, 5: blank, 5-1: two-dimensional code, 5-2: LOGO, 6: counter, 7: conveyor belt, 8: a nozzle, 9: operation display, 10: frame, 11: a carrier plate, 12: threaded rod, 13: tie rod, 14: the handle is rotated.

Detailed Description

In the description of the present invention, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated without limiting the specific scope of protection of the present invention.

Furthermore, if the terms "first" and "second" are used for descriptive purposes only, they are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. Thus, a definition of "a first" or "a second" feature may explicitly or implicitly include one or more of the feature, and in the description of the invention, "at least" means one or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "assembled", "connected", and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; or may be a mechanical connection; the two elements can be directly connected or connected through an intermediate medium, and the two elements can be communicated with each other. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

In the present invention, unless otherwise specified and limited, "above" or "below" a first feature may include the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other through another feature therebetween. Also, the first feature being "above," "below," and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or simply an elevation which indicates a level of the first feature being higher than an elevation of the second feature. The first feature being "above", "below" and "beneath" the second feature includes the first feature being directly below or obliquely below the second feature, or merely means that the first feature is at a lower level than the second feature.

The following describes the embodiments of the present invention with reference to the drawings of the specification, so that the technical solutions and the advantages thereof are more clear and clear. The embodiments described below are exemplary and are intended to be illustrative of the invention, but are not to be construed as limiting the invention.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

As shown in fig. 1, an inkjet printing system for generating a two-dimensional code and printing the two-dimensional code and a LOGO is characterized by comprising a first inkjet printer 1, an automatic code scanner 2 and a second inkjet printer 3 which are sequentially arranged on a ceramic product production line, wherein the first inkjet printer 1 and the automatic code scanner 2 are positioned before a glaze spraying process 4, and the second inkjet printer 3 is positioned after the glaze spraying process 4; the first code spraying machine 1 generates a two-dimensional code according to rules and prints the two-dimensional code onto the blank 5 for the first time, the automatic code scanning machine 2 is responsible for recognizing the two-dimensional code 5-1 on the blank 5 and transmitting the two-dimensional code to the second code spraying machine 3, and the second code spraying machine 3 is responsible for printing the same two-dimensional code 5-1 and a LOGO5-2 (product identification) designated by a customer for the second time.

The two-dimensional code comprises product model information, production date information and serial number information. The product model is manually input by an operator, the font and the format can be edited, the product model is composed of English letters and numbers, the date adopts the date of the day (year, month and day), the serial number system automatically sequences and generates, and the date format of the day is as follows: 20200522. the serial number: 4 bits with serial numbers from 0000 to 9999, which are unused during the day. The product model is not associated with the date and the serial number, and when the product model is changed, the serial number is counted again; if a model appears twice in a certain day, the serial number before the day should be automatically connected.

In the embodiment, a counter 6 is used for counting the number of blanks entering the automatic code scanner 2; and (3) the difference between the glaze spraying process 4 and the second code spraying machine 3 is n stations, and when the number counted to the nth blank body enters the automatic code scanning device 2, the second code spraying machine 3 is controlled to start printing the two-dimensional code for the second time. Like this, can ensure the accuracy of printing the two-dimensional code for the second time, and simple structure, it is convenient to implement. The counter 6 is preferably a photoelectric eye counting device.

In this embodiment, the ink used by the first inkjet printer 1 is a fired non-color-developing ink, and preferably, the ink used by the second inkjet printer 3 is a fired color-developing ink; like this, after the product is fired, the two-dimensional code of first printing disappears completely, only remains the two-dimensional code of second printing, avoids mutual interference.

Referring to fig. 2, the first inkjet printer 1 and the second inkjet printer 3 both include: the device comprises a conveying belt 7, a spray head 8 arranged above the conveying belt 7, and an operation display 9 connected with the spray head 8.

In this embodiment, the nozzle 8 is rotatably mounted on the frame 10 to form a structure with an adjustable spraying angle. The method specifically comprises the following steps: a bearing plate 11 rotatably mounted is arranged on the frame 10, the inclination angle between the bearing plate 11 and the frame 10 is adjusted by a threaded rod 12 and a pull rod 13 which are matched with each other, and the spray head 8 is mounted on the bearing plate 11. In order to facilitate adjustment of the relative position between the threaded rod 12 and the pull rod 13, a turning handle 14 is preferably connected to the pull rod 13.

In this embodiment, the operation display of the first inkjet printer 1 is used to input a product model and a production date, and the operation display of the second inkjet printer 3 is used to input a LOGO to the corresponding nozzle. In other embodiments, the first inkjet printer and the second inkjet printer are connected to an upper computer, and the upper computer inputs a product model, a production date and a LOGO; the present embodiment is not limited.

