CN205522953U - Be applied to high accuracy intelligence counterpoint mechanism of silk screen printing machine - Google Patents

Abstract

The utility model discloses a be applied to high accuracy intelligence counterpoint mechanism of silk screen printing machine, which comprises a frame, including carrying material portion, control system, CCD mechanism and counterpoint mechanism in the frame, carry material portion set up in counterpoint mechanism upper portion, CCD mechanism is located carry directly over the material portion, control system electric connection CCD mechanism and counterpoint mechanism, it includes the support to carry material portion, support upper portion is provided with the fixed part that is used for the fixed board of undertaking the printing of, beneficial effect does: be applied to the silk screen printing machine with the counterpoint mechanism of above -mentioned scheme, simple structure can carry out the accuracy to the stock automatically and counterpoint to improve the printing yield, increase work efficiency.

Description

It is applied to the high-precision intelligent positioning mechanism of screen printer

Technical field

This utility model is specifically related to a kind of high-precision intelligent positioning mechanism being applied to screen printer.

Background technology

Screen process press is the machine executing print with screen printing forme, and screen process press is the machine of printing word and image, is the general name for the machine or equipment producing leaflet；Screen process press belongs to more representational printing equipment in porous printer；At present, screen process press has tended to automatization, and automatization's feeding, printing and finished product are collected, and during stock (such as glass plate) is at feeding end to printing, its position, direction cannot cater to print request automatically, thus accurately cannot print stock.

In sum, there is following defect in prior art: existing screen process press intelligence can not carry out position adjustment to stock exactly, it is impossible to meets printing demand.

Utility model content

This utility model provides a kind of novel high-precision intelligent positioning mechanism being applied to screen printer for solving prior art problem.

The technical solution of the utility model is as follows: be applied to the high-precision intelligent positioning mechanism of screen printer, including frame, described frame includes material containing portion, control system, CCD mechanism and positioning mechanism；Described material containing portion is arranged at described positioning mechanism top；Described CCD mechanism is positioned at directly over described material containing portion；Described control system is electrically connected with described CCD mechanism and positioning mechanism；Described material containing portion includes that support, described frame upper are provided with the fixed part for fixing printing plate.

Preferred version, described fixed part is vacuum plate sucking.

Preferred version, described vacuum plate sucking includes plate body, sucker, air-breathing bar and the pump housing, and described sucker is fixedly installed on described plate body surface, and described sucker includes shirt rim and is positioned at the paracentral valve of skirt, described gas bar one end connects described valve, and the other end connects the described pump housing.

Preferred version, is connected the air valve having for controlling sucker internal gas pressure between described valve with gas bar.

Preferred version, described air valve includes the spool of cylindricality, described spool face offers the first pore, described valve core outer surface is rotatably arranged with the valve pocket of cylindricality, and described valve pocket surface offers second pore relative with the first pore, the described valve pocket inner surface described valve core outer surface of laminating, one motor is set outside described valve pocket, described motor output end connects a gear, and described valve pocket outer surface forms some teeth groove, and described gear is meshed with teeth groove.

Preferred version, the described pump housing and motor are electrically connected with described control system.

Preferred version; described CCD mechanism includes display system, protective cover and is positioned at the CCD sensitive piece of described protective cover; described CCD sensitive piece includes front CCD camera lens and rear CCD camera lens; described front CCD camera lens, rear CCD camera lens are respectively positioned on above described fixed part, and described front CCD camera lens, rear CCD camera lens are electrically connected with described display system.

Preferred version, described protective cover includes drain pan and is positioned at the cover plate on drain pan top, and described cover plate hinge is in described drain pan top.

Preferred version, described positioning mechanism includes the first gripper shoe and is positioned at second gripper shoe on the first gripper shoe top, described first gripper shoe surface configuration has the first motor and the second motor, described first motor output end connects X-axis screw mandrel, described second motor output end connects Y-axis screw mandrel, bottom described second gripper shoe, adaptive connection has X-axis slide block and Y-axis slide block, described X-axis slide block and Y-axis slide block to connect described X-axis screw mandrel and Y-axis screw mandrel respectively.

