CN114872429A - General type screen printing equipment - Google Patents

Abstract

The invention provides a universal screen printing device, which comprises: the automatic printing machine comprises a base, a feeding mechanism, a preprocessing mechanism, a visual positioning mechanism, a clamping and conveying mechanism, a printing mechanism and a discharging mechanism, wherein the clamping and conveying mechanism comprises a clamping part, a conveying assembly and a conveying driving assembly, and the printing mechanism comprises a printing part and a light-curing part. This general type screen printing equipment can treat the machined part automatically and carry out polychrome and chromatography printing to the completion prints the body of different grade type, thereby realizes screen printing equipment's commonality.

Description

General type screen printing equipment

Technical Field

The application relates to the technical field of screen printing, in particular to universal screen printing equipment.

Background

A screen printing machine is a machine for printing characters and images using a screen printing plate, and is a generic name of machines or apparatuses for producing printed matters, and belongs to a relatively representative printing apparatus among stencil printing machines. With the development of technology, screen printing automation has become the mainstream of screen printing development.

In real life, most bottles with labels or information patterns are subjected to a screen printing technology, but due to the difference of bottle shapes and the difference of curved surfaces of bottle bodies, the universality among printing devices is difficult to realize in actual production, so that the printing devices need to be frequently replaced to meet the printing requirements, and the printing cost is increased.

Therefore, designing a general screen printing device to realize printing on different bottle bodies becomes a difficult problem to be solved urgently.

Disclosure of Invention

The invention aims to provide a universal screen printing device to solve the technical problem of how to automatically print multiple colors on different types of bottle bodies.

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

a universal screen printing apparatus comprising: the automatic printing machine comprises a base, a feeding mechanism, a preprocessing mechanism, a clamping and conveying mechanism, a printing mechanism and a discharging mechanism, wherein the clamping and conveying mechanism comprises a clamping part, a conveying assembly and a conveying driving assembly for driving the conveying assembly to move; the clamping component comprises a clamping mounting seat, a clamping assembly and a clamping driving assembly for driving a to-be-printed part to transversely swing, longitudinally swing and rotate, the clamping mounting seat is mounted on the base, the clamping driving assembly is mounted on the clamping mounting seat, and the clamping assembly is mounted on the output end of the clamping driving assembly; the number of the printing mechanisms is multiple, and the printing mechanisms are arranged on a conveying path of the conveying assembly at equal intervals; the printing mechanism comprises a printing component and a photocuring component, and the printing component and the photocuring component are both arranged on the base and positioned on the side edge of the conveying path of the clamping component; the printing element comprises a printing plate assembly, a scraper assembly and a printing driving element for driving the printing plate assembly and the scraper assembly to move, the printing driving element is mounted on the base, and the printing plate assembly and the scraper assembly are mounted on the output end of the printing driving element; the feeding mechanism is arranged on the base and connected to the input end of the conveying assembly, and the discharging mechanism is arranged on the base and connected to the output end of the conveying assembly; the pretreatment mechanism is installed on the base and is positioned on the side of the input end of the conveying assembly.

In the above-mentioned general-purpose screen printing apparatus, further, the conveying assembly includes a disc member on which the plurality of clamping components are uniformly distributed.

In the general-purpose screen printing device, further, the printing mechanism further includes a supply assembly for supplying ink to the printing component, and the supply assembly is mounted on the base.

In the general-purpose screen printing device, further, the cooling component is a laser cooling mechanism.

The utility model provides an aforementioned general type screen printing equipment, more closely, feed mechanism includes material loading subassembly and material loading conveyer belt, the material loading subassembly is connected the material loading conveyer belt with between the clamping part, discharge mechanism includes unloading subassembly and unloading conveyer belt, the unloading subassembly is connected the unloading conveyer belt with between the clamping part.

In a further aspect of the present invention, there is provided a universal screen printing apparatus, the printing plate assembly including a screen printing plate member and a plate connecting assembly for clamping the screen printing plate member, the screen printing plate member being mounted on the output end of the print drive unit via the plate connecting assembly.

