CN203172141U - Thin-film screen printer - Google Patents

Abstract

A thin-film screen printer comprises a printing mechanism, wherein the printing mechanism is provided with a printing framework assembly with a screen, a printing framework assembly positioning adjusting mechanism and a machine vision system, so that an inner electrode graph of an MLCC can be printed, and the standard mapping relationship among the machine vision system, a printed object, the printing framework assembly positioning adjusting mechanism and the screen can be built up through the machine vision system, accurate and repeated positioning and interval filling printing are realized, and the intervals of the inner electrode graph are filled.

Description

The film screen process press

Technical field

The utility model relates to the screen process press field, particularly relates to a kind of film screen process press.

Background technology

Chip multilayer ceramic capacitor (MLCC) is the multilayer ceramic capacitor that is made of ceramic dielectric and the mutual lamination of metal inner electrode.It uses the structure of multilayer dielectricity stack, and inductance is very low during high frequency, has low-down equivalent series resistance; Nonpolarity; Use does not need derate significantly in low impedance circuit; Combustion explosion not during puncture, safe.Because it has above-mentioned advantage, so when being used in various circuit, can reduce energy loss and ripple voltage, improve inversion frequency, significant to portable product.

In the time of along with the MLCC microminiaturization, capacity to electric capacity has also proposed very high requirement, and when the size making was more and more littler, the capacity of element was increasing, when this means that in printing electrode pattern is more and more littler, the lamination number of electrode bar piece gets more and more.

But, when lamination procedure, because electrode pattern exists certain thickness and the arrangement pitch of interior electrode pattern in the printing, so there is the drop gap of certain width in the printing between the electrode pattern, cause electrode bar piece internal electrode figure to form certain space each other.When the lamination number constantly increased, the space also constantly increased.When electrode bar piece is made the high pressure lamination of electric capacity chip, electrode pattern produced distortion in the inner space that exists of electrode bar piece can cause, and the lamination number is more many, be out of shape more big, directly have influence on planarization, continuity and the shape and structure etc. of interior electrode pattern, finally have influence on capacitance, unfailing performance and the electric property of MLCC product.

The utility model content

Based on this, be necessary can make the problem that produces the gap in adjacent between the electrode pattern when the lamination at the interior electrode pattern that prints in the MLCC production process, a kind of film screen process press is provided.

A kind of film screen process press comprises printing mechanism, and described printing mechanism comprises frame, also comprises:

The print frame assembly is arranged at described frame, and silk screen is installed replaceably;

Bearing ink pad is fixed in described frame, and over against the silk screen of described print frame assembly, the one side that contacts with stock is loading surface, carrying and fixing stock;

Printing assembly is arranged at described frame movably, and stock is executed seal;

Print frame module position governor motion is connected with described print frame assembly, regulates executing of described print frame assembly and prints the position;

Machine vision alignment system is arranged at described frame, gather the silk screen of described print frame assembly and stock reference mark positional information and regulate control signal to described position adjusting mechanism output.

Among embodiment, described machine vision alignment system comprises image capturing device and control system therein, and described image capturing device is positioned at the below of described loading surface, and there are mapping relations in described control system and described wire frame module position governor motion.

Among embodiment, described print frame module position governor motion comprises X-direction translation assembly, Y-direction translation assembly and horizontal direction rotary components therein.

Among embodiment, described bearing ink pad is connected with source of the gas mechanism therein, and described loading surface offers the vacuum suction hole that is communicated with described source of the gas mechanism.

Among embodiment, described print frame assembly comprises the print frame lifting drive, drives described print frame assembly and printing assembly and rises simultaneously and descend therein; Wire frame is connected to described print frame lifting drive, and silk screen is installed replaceably; The silk screen adjusting knob is rotatably connected in described wire frame, regulates the degree of tightness of described silk screen; The silk screen tight lock part is locked described silk screen.

Among embodiment, described printing assembly comprises shop slurry cutter, scraper and line slideway auxiliary therein, and described shop slurry cutter and described scraper are realized printing along described line slideway secondary motion.

Therein among embodiment, described printing mechanism comprises net sheet gap adjustment assembly, be connected in described print frame lifting drive, can and rise simultaneously and descend with described print frame assembly and printing assembly by described print frame lifting drive driving; Described net sheet gap adjustment assembly comprises drive unit and print frame support column, described drive unit is by regulating the stroke of described print frame support column, drive described wire frame, silk screen adjusting knob, silk screen tight lock part, printing assembly, Power Component motion, realize net sheet gap adjustment, regulate the distance between described silk screen and the stock.