Preferred version, described X-axis slide block and Y-axis slider top be provided with cylindricality adapter sleeve, and described cylindricality adapter sleeve top arranges a rotating connection post, and described connection column top is fixedly connected on bottom described second gripper shoe.

The beneficial effects of the utility model are: the positioning mechanism of such scheme is applied to screen printer, simple in construction, it is possible to stock carries out accurate contraposition automatically, thus improves printing yield rate, increase work efficiency.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation.

Detailed description of the invention

The explanation of following embodiment is specific embodiment that is graphic with reference to add, that implement in order to illustrate this utility model may be used to.The direction term that this utility model is previously mentioned, such as " on ", D score, "front", "rear", "left", "right", " interior ", " outward ", " side " etc., be only the direction with reference to annexed drawings.Therefore, the direction term of use is to illustrate and understand this utility model, and is not used to limit this utility model.In the drawings, the unit that structure is similar is to represent with identical label.

As it is shown in figure 1, the high-precision intelligent positioning mechanism being applied to screen printer of the present utility model, including for printing plate 3 position being carried out the CCD mechanism 2 of electronic recognition and coordinating described CCD mechanism 2 that printing plate 3 is carried out the positioning mechanism 4 of fine position；Described positioning mechanism 4 belongs to a part for screen process press, printing plate 3(such as: glass plate, acrylic board) feeding after coarse positioning, by this positioning mechanism 4 be accurately positioned by printing plate 3 position align, in order to during printing, pattern position para-position is accurate；This equipment includes frame, and described frame includes material containing portion, control system, CCD mechanism 2 and positioning mechanism 4；Described material containing portion is arranged at described positioning mechanism 4 top；Described CCD mechanism 2 is positioned at directly over described material containing portion；Described control system is electrically connected with described CCD mechanism 2 and positioning mechanism 4；Described material containing portion includes that support 5, described support 5 top are provided with the fixed part for fixing printing plate 3.

Described fixed part is vacuum plate sucking 1, with fixing described printing plate 3；Such as, described vacuum plate sucking 1 includes plate body, sucker, air-breathing bar and the pump housing, and described sucker is fixedly installed on described plate body surface, and described sucker includes shirt rim and is positioned at the paracentral valve of skirt, described gas bar one end connects described valve, and the other end connects the described pump housing；Described printing plate 3 contacts with sucker when being transported on vacuum plate sucking 1 by mechanical hand, and then the pump housing is bled, and suction cup interior air pressure increases thus holds printing plate 3.

Preferably, air valve is set between described valve and gas bar to control sucker internal gas pressure, wherein, described air valve includes the spool of cylindricality, described spool face offers the first pore, described valve core outer surface is rotatably arranged with the valve pocket of cylindricality, described valve pocket surface offers second pore relative with the first pore, the described valve pocket inner surface described valve core outer surface of laminating, one motor is set outside described valve pocket, described motor output end connects a gear, and described valve pocket outer surface forms some teeth groove, and described gear is meshed with teeth groove；When described sucker needs supercharging absorption stock, the outfan of described motor drives described valve pocket to rotate, makes the first pore described in the side walls seal of described valve pocket, enables the aerofluxus smoothly of described sucker；When described sucker needs to abandon stock, the outfan of described motor drives described valve pocket to rotate, and described first pore and the second pore coincide, and opening occur between gas bar and sucker, air is quickly entered, so that described sucker unclamps described printing plate 3 in sucker.

The described pump housing and motor are electrically connected with described control system, and described control system controls the pump housing and the unlatching of motor and closing time, to coordinate the work of sucker.

Described CCD mechanism 2 includes display system, protective cover and is positioned at the CCD sensitive piece of described protective cover; described CCD sensitive piece includes front CCD camera lens and rear CCD camera lens; described front CCD camera lens, rear CCD camera lens are respectively positioned on above described fixed part, and described front CCD camera lens, rear CCD camera lens are electrically connected with described display system.

The position of printing plate 3 is identified by described CCD mechanism 2, the location drawing picture of printing plate 3 is converted into the signal of telecommunication and sends to control system, and described control system calculates position data, then controls positioning mechanism 4 and printing plate 3 is carried out fine position.