In a further aspect of the present invention, the squeegee assembly includes a squeegee member and a squeegee drive assembly for driving the squeegee member to move relative to the screen printing plate member, the squeegee drive assembly being mounted on an output end of the print drive unit.

The utility model provides an aforesaid general type screen printing equipment, more closely furtherly, preliminary treatment mechanism carries out the vision positioning mechanism of fixing a position and the preheating mechanism that carries out flame preheating to treating printing including being used for treating printing, vision positioning mechanism with preheating mechanism all installs the side of conveying assembly's input.

In the general screen printing equipment, the visual positioning mechanism further comprises an area-array camera and a line-scan camera for visual positioning.

In sum, compared with the prior art, the invention has the following effects:

1. general type screen printing equipment includes feed mechanism, preprocessing mechanism, centre gripping transport mechanism, printing mechanism and discharge mechanism, realizes material automatic feeding and unloading through feed mechanism and discharge mechanism. Meanwhile, the pretreatment mechanism positions and pretreats the material to be processed, so as to prepare for the next working procedure. The clamping component and the conveying assembly on the clamping and conveying mechanism complete clamping and conveying of the workpiece to be processed, so that the workpiece to be processed can be processed on different stations. The printing part on the printing mechanism completes the printing process of the workpiece to be processed, and the photocuring part performs photocuring on the workpiece after the printing process is completed, so that the workpiece to be processed can be conveniently printed in the next printing process. Through the action, the universal screen printing equipment can automatically print multiple colors on the workpiece to be processed.

2. The clamping part of the general screen printing equipment is provided with the clamping component and drives the part to be printed to swing transversely, swing longitudinally and rotate so as to drive the clamping component to drive the part to be processed to change the posture, so that the printing component can print the part to be processed of different types of bottle bodies, and the general screen printing equipment is enabled to complete the printing of different types of bottle bodies.

3. The number of the clamping components is multiple, and the number of the printing mechanisms is also multiple, so that the working number of the clamping components and the working number of the printing mechanisms can be set according to the requirement of a printing process, the universal screen printing equipment can complete printing of different printing colors, and the universality of the equipment is realized.

Drawings

FIG. 1 is a schematic diagram of a general type screen printing apparatus according to an embodiment of the present invention;

FIG. 2 is a top view of a general type screen printing apparatus according to an embodiment of the present invention;

fig. 3 is a structural diagram of a printing unit of a general type screen printing apparatus according to an embodiment of the present invention.

Description of reference numerals:

1-a base; 2-a feeding mechanism; 3-a pretreatment mechanism; 4-a clamping and conveying mechanism; 5-a printing mechanism; 6-a discharging mechanism; 21-a feeding assembly; 22-a feeding conveyor belt; 41-a clamping member; 42-a transfer assembly; 51-a printing member; 52-light-curing component; 61-a blanking assembly; 62-a blanking conveyor belt; 411-a clamp mount; 412-a clamping assembly; 413-a clamping drive assembly; 511-a plate assembly; 512-a squeegee assembly; 513-print drive means; 5111-screen plate member; 5112-a plate connecting assembly; 5121-a scraper member; 5122-Screed drive Assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as "transferring" another element, it can be directly transferred to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

