CN204053240U - A kind of touch-screen etching laser machining - Google Patents

Abstract

The utility model provides a kind of touch-screen etching laser machining, described etching laser machining comprises frame, worktable part, vacuum microscope carrier parts, crossbeam Z axis parts, light path part, CCD parts, industrial computer and laser instrument, described worktable part and crossbeam Z axis parts are fixed in frame, described vacuum microscope carrier parts are fixed on worktable part, and described light path part, CCD parts, industrial computer and laser instrument are fixed on crossbeam Z axis parts.The utility model adopts linear electric motors and the transmission of precise guide rail guiding, high accuracy grating closed-loop feedback controls, the repetition of effective guarantee equipment, positioning precision, improve efficiency and the yields of product, the yield solving manual big width laser etching on traditional gold-tinted chemical etching and market is low, takies the problem that human resources are many.

Description

A kind of touch-screen etching laser machining

Technical field

The utility model relates to the manufacturing technology field of touch-screen, is related specifically to a kind of touch-screen etching laser machining.

Background technology

Along with the development of electron trade, touch-screen overall application, in each class of electronic devices, particularly along with the fast sale of Apple series of products, obtained in recent years and developed fast, numerous producer actively drops into research and development and produces, but capacitive touch screen production technology is quite complicated.Capacitance touch screen for substrate, deposits TCO (mainly ITO) and metal with glass or PET thereon, and recycling etching technics makes circuit, and its etching technics is part most crucial in whole processing procedure.Traditional etching technics utilizes the mode of gold-tinted chemical etching to carry out, and it has a lot of shortcoming: mainly contaminated environment, not easily realizes automation, takies human resources more, and consumptive material is large, and manufacturing cost is high.Laser ablation is alternative preferred plan at present, and compare gold-tinted etching, laser ablation has many good qualities: laser ablation processing procedure operation is simple; Yield is high, and >=98%; Automatic Control operates, and needs little employee, and only need simple loading and unloading, require low to employee, personnel cost is low; Directly by computer graphics and importing, without the need to plate-making, each conversion product simple and fast, hands over the phase short; Manufacturing flexible degree is high, and appropriate products scope is wide: can a tractor serves several purposes, not only can etch ito film, also can to metal etch, and high accuracy marking, cutting etc., applied widely; Non-environmental-pollution, on enterprise employee health without impact, without the need to environmental protection certification; Do not need other auxiliary facilities; Energy resource consumption: only need a small amount of electricity gentle; Maintenance cost is low: equipment life, core component was non-maintaining more than 10 years, and maintenance cost is extremely low, can ignore; Fund input is few; Laser ablation more easily realizes automation.

Utility model content

The purpose of this utility model is to provide a kind of touch-screen etching laser machining, and adopt linear electric motors and the transmission of precise guide rail guiding, high accuracy grating closed-loop feedback controls, the repetition of effective guarantee equipment, positioning precision, improves efficiency and the yields of product.

For this reason, the utility model is by the following technical solutions:

A kind of touch-screen etching laser machining, described etching laser machining comprises frame, worktable part, vacuum microscope carrier parts, crossbeam Z axis parts, light path part, CCD parts, industrial computer and laser instrument, described worktable part and crossbeam Z axis parts are fixed in frame, described vacuum microscope carrier parts are fixed on worktable part, and described light path part, CCD parts, industrial computer and laser instrument are fixed on crossbeam Z axis parts.

Wherein, described frame is also fixed with hood outward, and described hood comprises section material framework, control operation parts, fluorescent tube illuminace component, stainless steel table top and warning lamp; Described control operation parts, fluorescent tube illuminace component and warning lamp are positioned on section material framework, and described stainless steel table top is positioned at both sides above worktable part; Described control operation parts comprise keys in parts, control button and display; Described fluorescent tube illuminace component comprises lampshade and fluorescent tube, and described fluorescent tube is positioned at below lampshade.

Wherein, described worktable part comprises X-axis parts and Y-axis parts, and described X-axis parts are fixed in frame, and described Y-axis parts are fixed on X-axis parts; Described X-axis parts comprise X-axis pedestal, X-axis adjusting part, X-axis supporting plate and X-axis protective cover, and described X-axis adjusting part is fixed on X-axis pedestal, and described X-axis supporting plate is fixed on X-axis adjusting part, and described X-axis protective cover covers on two of X-axis adjusting part; Described Y-axis parts comprise Y-axis adjusting part, Y-axis supporting plate and Y-axis protective cover, described Y-axis adjusting part is fixed on X-axis supporting plate, described Y-axis supporting plate is fixed on Y-axis adjusting part, and described vacuum microscope carrier parts are fixed on Y-axis supporting plate, and described Y-axis protective cover covers on two of Y-axis adjusting part; Described Y-axis supporting plate is also provided with read head.