Therein among embodiment, described printing mechanism comprises Power Component, occurrence positions changes described Power Component with the adjusting of described print frame lifting drive or described net sheet gap adjusting mechanism, described Power Component comprises servomotor, shop slurry driving device for cutter and scrapes driving device for cutter, described servomotor is arranged at described print frame assembly, described shop slurry cutter is arranged at described shop slurry driving device for cutter, and described scraper is arranged at the described driving device for cutter of scraping.

Therein among embodiment, the image detection mechanism that also comprises the quality that detects stock, described image detection mechanism comprise printing quality testing agency after the printing after being arranged at the printing front surface defects detection mechanism before the described printing mechanism station and/or being arranged at described printing mechanism station.

Therein among embodiment, the tension control mechanism that also comprises the tension force of controlling stock, described tension control mechanism comprise the printing backward pull controlling organization after being arranged at the preceding printing forward pull controlling organization of described printing mechanism station and/or being arranged at described printing mechanism station.

Above-mentioned film screen process press, in the printing during electrode pattern, described bearing ink pad carrying and fixing stock, described printing assembly sees through described silk screen has reference mark in the stock printing interior electrode pattern; When printing is filled in the gap, change silk screen, the stock of electrode pattern in described bearing ink pad carrying and fixing printing are good, described machine vision alignment system is gathered the positional information of the reference mark of stock and silk screen, and the positional information of the reference mark of stock and silk screen is differentiated when utilizing described machine vision alignment system that printing is filled in the gap, set up described machine vision alignment system, stock, the benchmark mapping relations of described print frame module position governor motion and described print frame assembly, the reference mark of stock and described silk screen overlaps when guaranteeing gap filling printing; By described machine vision alignment system resetting, described printing assembly carries out the gap to electrode pattern in described and fills printing, fill and lead up the gap between the described interior electrode pattern, eliminate the space between the internal electrode figure when making electrode bar piece, obtain the interior electrode pattern of high-flatness.

Description of drawings

Fig. 1 is the structural representation of the printing mechanism of film screen process press;

Fig. 2 is the structural representation at another visual angle of the printing mechanism of film screen process press;

Fig. 3 is film screen process press complete machine fundamental diagram.

The specific embodiment

The utility model is described in further detail below in conjunction with the drawings and specific embodiments.See also Fig. 1, Fig. 2 and Fig. 3, a kind of film screen process press comprises mainframe, and described mainframe is provided with printing mechanism 100, unreeling structure 200 and rolling-up mechanism 300.Wherein, described printing mechanism comprises frame 110, and print frame assembly 120, is arranged at described frame 110, and silk screen is installed replaceably; Bearing ink pad 130 is fixed in described frame 110, and over against the silk screen of described print frame assembly, the one side that contacts with stock is loading surface 132, carrying and fixing stock; Printing assembly 140 is arranged at described frame 110 movably, and stock is executed seal; Print frame module position governor motion 150 is connected with described print frame assembly 120, regulates executing of described print frame assembly 120 and prints the position; Machine vision alignment system 160 is arranged at described frame 110, gather the silk screen of described print frame assembly and stock reference mark positional information and regulate control signals to described print frame module position governor motion 150 outputs.

