CN115056582A - Glass high-temperature ink two-dimensional code printing device and two-dimensional code printing method - Google Patents

Abstract

The invention discloses a device and a method for printing a two-dimensional code by using glass high-temperature ink, wherein the device comprises a base, a Y-axis moving component, an X-axis moving component, a code spraying trolley and an electric cabinet, the Y-axis moving component is installed on the base and is arranged to reciprocate along the Y-axis direction of the base, the X-axis moving component is installed on the Y-axis moving component and is arranged to reciprocate along the X-axis direction of the Y-axis moving component, the code spraying trolley is arranged on the X-axis moving component and is arranged to reciprocate on the X-axis moving component to a region to be printed, and the electric cabinet is respectively in electric control connection with the Y-axis moving component, the X-axis moving component and the code spraying trolley and is used for controlling the Y-axis moving component, the X-axis moving component and the code spraying trolley to be opened and operated. The device convenient operation is swift, alleviates artifical intensity of labour who pastes the sign indicating number and reduces to paste the sign indicating number and consume production time, prints effectually, has promoted the pleasing to the eye degree of glass outward appearance greatly.

Description

Glass high-temperature ink two-dimensional code printing device and two-dimensional code printing method

Technical Field

The invention relates to the technical field of glass production and processing equipment, in particular to a device and a method for printing a two-dimensional code by using glass high-temperature ink.

Background

The two-dimensional bar code/two-dimensional code is a pattern which is distributed on a plane (in two-dimensional direction) according to a certain rule by using a certain specific geometric figure, is black and white and is alternated and records data symbol information.

In order to distinguish types and trace information, the two-dimensional code is usually required to be added to the existing glass in the production and processing process, and in the common process, the two-dimensional code on the glass is pasted on the surface of the glass through transparency, but the pasting position of the two-dimensional code cannot be effectively controlled within the tolerance due to the mode, and the two-dimensional code is easy to fall off. Meanwhile, a two-dimensional code printing technology which can meet the requirement under the condition of the production rhythm of the plate glass is not available on the market temporarily.

Disclosure of Invention

The invention aims to provide a device for printing a two-dimensional code by using glass high-temperature ink, which is convenient and quick to operate, reduces the labor intensity of manual code pasting and the production time consumed by code pasting, has a good printing effect, and greatly improves the attractiveness of the appearance of glass.

In order to achieve the purpose, the invention provides a device for printing a two-dimensional code by using glass high-temperature ink, which comprises a base, a Y-axis moving assembly, an X-axis moving assembly, a code spraying trolley and an electric cabinet, wherein the Y-axis moving assembly is installed on the base and can reciprocate along the Y-axis direction of the base, the X-axis moving assembly is installed on the Y-axis moving assembly and can reciprocate along the X-axis direction of the Y-axis moving assembly, the code spraying trolley is arranged on the X-axis moving assembly and can reciprocate on the X-axis moving assembly to a region to be printed, and the electric cabinet is respectively in electric control connection with the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley and is used for controlling the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley to be opened and operated.

Preferably, the device also comprises a computer control console electrically connected with the electric cabinet, wherein the computer control console is used for inputting X, Y positions of the area to be printed and controlling the electric cabinet to drive the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley.

Preferably, the X-axis moving assembly comprises an X-axis beam and an X-axis belt, and the X-axis belt is connected with the code spraying trolley and is arranged to be capable of moving in a transmission mode so as to control the position of the code spraying trolley.

Preferably, the Y-axis moving assembly comprises a Y-axis screw rod, and the Y-axis screw rod is arranged to move the X-axis beam and the electric cabinet to the printing waiting position through transmission.

Preferably, the code spraying trolley is provided with at least 2 nozzles for ink-jet printing.

Preferably, the spray head has an automatic crash protection system.

Preferably, the printing beat of the device is 6-12 s.

Preferably, the ink used by the device is glass high-temperature ink resistant to high temperature of 720 ℃.

The invention also provides a method for printing the two-dimensional code by using the device for printing the two-dimensional code by using the glass high-temperature ink, which comprises the following steps:

fixing a base in a glass high-temperature ink two-dimensional code printing device on transmission equipment at the rear section of a printing machine, editing the contents of two-dimensional codes of all glass to be printed by a computer, generating all glass two-dimensional codes to be printed by two-dimensional code software, inputting the printed X, Y positions by the software, and starting printing after inputting the printing height; at the moment, the X-axis beam and the electric cabinet move to a printing waiting position along with the transmission of the Y-axis lead screw, when glass enters a rear-section transmission device of the printing machine to wait for the printing position, the rear-section transmission device of the printing machine gives a printable signal of the electric cabinet, and the code spraying trolley moves to the printing position along with the transmission of the X-axis belt to print a two-dimensional code; after printing, the electric cabinet sends a printing completion signal to the rear-section transmission equipment of the printing machine, the glass is transmitted to the next procedure, and the code spraying trolley returns to the printing waiting position to wait for the next piece of glass.

Preferably, during the waiting process, the spray head of the code spraying trolley is set to intermittently spray ink so as to ensure the ink spraying clearness of the spray head.