Described protective cover includes drain pan and is positioned at the cover plate on drain pan top, and described cover plate hinge is in described drain pan top.

nullDescribed positioning mechanism 4 includes the first gripper shoe and is positioned at second gripper shoe on the first gripper shoe top，Described first gripper shoe surface configuration has the first motor and the second motor，Described first motor output end connects X-axis screw mandrel，Described second motor output end connects Y-axis screw mandrel，Bottom described second gripper shoe, there are X-axis slide block and Y-axis slide block adaptive connection，Described X-axis slide block and Y-axis slide block connect described X-axis screw mandrel and Y-axis screw mandrel respectively，Wherein，Described X-axis slide block and Y-axis slider top are provided with cylindricality adapter sleeve，Described cylindricality adapter sleeve top arranges a rotating connection post，Described connection column top is fixedly connected on bottom described second gripper shoe，Described X-axis screw mandrel and Y-axis screw mandrel drive respectively and move with X-axis slide block and Y-axis slide block，Thus drive the second gripper shoe displacement，The printing plate 3 of the support 5 and support 5 upper end that are positioned at the second gripper shoe surface adjusts displacement with applicable printing position simultaneously.

The beneficial effects of the utility model are: the positioning mechanism 4 of such scheme is applied to screen printer, simple in construction, it is possible to stock carries out accurate contraposition automatically, thus improves printing yield rate, increase work efficiency.

Claims (10)

1. it is applied to the high-precision intelligent positioning mechanism of screen printer, it is characterised in that include frame, described frame includes material containing portion, control system, CCD mechanism and positioning mechanism；Described material containing portion is arranged at described positioning mechanism top；Described CCD mechanism is positioned at directly over described material containing portion；Described control system is electrically connected with described CCD mechanism and positioning mechanism；Described material containing portion includes that support, described frame upper are provided with the fixed part for fixing printing plate.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 1, it is characterised in that described fixed part is vacuum plate sucking.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 2, it is characterized in that, described vacuum plate sucking includes plate body, sucker, air-breathing bar and the pump housing, described sucker is fixedly installed on described plate body surface, described sucker includes shirt rim and is positioned at the paracentral valve of skirt, described gas bar one end connects described valve, and the other end connects the described pump housing.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 3, it is characterised in that be connected the air valve having for controlling sucker internal gas pressure between described valve with gas bar.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 4, it is characterized in that, described air valve includes the spool of cylindricality, described spool face offers the first pore, described valve core outer surface is rotatably arranged with the valve pocket of cylindricality, described valve pocket surface offers second pore relative with the first pore, the described valve pocket inner surface described valve core outer surface of laminating, one motor is set outside described valve pocket, described motor output end connects a gear, described valve pocket outer surface forms some teeth groove, and described gear is meshed with teeth groove.

6. according to the high-precision intelligent positioning mechanism being applied to screen printer described in claim 3 or 5, it is characterised in that the described pump housing and motor are electrically connected with described control system.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 1; it is characterized in that; described CCD mechanism includes display system, protective cover and is positioned at the CCD sensitive piece of described protective cover; described CCD sensitive piece includes front CCD camera lens and rear CCD camera lens; described front CCD camera lens, rear CCD camera lens are respectively positioned on above described fixed part, and described front CCD camera lens, rear CCD camera lens are electrically connected with described display system.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 3, it is characterised in that described protective cover includes drain pan and is positioned at the cover plate on drain pan top, and described cover plate hinge is in described drain pan top.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 1, it is characterized in that, described positioning mechanism includes the first gripper shoe and is positioned at second gripper shoe on the first gripper shoe top, described first gripper shoe surface configuration has the first motor and the second motor, described first motor output end connects X-axis screw mandrel, described second motor output end connects Y-axis screw mandrel, bottom described second gripper shoe, adaptive connection has X-axis slide block and Y-axis slide block, described X-axis slide block and Y-axis slide block to connect described X-axis screw mandrel and Y-axis screw mandrel respectively.

The high-precision intelligent positioning mechanism being applied to screen printer the most according to claim 5, it is characterized in that, described X-axis slide block and Y-axis slider top are provided with cylindricality adapter sleeve, described cylindricality adapter sleeve top arranges a rotating connection post, and described connection column top is fixedly connected on bottom described second gripper shoe.