For the understanding of those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 to 3, a general type screen printing apparatus includes: the automatic printing machine comprises a base 1, a feeding mechanism 2, a pretreatment mechanism 3, a clamping and conveying mechanism 4, a printing mechanism 5 and a discharging mechanism 6; the clamping and conveying mechanism 4 comprises a clamping component 41, a conveying component 42 and a conveying driving component for driving the conveying component 42 to move, wherein the conveying driving component is installed on the base 1, the conveying component 42 is installed on the output end of the conveying driving component, the number of the clamping components 41 is multiple, and the plurality of the clamping components 41 are all installed on the conveying component 42; the clamping component 41 comprises a clamping installation seat 411, a clamping assembly 412 and a clamping driving assembly 413 for driving a to-be-printed member to transversely swing, longitudinally swing and rotate, the clamping installation seat 411 is installed on the base 1, the clamping driving assembly 413 is installed on the clamping installation seat 411, and the clamping assembly 412 is installed on the output end of the clamping driving assembly 413; the number of the printing mechanisms 5 is multiple, and the multiple printing mechanisms 5 are equidistantly arranged on the conveying path of the conveying assembly 42; the printing mechanism 5 comprises a printing component 51 and a light-curing component 52, wherein the printing component 51 and the light-curing component 52 are both arranged on the base 1 and positioned on the side edge of the conveying path of the clamping component 41; the printing part 51 includes: a printing plate assembly 511, a scraper assembly 512 and a printing driving member 513 for driving the printing plate assembly 511 and the scraper assembly 512 to move, wherein the printing driving member 513 is mounted on the base 1, and the printing plate assembly 511 and the scraper assembly 512 are mounted on the output end of the printing driving member 513; the feeding mechanism 2 is arranged on the base 1 and connected to the input end of the conveying assembly 42, and the discharging mechanism 6 is arranged on the base 1 and connected to the output end of the conveying assembly 42; the pre-treatment mechanism 3 is mounted on the base 1 and is located on the side of the input end of the transfer assembly 42.

Wherein, the clamping assembly 412 on the clamping component 41 is used for clamping the workpiece to be processed, and the clamping assembly 412 is installed on the output end of the clamping driving assembly 413. In this embodiment, the clamp driving assembly 413 is mounted on the transfer assembly 42 through the clamp mount 411.

It should be noted that the clamping driving assembly 413 includes a transverse swing driving assembly, a longitudinal swing driving assembly, and a rotation driving assembly (none shown in the drawings) to drive the workpiece to be processed to perform posture changes such as transverse swing, longitudinal swing, and rotation, so as to meet the processing requirements for different curved surfaces on the bottle body. In this embodiment, the power output sources of the transverse swing driving component, the longitudinal swing driving component and the rotation driving component are all motors, and can be driven jointly or independently according to actual production needs so as to meet the processing requirements for different bottle bodies.

The conveying driving assembly (not shown in the figure) is installed on the base 1, and drives the conveying assembly 42 and the clamping component 41 installed on the conveying assembly 42 to rotate, so that the clamping component 41 moves along the processing position, and the universal screen printing equipment automatically completes a plurality of printing processes.

In the present embodiment, a single printing mechanism 5 is used for printing a single color, and therefore, the number of printing mechanisms 5 of the general-purpose type screen printing apparatus can be set according to the number of single colors of the color to be printed; a plurality of printing mechanisms 5 can be installed in advance, and the working quantity of the printing mechanisms 5 is set according to the single-color quantity of the actual printing colors, so that the universal silk screen printing equipment can meet the printing requirements of different printing colors, and can also complete multicolor printing. The plurality of printing mechanisms 5 are mounted on the moving path of the gripper block 412.

In addition, the printing mechanism 5 comprises a printing part 51 and a light-curing part 52, the printing part 51 and the light-curing part 52 are installed in the vicinity of each other, and the printing part 51 is installed at the upstream of the transfer direction of the workpiece to be processed of the light-curing part 52, so that the printing part 51 of the printing mechanism 5 is ensured to print the workpiece to be processed first, and then the light-curing part 52 is used for performing light curing on the workpiece printed by the printing part 51, so that printing ink and time light curing are ensured, and the next processing procedure of the workpiece to be processed is not influenced.

In the present embodiment, the printing plate assembly 511 and the scraper assembly 512 are both mounted on the output end of the printing drive unit 513, and the printing drive unit 513 drives the printing plate assembly 511 and the scraper assembly 512 to print the workpiece to be processed clamped on the clamping assembly 412. It should be noted that, in this embodiment, the printing driving component 513 can drive the printing plate assembly 511 and the squeegee assembly 512 to translate along the X axis, the Y axis, and the Z axis and rotate along the Z axis, so as to ensure that the printing plate assembly 511 and the squeegee assembly 512 can print the workpiece to be processed, whose posture is constantly changed on the clamping assembly 412. In other embodiments, the print drive assembly 513 may be configured as a four-axis industrial robot.