According to the technical scheme, the Y-axis moving assembly is mounted on the base and is set to reciprocate along the Y-axis direction of the base, the X-axis moving assembly is mounted on the Y-axis moving assembly and is set to reciprocate along the X-axis direction of the Y-axis moving assembly, the code spraying trolley is arranged on the X-axis moving assembly and is set to reciprocate on the X-axis moving assembly to a region to be printed, and the electric cabinet is electrically connected with the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley respectively and is used for controlling the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley to be started and operated. Adopt this kind of mode can utilize Y axle removal subassembly and X axle removal subassembly to cooperate, realize will spouting the area that the yard dolly removed any department on glass and need carry out the two-dimensional code and print, whole process realizes automated operation by the electric cabinet, prints the manual sign indicating number of pasting of position accuracy than manual greatly improving, labour saving and time saving more, and the two-dimensional code of printing simultaneously is firmly difficult for dropping.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a device for printing a two-dimensional code by using glass high-temperature ink provided by the invention.

Description of the reference numerals

1-X axis beam

2-X axis belt

3-Y axis screw rod

4-computer control desk

5-electric control box

6-code spraying trolley

7-base

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the present invention, unless otherwise specified, the directional words "upper, lower" and the like included in the terms merely represent the orientation of the terms in the conventional use state or are colloquially known by those skilled in the art, and should not be construed as limiting the terms.

Referring to fig. 1, the invention provides a glass high-temperature ink two-dimensional code printing device, which comprises a base 7, a Y-axis moving assembly, an X-axis moving assembly, a code spraying trolley 6 and an electric cabinet 5, wherein the Y-axis moving assembly is mounted on the base 7 and is set to reciprocate along the Y-axis direction of the base 7, the X-axis moving assembly is mounted on the Y-axis moving assembly and is set to reciprocate along the X-axis direction of the Y-axis moving assembly, the code spraying trolley 6 is arranged on the X-axis moving assembly and is set to reciprocate on the X-axis moving assembly to a region to be printed, and the electric cabinet 5 is respectively in electric control connection with the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley 6 and is used for controlling the opening and operation of the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley 6.

In this embodiment, in order to implement intelligent control, preferably, the apparatus further includes a computer console 4 electrically connected to the electric cabinet 5, and the computer console 4 is configured to input X, Y positions of the region to be printed and control the electric cabinet 5 to drive the Y-axis moving assembly, the X-axis moving assembly, and the inkjet cart 6.

Specifically, the X-axis moving assembly comprises an X-axis cross beam 1 and an X-axis belt 2, wherein the X-axis belt 2 is connected with the code spraying trolley 6 and is set to be capable of moving in a transmission mode so as to control the position of the code spraying trolley 6.

Likewise, the Y-axis moving assembly includes a Y-axis screw 3, and the Y-axis screw 3 is configured to move the X-axis beam 1 and the electric cabinet 5 to the printing waiting position through transmission.

In order to further improve the printing efficiency of the device for printing the two-dimensional code by using the glass high-temperature ink, it is preferable that the code spraying trolley 6 is provided with at least 2 nozzles for ink-jet printing.

In addition, in order to extend the service life of the head and prevent it from being damaged due to collision during printing, it is preferable that the head have an automatic collision avoidance system. Therefore, even if abnormal printing coordinates or machine operation errors occur, the automatic anti-collision protection system can still protect the spray head to be intact.

In order to further optimize the period of the two-dimensional code printing operation, the printing beat of the device is 6-12 s.

After the two-dimensional code is printed by using the glass high-temperature ink printing two-dimensional code device, in order to avoid the printed two-dimensional code from being blurred, deformed, fallen or even lost when meeting a high-temperature environment, the ink used by the device is preferably the glass high-temperature ink resistant to the high temperature of 720 ℃.

In the actual production process, the existing glass processing process with the two-dimensional code is as follows: printing, drying, toughening, inspecting, injection molding, cleaning, code pasting and finally warehousing glass;

the production process can be optimized into the following steps by the device provided by the invention: the glass can be put in storage after being printed and printed with the two-dimensional code, dried, tempered, inspected, injected and cleaned, so that the step of code pasting is saved, the whole glass processing period is shortened invisibly, and the productivity is improved; meanwhile, the two-dimensional code printed in the first step is glass high-temperature ink resistant to high temperature of 720 ℃, and the high-temperature resistant characteristic of the raw material is utilized, so that the printed two-dimensional code in the processes of follow-up drying, toughening, injection molding and the like is guaranteed to be not influenced by high temperature, and the printing process is firm and reliable.