When above-mentioned film screen process press is worked, in the printing during electrode pattern, stock to be printed unreels via unreeling structure 200, be sent to described bearing ink pad 130, by described bearing ink pad 130 carryings and fixing, described printing assembly 140 has the interior electrode pattern of reference mark in the stock printing through the silk screen of described print frame assembly; Finish the stock of printing through described rolling-up mechanism 300 rollings.After electrode pattern prints in finishing, change the silk screen of described print frame assembly and fill printing for the gap, the stock of electrode pattern printing is heavy in finishing is unreeled by described unreeling structure 200, be sent to described bearing ink pad 130, described machine vision alignment system 160 is gathered the positional information of the reference mark of stock and described silk screen, and the positional information of the reference mark of described silk screen and stock is differentiated when utilizing the 160 pairs of gaps of described machine vision alignment system to fill printing, set up machine vision alignment system 160, stock, the benchmark mapping relations of print frame module position governor motion 150 and silk screen, whether the reference mark of judging described silk screen overlaps with the reference mark that is printed with interior electrode pattern: if the reference mark of described silk screen overlaps with the described reference mark that is printed with the stock of interior electrode pattern, then directly carry out the gap and fill printing; If the reference mark of described silk screen has deviation with the position of the reference mark of the stock that is printed on interior electrode pattern, then described NI Vision Builder for Automated Inspection 160 is regulated control signal to described print frame module position governor motion 150 outputs, position to described print frame assembly 120 is regulated, when guaranteeing that printing is filled in the gap, the reference mark of described silk screen overlaps with the described reference mark that is printed with the stock of interior electrode pattern.By described machine vision alignment system 160 resettings, 140 pairs of described interior electrode patterns of described printing assembly carry out the gap and fill printing, filled and led up the gap between the described interior electrode pattern, eliminate the space between the internal electrode figure when making electrode bar piece, obtain the interior electrode pattern of high-flatness.

Wherein, the silk screen during the filling printing of gap and the silk screen figure complementation that for the first time interior electrode pattern prints are filled printing by the gap, and dielectric is filled up in the space of electrode pattern in described, obtain the high interior electrode pattern of flatness.

In the present embodiment, described machine vision alignment system 160 comprises image capturing device and control system, described image capturing device is positioned at the below of described loading surface 132, and there are mapping relations in described control system and described wire frame module position governor motion 150.When described print frame mechanism 120 near described bearing ink pads, carrying out the gap fills when printing, the image capturing device that is positioned at described loading surface 132 belows is gathered the positional information of the reference mark of described silk screen and stock, positional information is reached described control system, described control system is by differentiating, judge whether to export the control signal of regulating described print frame assembly 120, if deviation is arranged when reference mark position and the printing of interior electrode pattern, then control system is regulated described print frame module position governor motion 150, makes the reference position of twice printing overlap.

Particularly, described image capturing device can adopt industrial camera.Industrial camera has higher picture steadiness, high-transmission ability and high anti-jamming capacity, its spectral region is also often wideer, relatively be fit to carry out the high quality image process algorithm, and stable and reliable for performance being easy to of industrial camera installed, camera structure is compact solid not fragile, stream time is long, can use under relatively poor environment.Adopt industrial camera in the present embodiment, be conducive to improve the accuracy of Information Monitoring.

See also Fig. 2, in the present embodiment, described wire frame module position governor motion 150 comprises X-direction translation assembly 152, Y-direction translation assembly 154 and horizontal direction rotary components 156.Being datum level with parallel described bearing ink pad 130 planes, laterally is X-direction, vertically is Y-direction.Described X-direction translation assembly 152 is regulated described print frame assembly 120 transverse translations, and described Y-direction assembly 154 is regulated described print frame assembly 120 longitudinal translations, and described horizontal direction rotary components 156 is regulated described print frame assembly 120 and horizontally rotated.The formation of described assembly all can be by motor-driven, the mode of screw mandrel guideway transmission; Perhaps pass through motor-driven, the mode of ball screw auxiliary driving, but be not limited to this dual mode.

In the present embodiment, described bearing ink pad 130 is connected with source of the gas mechanism, and described loading surface 132 offers the vacuum suction hole of the described source of the gas of connection mechanism.Absorption and location by stock is realized in described vacuum suction hole keep described stock at same position when printing, and the movement with scraper does not produce change in displacement.

See also Fig. 1 and Fig. 2, in the present embodiment, described print frame assembly 120 can also comprise print frame lifting drive 124 particularly, drives described print frame assembly 120 and printing assembly 140 and rises simultaneously and descend; Wire frame 126 is connected to described print frame lifting drive 124, and silk screen is installed replaceably; Silk screen adjusting knob 127 is rotatably connected in described wire frame 126, the degree of tightness of regulating described silk screen; Silk screen tight lock part 128 is locked described silk screen.After silk screen adjusting knob 127 screwed, described silk screen tight lock part 128 was locked, and prevented that silk screen is arbitrarily mobile, and is more accurate during printed pattern.