As shown in fig. 2, the transfer assembly 42 includes a disc member on which the plurality of gripping members 41 are uniformly distributed.

Wherein, the conveying component 42 is used for installing the clamping component 41 and conveying the workpiece to be processed. In this embodiment, the transfer assembly 42 comprises a disc-shaped member, and the gripping member 41 is mounted on the rim of the disc-shaped member. When the conveyor drive assembly drives the conveyor assembly 42, the disc member rotates along the central axis, and the gripping member 41 can follow the disc to rotate, thereby transporting the workpiece to be processed to the processing station, thereby completing the processing. It should be noted that, in some embodiments, the conveying assembly 42 may also be configured to be driven by a belt loop to meet the requirement of conveying the clamping component 41 and the workpiece to be processed.

The printing mechanism 5 further comprises a supply assembly for supplying ink to the printing member 51, said supply assembly being mounted on the base 1.

In this embodiment, the printing mechanism 5 further includes a feeding assembly (not shown) for supplying printing materials such as ink to the printing unit 51, so as to ensure that the printing unit 51 can continuously work, thereby providing the working efficiency of the general-purpose screen printing apparatus.

As shown in fig. 1 and 2, the light-fixing component 52 is an LED light-fixing mechanism.

The photocurable component 52 is mainly used for drying the ink printed on the printing member to prevent the ink from flowing and affecting the printed pattern.

As shown in fig. 1 and 2, the feeding mechanism 2 includes a feeding assembly 21 and a feeding conveyor belt 22, the feeding assembly 21 is connected between the feeding conveyor belt 22 and the clamping component 41, the discharging mechanism 6 includes a discharging assembly 61 and a discharging conveyor belt 62, and the discharging assembly 61 is connected between the discharging conveyor belt 62 and the clamping component 41.

The feeding assembly 21 and the feeding conveyor belt 22 are both arranged on the base 1, and the feeding assembly 21 is positioned above the feeding conveyor belt 22; the feeding assembly 21 is used for transferring the workpiece to be processed from the feeding conveyor belt 22 to the clamping assembly 412 of the clamping part 41. The blanking assembly 61 and the blanking conveyor belt 62 are both arranged on the base 1, and the blanking assembly 61 is positioned above the blanking conveyor belt 62; the blanking assembly 61 is used to transfer the finished work piece from the clamping assembly 412 to the blanking conveyor 62.

As shown in fig. 3, the printing plate assembly 511 includes a screen printing plate member 5111 and a printing plate connecting assembly 5112 for clamping the screen printing plate member 5111, and the screen printing plate member 5111 is mounted on the output end of the printing drive unit 513 via the printing plate connecting assembly 5112.

In this embodiment, the plate connecting assembly 5112 can be adjusted according to the size of the screen printing plate member 5111, thereby facilitating replacement of the screen printing plate member 5111 and satisfying clamping of screen printing plate members 5111 of different sizes.

As shown in fig. 3, the squeegee assembly 512 includes a squeegee member 5121 and a squeegee drive assembly 5122 for driving the squeegee member 5121 to move relative to the screen printing plate member 5111, the squeegee drive assembly 5122 being mounted on the output end of the print drive unit 513.

The squeegee drive assembly 5122 drives the squeegee member 5121 to move relative to the screen printing plate member 5111 to cause ink to be printed onto the workpiece to complete the printing action.

As shown in fig. 1, the preprocessing mechanism 3 includes a vision positioning mechanism for positioning the to-be-printed part and a preheating mechanism for preheating the flame of the to-be-printed part, and the vision positioning mechanism and the preheating mechanism are both installed at the side of the input end of the conveying assembly 42. The visual positioning mechanism comprises an area-array camera and a line-scan camera for visual positioning.