The invention further provides a method for printing a two-dimensional code by using the device for printing the two-dimensional code by using the glass high-temperature ink, which aims to optimize glass processing, and comprises the following steps:

fixing a base 7 in a glass high-temperature ink two-dimensional code printing device on transmission equipment at the rear section of a printing machine, editing the contents of two-dimensional codes of all glass to be printed by a computer, generating all glass two-dimensional codes to be printed by two-dimensional code software, inputting the printed X, Y positions by the software, and starting printing after inputting the printing height; at the moment, the X-axis beam 1 and the electric cabinet 5 move to a printing waiting position along with the transmission of the Y-axis lead screw 3, when glass enters a rear-section transmission device of the printing machine to wait for the printing position, the rear-section transmission device of the printing machine gives a printable signal of the electric cabinet 5, and the code spraying trolley 6 moves to the printing position along with the transmission of the X-axis belt 2 to print a two-dimensional code; after printing, the electric cabinet 5 sends a printing completion signal to the rear-section transmission equipment of the printing machine, the glass is transmitted to the next procedure, and the code spraying trolley 6 returns to the printing waiting position to wait for the next piece of glass.

Further, in order to ensure the ink jet clarity of the jet heads, the jet heads of the code spraying trolley 6 are preferably arranged to jet ink discontinuously in the waiting process.

Can utilize Y axle removal subassembly and X axle removal subassembly to cooperate through above-mentioned mode, realize will spouting the area that the yard dolly removed to any place on glass and need carry out the two-dimensional code and print, whole process realizes automated operation by the electric cabinet, prints the manual sign indicating number of pasting of position accuracy than manual greatly and improves, labour saving and time saving more, and the two-dimensional code of printing simultaneously is firmly difficult for dropping.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (10)

1. A device for printing a two-dimensional code by using high-temperature glass ink is characterized by comprising a base (7), a Y-axis moving assembly, an X-axis moving assembly, a code spraying trolley (6) and an electric cabinet (5), the Y-axis moving component is arranged on the base (7) and can move back and forth along the Y-axis direction of the base (7), the X-axis moving assembly is mounted on the Y-axis moving assembly and is arranged to be capable of reciprocating along the X-axis direction of the Y-axis moving assembly, the code spraying trolley (6) is arranged on the X-axis moving assembly and can move to and fro on the X-axis moving assembly to a region to be printed, the electric control box (5) is respectively connected with the Y-axis moving component, the X-axis moving component and the code spraying trolley (6) in an electric control way, the X-axis moving assembly is used for controlling the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley (6) to be started and operated.

2. The glass high-temperature ink two-dimensional code printing device according to claim 1, further comprising a computer console (4) electrically connected with the electric cabinet (5), wherein the computer console (4) is used for inputting X, Y positions of an area to be printed and controlling the electric cabinet (5) to drive the Y-axis moving assembly, the X-axis moving assembly and the code spraying trolley (6).

3. The glass high-temperature ink two-dimensional code printing device according to claim 1, wherein the X-axis moving assembly comprises an X-axis beam (1) and an X-axis belt (2), and the X-axis belt (2) is connected with the code spraying trolley (6) and is arranged to be capable of moving in a transmission mode so as to control the position of the code spraying trolley (6).

4. The glass high-temperature ink two-dimensional code printing device according to claim 3, wherein the Y-axis moving assembly comprises a Y-axis screw rod (3), and the Y-axis screw rod (3) is arranged to move the X-axis beam (1) and the electric cabinet (5) to a printing waiting position through transmission.

5. The glass high-temperature ink two-dimensional code printing device according to claim 1, wherein the code spraying trolley (6) is provided with at least 2 nozzles for ink-jet printing.

6. The device for printing the two-dimensional code by the glass high-temperature ink according to claim 5, wherein the spray head is provided with an automatic anti-collision protection system.

7. The glass high temperature ink two-dimensional code printing device according to claim 1, wherein the printing beat of the device is 6-12 s.

8. The device for printing the two-dimensional code by using the glass high-temperature ink according to claim 1, wherein the ink used by the device is the glass high-temperature ink resistant to the high temperature of 720 ℃.

9. A method for printing a two-dimensional code by using the glass high-temperature ink two-dimensional code printing device according to any one of claims 1 to 8, wherein the method comprises the following steps:

fixing a base (7) in the glass high-temperature ink two-dimensional code printing device on transmission equipment at the rear section of a printing machine, editing the contents of the two-dimensional codes of all glass to be printed by a computer, generating all glass two-dimensional codes to be printed by two-dimensional code software, inputting the printed X, Y positions by the software, and starting printing after inputting the printing height; at the moment, the X-axis beam (1) and the electric cabinet (5) move to a printing waiting position along with the transmission of the Y-axis screw rod (3), when glass enters the rear-section transmission equipment of the printing machine to wait for the printing position, the rear-section transmission equipment of the printing machine gives a printable signal of the electric cabinet (5), and the code spraying trolley (6) moves to the printing position along with the transmission of the X-axis belt (2) to print a two-dimensional code; after printing, the electric cabinet (5) sends a printing completion signal to the rear-section transmission equipment of the printing machine, the glass is transmitted to the next procedure, and the code spraying trolley (6) returns to the printing waiting position to wait for the next piece of glass.

10. The two-dimensional code printing method according to claim 9, wherein the spray head of the code spraying trolley (6) is arranged to intermittently spray ink during waiting so as to ensure the ink spraying clearness of the spray head.

Images