Wherein, described vacuum microscope carrier parts comprise base plate and sucker panel, and described sucker panel is fixed on base plate by frock, is also provided with vacuumizing joint under described base plate.

Wherein, described crossbeam Z axis parts comprise crossbeam, electric machine assembly, linear bearing assembly, screw component, smoking cap and Z axis photoelectric sensor, described electric machine assembly, linear bearing assembly, screw component and Z axis photoelectric sensor are fixed on crossbeam, described electric machine assembly is by shaft coupling connection wire rod assembly, described screw component is connected light path part with linear bearing assembly, and described smoking cap is fixed on below crossbeam.

Wherein, described light path part comprises Z axis supporting plate, camera lens transition components and laser beam modulation head assembly, and described camera lens transition components and laser beam modulation head assembly are fixed on Z axis supporting plate, and described camera lens transition components comprises beam expanding lens assembly, scanning galvanometer assembly and field lens; Described laser beam modulation head assembly connecting laser.

Wherein, described CCD parts comprise adjusting part and photomoduel, and described adjusting part comprises adjustment seat, line slideway and hand and twists spanner, and described photomoduel, line slideway and hand are twisted spanner and be fixed in adjustment seat.

Wherein, described adjustment seat comprises lateral adjustments seat and longitudinal adjustment seat, described line slideway comprises horizontal line slideway and longitudinal line slideway, described horizontal line slideway is fixed on lateral adjustments seat, described longitudinal line slideway is fixed in longitudinal adjustment seat, and described lateral adjustments seat connects longitudinal line slideway; Described camera components comprises camera mount pad, camera, camera light source and lens assembly, and described camera, camera light source and lens assembly are fixed on horizontal line slideway by camera mount pad.

The utility model adopts above technical scheme, adopt linear electric motors and the transmission of precise guide rail guiding, high accuracy grating closed-loop feedback controls, the repetition of effective guarantee equipment, positioning precision, improve efficiency and the yields of product, the yield solving manual big width laser etching on traditional gold-tinted chemical etching and market is low, takies the problem that human resources are many.

Accompanying drawing explanation

Fig. 1 is the internal structure schematic diagram of the utility model touch-screen etching laser machining.

Fig. 2 is the hood external structure schematic diagram of the utility model touch-screen etching laser machining.

Fig. 3 is the structural representation of the worktable part of the utility model touch-screen etching laser machining.

Fig. 4 is the structural representation of the vacuum microscope carrier parts of the utility model touch-screen etching laser machining.

Fig. 5 is the structural representation of the crossbeam Z axis parts of the utility model touch-screen etching laser machining.

Fig. 6 is the structural representation of the light path part of the utility model touch-screen etching laser machining.

Fig. 7 is the structural representation of the CCD parts of the utility model touch-screen etching laser machining.

Detailed description of the invention

In order to make the purpose of this utility model, feature and advantage more clear, below in conjunction with drawings and Examples, explanation is specifically made to detailed description of the invention of the present utility model, in the following description, set forth a lot of concrete details so that understand the utility model fully, but the utility model can be implemented in other modes being much different from description.Therefore, the utility model is not by the restriction of the concrete enforcement of following discloses.

A kind of touch-screen etching laser machining, as shown in Figure 1, described etching laser machining comprises frame 1, worktable part 2, vacuum microscope carrier parts 3, crossbeam Z axis parts 4, light path part 5, CCD parts 6, industrial computer 7 and laser instrument 8, described worktable part 2 and crossbeam Z axis parts 4 are fixed in frame 1, described vacuum microscope carrier parts 3 are fixed on worktable part 2, and described light path part 5, CCD parts 6, industrial computer 7 and laser instrument 8 are fixed on crossbeam Z axis parts.

As shown in Figure 2, described frame 1 is outer is also fixed with hood 11, and described hood 11 comprises section material framework 111, control operation parts 112, fluorescent tube illuminace component 113, stainless steel table top 114 and warning lamp 115; Described control operation parts 112, fluorescent tube illuminace component 113 and warning lamp 115 are positioned on section material framework 111, and described stainless steel table top 114 is positioned at both sides above worktable part 2; Described control operation parts 112 comprise keys in parts 1121, control button 1122 and display 1123, automatically calculating and the position correction value determining etched features, determining the physical location of etched features for arranging computer; Described fluorescent tube illuminace component 113 comprises lampshade 1131 and fluorescent tube 1132, and described fluorescent tube 1132 is positioned at below lampshade 1131.Described stainless steel table top 114 can be used for the interim product placed before and after etching, is thrown light on by fluorescent tube illuminace component 113, so that whether product exists dirty before manual detection etching, and etching effect etc. after etching; Shown in warning lamp 115 for sending warning, the process of prompting touch-screen etching or the problem such as the system failure.