It should be noted that the second inkjet printer 3 includes two groups of nozzles, one of the nozzles in each group is used for printing a two-dimensional code, and the other is used for printing a LOGO; different groups of the nozzles have different printing colors, and when one group of the nozzles is printing, the other group of the nozzles do not need to print. C and M in fig. 1 represent 2 ink color codes, respectively. Therefore, different groups of collision heads can be selected for printing according to different blank colors, and the compatibility is good.

It should be noted that the automatic code scanner includes: the system comprises an industrial code reader, a machine vision lens, a machine vision light source and a light source controller; the industrial code reader is used for converting the shot two-dimensional code into data, the machine vision lens is used for shooting the two-dimensional code on the blank body and identifying characteristics, the machine vision light source provides a good lighting environment for shooting, and the light source controller is used for being matched with the light source to provide a power supply and a trigger signal. When the automatic code scanner works, the automatic code scanner automatically acquires and captures the appearance characteristics of the two-dimensional code on the blank, converts the content of the two-dimensional code into data and transmits the data to the computer host of the second code printer through a TCP data mode.

Compared with the prior art, the ink-jet printing system provided by the embodiment intelligently generates the two-dimensional code and the LOGO through the ink-jet printer and prints the two on the ceramic blank, so that the requirement of a customer on information tracing of a ceramic product can be met; meanwhile, the production efficiency is high, and the maximum production efficiency can reach 3000 pieces per day (24 hours).

It will be appreciated by those skilled in the art from the foregoing description of construction and principles that the invention is not limited to the specific embodiments described above, and that modifications and substitutions based on the teachings of the art may be made without departing from the scope of the invention as defined by the appended claims and their equivalents. The details not described in the detailed description are prior art or common general knowledge.

Claims (10)

1. An ink-jet printing system for generating a two-dimensional code and printing the two-dimensional code and LOGO is characterized by comprising a first code-spraying machine, an automatic code-scanning machine and a second code-spraying machine which are sequentially arranged on a ceramic product production line, wherein the first code-spraying machine and the automatic code-scanning machine are positioned before a glaze spraying procedure, and the second code-spraying machine is positioned after the glaze spraying procedure; the automatic code scanning device comprises a first code spraying machine, a second code spraying machine and a client, wherein the first code spraying machine generates a two-dimensional code according to rules and prints the two-dimensional code onto a blank for the first time, the automatic code scanning machine is responsible for identifying the two-dimensional code on the blank and transmitting the two-dimensional code to the second code spraying machine, and the second code spraying machine is responsible for printing the same two-dimensional code and a LOGO pattern appointed by the client for the second time.

2. The inkjet printing system for generating two-dimensional codes and printing two-dimensional codes and LOGO according to claim 1 wherein a counter is used to count the number of blanks entering said automatic code scanner; and (4) the difference between the glaze spraying process and the middle of the second code spraying machine is n stations, and when the number counted to the nth blank body enters the automatic code scanner, the second code spraying machine is controlled to start printing the two-dimensional code for the second time.

3. The inkjet printing system of claim 1 wherein the two-dimensional code includes product model information, date of manufacture information, and serial number information.

4. The inkjet printing system for generating two-dimensional codes and printing the two-dimensional codes and LOGO according to claim 1, wherein the ink used by the first inkjet printer is a non-color-developing ink after firing, and the ink used by the second inkjet printer is a color-developing ink after firing.

5. The inkjet printing system of claim 1 wherein the first inkjet printer and the second inkjet printer each comprise: the conveying belt, set up the shower nozzle of conveying belt top to and with the operation display that the shower nozzle is connected.

6. The inkjet printing system for generating two-dimensional codes and printing the two-dimensional codes and LOGO according to claim 5, wherein the spray head is rotatably mounted on the frame to form a spray angle adjustable structure; the bearing plate is rotatably arranged on the rack, the inclination angle between the bearing plate and the rack is adjusted through a threaded rod and a pull rod which are matched with each other, and the spray head is arranged on the bearing plate.

7. The inkjet printing system of claim 5 wherein said operational display of said first inkjet printer is configured to input a product model number and a date of manufacture, and said operational display of said second inkjet printer is configured to input a LOGO label to said corresponding nozzle.

8. The inkjet printing system of claim 7 wherein the first and second inkjet printers are connected to an upper computer, and the upper computer inputs the product type, date of manufacture, and LOGO.

9. The inkjet printing system of claim 1 wherein said second inkjet printer includes two sets of said nozzles, one of said nozzles of each set being configured to print a two-dimensional code and the other being configured to print a LOGO; different groups of the nozzles have different printing colors.

10. The inkjet printing system of claim 1 wherein the automated bar code scanner comprises: the system comprises an industrial code reader, a machine vision lens, a machine vision light source and a light source controller; the industrial code reader is used for converting the shot two-dimensional code into data, the machine vision lens is used for shooting the two-dimensional code on the blank body and identifying characteristics, the machine vision light source provides a good lighting environment for shooting, and the light source controller is used for being matched with the light source to provide a power supply and a trigger signal.

Images