In the present embodiment, the visual positioning mechanism (not shown in the figure) is an area-array camera and a line-scan camera, and scans the workpiece to be processed for confirming the initial processing position of the workpiece to be processed. The preheating mechanism preheats flame, so that the surface temperature of the standby workpiece reaches a proper temperature, and the printing ink is convenient to adsorb.

The foregoing describes only some embodiments of the present invention and modifications and variations thereof will be apparent to those skilled in the art without departing from the spirit and scope of the invention.

Claims (9)

1. A general type screen printing apparatus, characterized in that, general type screen printing apparatus includes: the automatic printing machine comprises a base, a feeding mechanism, a pretreatment mechanism, a clamping and conveying mechanism, a printing mechanism and a discharging mechanism;

the clamping and conveying mechanism comprises clamping components, a conveying assembly and a conveying driving assembly for driving the conveying assembly to move, the conveying driving assembly is mounted on the base, the conveying assembly is mounted on the output end of the conveying driving assembly, the number of the clamping components is multiple, and the clamping components are mounted on the conveying assembly;

the clamping component comprises a clamping mounting seat, a clamping assembly and a clamping driving assembly for driving a to-be-printed part to transversely swing, longitudinally swing and rotate, the clamping mounting seat is mounted on the base, the clamping driving assembly is mounted on the clamping mounting seat, and the clamping assembly is mounted on the output end of the clamping driving assembly;

the number of the printing mechanisms is multiple, and the printing mechanisms are arranged on a conveying path of the conveying assembly at equal intervals; the printing mechanism comprises a printing component and a photocuring component, and the printing component and the photocuring component are both arranged on the base and positioned on the side edge of the conveying path of the clamping component;

the printing element comprises a printing plate assembly, a scraper assembly and a printing driving element for driving the printing plate assembly and the scraper assembly to move, the printing driving element is mounted on the base, and the printing plate assembly and the scraper assembly are mounted on the output end of the printing driving element;

the feeding mechanism is arranged on the base and connected to the input end of the conveying assembly, and the discharging mechanism is arranged on the base and connected to the output end of the conveying assembly; the pretreatment mechanism is installed on the base and is positioned on the side of the input end of the conveying assembly.

2. A universal screen printing apparatus as claimed in claim 1, wherein: the conveying assembly comprises a disc component, and the plurality of clamping parts are uniformly distributed on the disc component.

3. A universal screen printing apparatus according to claim 1, wherein: the printing mechanism further comprises a feed assembly for providing ink to the printing element, the feed assembly being mounted on the base.

4. A universal screen printing apparatus according to claim 1, wherein: the light-curing component is an LED light-curing mechanism.

5. A universal screen printing apparatus according to claim 1, wherein: the feeding mechanism comprises a feeding assembly and a feeding conveying belt, the feeding assembly is connected between the feeding conveying belt and the clamping parts, the discharging mechanism comprises a discharging assembly and a discharging conveying belt, and the discharging assembly is connected between the discharging conveying belt and the clamping parts.

6. A universal screen printing apparatus according to claim 1, wherein: the printing plate assembly comprises a screen printing plate member and a printing plate connecting assembly for clamping the screen printing plate member, the screen printing plate member being mounted on the output end of the print drive component by the printing plate connecting assembly.

7. A universal screen printing apparatus according to claim 6, wherein: the squeegee assembly includes a squeegee member and a squeegee drive assembly for driving the squeegee member in movement relative to the screen printing plate member, the squeegee drive assembly being mounted on an output end of the print drive unit.

8. A universal screen printing apparatus according to claim 1, wherein: the pretreatment mechanism is including being used for treating the vision positioning mechanism that prints the piece and treating the preheating mechanism that prints the piece and carry out flame preheating, vision positioning mechanism with preheating the mechanism and all installing the side of conveying assembly's input.

9. A universal screen printing apparatus according to claim 8, wherein: the visual positioning mechanism comprises an area-array camera and a line-scan camera for visual positioning.

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