As shown in Figure 3, described worktable part 2 comprises X-axis parts 21 and Y-axis parts 22, and described X-axis parts 21 are fixed in frame 1, and described Y-axis parts 22 are fixed on X-axis parts 21; Described X-axis parts 21 comprise X-axis pedestal 211, X-axis adjusting part 212, X-axis supporting plate 213 and X-axis protective cover 214, described X-axis adjusting part 212 is fixed on X-axis pedestal 211, described X-axis supporting plate 213 is fixed on X-axis adjusting part 212, and described X-axis protective cover 214 covers on 212 two of X-axis adjusting part; Described Y-axis parts 22 comprise Y-axis adjusting part 221, Y-axis supporting plate 222 and Y-axis protective cover 223, described Y-axis adjusting part 221 is fixed on X-axis supporting plate 222, described Y-axis supporting plate 222 is fixed on Y-axis adjusting part 221, described vacuum microscope carrier parts 3 are fixed on Y-axis supporting plate 222, and described Y-axis protective cover 223 covers on two of Y-axis adjusting part 221; On described Y-axis supporting plate, 222 are also provided with read head 23.

As shown in Figure 4, described vacuum microscope carrier parts 3 comprise base plate 31 and sucker panel 32, and described sucker panel 32 is fixed on base plate 31 by frock 33, are also provided with vacuumizing joint 34 under described base plate 31, connect vacuum extractor, for vacuumizing.

As shown in Figure 5, described crossbeam Z axis parts 4 comprise crossbeam 41, electric machine assembly 42, linear bearing assembly 43, screw component 44, smoking cap 45 and Z axis photoelectric sensor 46, described electric machine assembly 42, linear bearing assembly 43, screw component 44 and Z axis photoelectric sensor 46 are fixed on crossbeam 41, described electric machine assembly 42 is by shaft coupling 47 connection wire rod assembly 44, described screw component 44 is connected light path part 5 with linear bearing assembly 43, for adjusting the position of light path part 5, described smoking cap 45 is fixed on below crossbeam 41, owing to extracting the dust that laser ablation produces.

As shown in Figure 6, described light path part 5 comprises Z axis supporting plate 51, camera lens transition components 52 and laser beam modulation head assembly 53, described camera lens transition components 52 and laser beam modulation head assembly 53 are fixed on Z axis supporting plate 51, and described camera lens transition components 52 comprises beam expanding lens assembly 521, scanning galvanometer assembly 522 and field lens 523; Described laser beam modulation head assembly 53 connecting laser 8.

As shown in Figure 7, described CCD parts 6 comprise adjusting part 61 and photomoduel 62, described adjusting part 61 comprises adjustment seat 611, line slideway 612 and hand and twists spanner 613, and described photomoduel 62, line slideway 612 and hand are twisted spanner 613 and be fixed in adjustment seat 611.Described adjustment seat 611 comprises lateral adjustments seat 6111 and longitudinal adjustment seat 6112, described line slideway 612 comprises horizontal line slideway 6121 and longitudinal line slideway 6122, described horizontal line slideway 6121 is fixed on lateral adjustments seat 6111, described longitudinal line slideway 6122 is fixed in longitudinal adjustment seat 6112, described lateral adjustments seat 6111 connects longitudinal line slideway 6122, can be used for the position regulating lateral adjustments seat 6111; Described camera components 62 comprises camera mount pad 621, camera 622, camera light source 623 and lens assembly 624, described camera 622, camera light source 623 and lens assembly 624 are fixed on horizontal line slideway 6121 by camera mount pad 621, for regulating the position of camera 622, after regulating the position of camera 622, available hand is twisted spanner 613 and is fixed.

Touch-screen etching laser machining operation principle described in the utility model is as follows: after complete machine powering, the running of etching machine is controlled by industrial computer 7, the X-axis parts 22 of worktable part 2 and Y-axis parts 23 are resetted, manually touch-screen to be etched is placed on sucker panel 32, vacuumize, touch-screen to be etched is fixed on sucker panel; Adjustment etching parameters, X-axis adjusting part 212 drives X-axis supporting plate 213 to move, Y-axis adjusting part 221 drives Y-axis supporting plate 222 to move, the grating scale scale of X-axis and Y-axis can be read from read head 24, to the vacuum microscope carrier parts be positioned on Y-axis supporting plate 222 3 navigate on the etching position under CCD parts 6, left and right camera 622 carries out taking the sign point on touch-screen, is automatically calculated and determines the position correction value of etched features, determine the physical location of etched features by computer; Light path part 5 adjusts height by screw component 44 and linear bearing assembly 43, aim at the position of etched features, laser instrument 8 bright dipping, by the laser head bright dipping of laser beam modulation head assembly 53, is expanded laser by beam expanding lens assembly 521, field lens 523 bright dipping etched touch screen is mapped to again by scanning galvanometer assembly 522 turns, the flue dust produced in etching process cap 45 of being smoked is collected and processes, and etching completes, and is resetted by worktable part 2, release sucker panel, takes off the touch-screen etched.Wherein, touch-screen, before etching, can be placed on stainless steel table top 114, fluorescent tube 1132 times detect whether have draw horizontal or dirty; Can be placed on after etching on stainless steel table top 114, detect for 1132 times at fluorescent tube and whether etch completely, to guarantee efficiency and the yields of carrying out the touch-screen etched.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (8)

1. a touch-screen etching laser machining, it is characterized in that: described etching laser machining comprises frame, worktable part, vacuum microscope carrier parts, crossbeam Z axis parts, light path part, CCD parts, industrial computer and laser instrument, described worktable part and crossbeam Z axis parts are fixed in frame, described vacuum microscope carrier parts are fixed on worktable part, and described light path part, CCD parts, industrial computer and laser instrument are fixed on crossbeam Z axis parts.

2. a kind of touch-screen etching laser machining according to claim 1, is characterized in that: described frame is also fixed with hood outward, and described hood comprises section material framework, control operation parts, fluorescent tube illuminace component, stainless steel table top and warning lamp; Described control operation parts, fluorescent tube illuminace component and warning lamp are positioned on section material framework, and described stainless steel table top is positioned at both sides above worktable part; Described control operation parts comprise keys in parts, control button and display; Described fluorescent tube illuminace component comprises lampshade and fluorescent tube, and described fluorescent tube is positioned at below lampshade.

3. a kind of touch-screen etching laser machining according to claim 1, it is characterized in that: described worktable part comprises X-axis parts and Y-axis parts, described X-axis parts are fixed in frame, and described Y-axis parts are fixed on X-axis parts; Described X-axis parts comprise X-axis pedestal, X-axis adjusting part, X-axis supporting plate and X-axis protective cover, and described X-axis adjusting part is fixed on X-axis pedestal, and described X-axis supporting plate is fixed on X-axis adjusting part, and described X-axis protective cover covers on two of X-axis adjusting part; Described Y-axis parts comprise Y-axis adjusting part, Y-axis supporting plate and Y-axis protective cover, described Y-axis adjusting part is fixed on X-axis supporting plate, described Y-axis supporting plate is fixed on Y-axis adjusting part, and described vacuum microscope carrier parts are fixed on Y-axis supporting plate, and described Y-axis protective cover covers on two of Y-axis adjusting part; Described Y-axis supporting plate is also provided with read head.

4. a kind of touch-screen etching laser machining according to claim 1, is characterized in that: described vacuum microscope carrier parts comprise base plate and sucker panel, and described sucker panel is fixed on base plate by frock, is also provided with vacuumizing joint under described base plate.

5. a kind of touch-screen etching laser machining according to claim 1, it is characterized in that: described crossbeam Z axis parts comprise crossbeam, electric machine assembly, linear bearing assembly, screw component, smoking cap and Z axis photoelectric sensor, described electric machine assembly, linear bearing assembly, screw component and Z axis photoelectric sensor are fixed on crossbeam, described electric machine assembly is by shaft coupling connection wire rod assembly, described screw component is connected light path part with linear bearing assembly, and described smoking cap is fixed on below crossbeam.

6. a kind of touch-screen etching laser machining according to claim 1, it is characterized in that: described light path part comprises Z axis supporting plate, camera lens transition components and laser beam modulation head assembly, described camera lens transition components and laser beam modulation head assembly are fixed on Z axis supporting plate, and described camera lens transition components comprises beam expanding lens assembly, scanning galvanometer assembly and field lens; Described laser beam modulation head assembly connecting laser.

7. a kind of touch-screen etching laser machining according to claim 1, it is characterized in that: described CCD parts comprise adjusting part and photomoduel, described adjusting part comprises adjustment seat, line slideway and hand and twists spanner, and described photomoduel, line slideway and hand are twisted spanner and be fixed in adjustment seat.

8. a kind of touch-screen etching laser machining according to claim 7, it is characterized in that: described adjustment seat comprises lateral adjustments seat and longitudinal adjustment seat, described line slideway comprises horizontal line slideway and longitudinal line slideway, described horizontal line slideway is fixed on lateral adjustments seat, described longitudinal line slideway is fixed in longitudinal adjustment seat, and described lateral adjustments seat connects longitudinal line slideway; Described camera components comprises camera mount pad, camera, camera light source and lens assembly, and described camera, camera light source and lens assembly are fixed on horizontal line slideway by camera mount pad.