Wherein, in present embodiment, described print frame lifting drive 124 can be the print frame lift cylinder.During printing, described print frame lifting drive 124 drives described print frame assembly 120 and printing assembly 140 makes its decline, approaches with described stock, scrapes grouting material by scraper, and slurry is extruded into stock by silk screen, finishes one-step print.After finishing one-step print, described print frame lifting drive 124 drives described print frame assembly 120 and printing assembly 140 makes its rising, and away from stock, the stock that prints is removed.Described print frame lifting drive 124 descends again then, prints periodic duty again.Certainly, in other embodiments, what print frame lifting drive 124 also can be for hydraulic cylinder type as long as can realize reciprocating motion.

See also Fig. 1 and Fig. 3, described printing assembly 140 can comprise shop slurry cutter 142, scraper 144 and line slideway auxiliary 146 particularly.Described shop slurry cutter 142 and described scraper 144 move along described line slideway auxiliary 146, realize printing.Described shop slurry cutter 142 always is positioned at described scraper 144 the place aheads when printing.After finishing one-step print, the position of one-step print before described scraper 144 is got back to, simultaneously described shop slurry cutter 142 is paved with slurry again.Described shop slurry cutter 142 and described scraper 144 move back and forth along described line slideway auxiliary 146 axis directions.

See also Fig. 2, in the present embodiment, described printing mechanism 100 comprises net sheet gap adjustment assembly 170, be connected in described print frame lifting drive 124, can and rise simultaneously and descend with described print frame assembly 120 and printing assembly 140 by described print frame lifting drive 124 drivings; Described net sheet gap adjustment assembly 170 comprises drive unit 172 and print frame support column 174, described drive unit 172 is by regulating the stroke of described print frame support column 174, drive described wire frame 126, silk screen adjusting knob 127, silk screen tight lock part 128 and printing assembly 140 motions, realize net sheet gap adjustment, regulate the distance between described silk screen and the stock.Particularly, described drive unit 172 comprises adjusting motor 1722, driving belt 1724 and turbine and worm 1726.Described adjusting motor 1722 drives described driving belt 1724 and 1726 motions of described turbine and worm, realize by regulating the stroke of described print frame support column 174, control distance between described wire frame 126 and the described stock, make described wire frame 126 that the silk screen of different-thickness can be installed.Described turbine and worm 1726 is used for realizing the step-less adjustment of the distance between described wire frame 126 and the described stock, the distance between the described wire frame 126 of more convenient control and the described stock.Wherein, when described print frame lifting drive 124 declines, before printing work carried out, 170 pairs of described wire frames 126 of described net sheet gap adjustment assembly carried out step-less adjustment, avoid described wire frame 126 too far or too, to influence printing quality from stock.

See also Fig. 1, described printing mechanism 100 can also comprise Power Component 180, occurrence positions changes described Power Component 180 with the adjusting of described print frame lifting drive 124 or described net sheet gap adjusting mechanism 170, described Power Component 180 comprises servomotor 182, shop slurry driving device for cutter 184 and scrapes driving device for cutter 186, described servomotor 182 is arranged at described print frame assembly 120, described shop slurry cutter 142 is arranged at described shop slurry driving device for cutter 184, and described scraper 144 is arranged at the described driving device for cutter 186 of scraping.Power Component 128 is set, and is the automatic printing action that realizes described print frame assembly 120, improves printing efficiency.As full-automatic screen printer and semi-automatic screen process press, all be provided with Power Component, can realize the action of the automatic wiping of scraper.Certainly, in other embodiment, also Power Component can be set, and use manual operation instead.So fill printing for resetting and gap, this is not necessary.

See also Fig. 3, for detecting the quality of stock, in the present embodiment, the image detection mechanism 400 of the quality that detects stock can also be set, before described image detection mechanism 400 can be arranged at described printing mechanism 100 stations particularly, be called printing front surface testing agency 410, detect the preceding stock surface of printing and whether have defective, effectively control the quality of stock.After can also being arranged at described printing mechanism 100 stations, be called printing back printing quality testing agency 420, detect the interior electrode pattern that prints and whether meet the requirements, when having defective, can detect, and in time feed back to the user, the user regulates, and obtains satisfactory interior electrode pattern.Certainly, printing front surface defects detection mechanism 410 also can be set simultaneously and print back quality testing mechanism 420, whether whether the stock surface exist defective and the interior electrode pattern that prints to meet the requirements before the detection printing.Certainly this just further controls the quality of stock, as not arranging, does not also influence the realization that printing is filled in the resetting gap, so be not necessary.

See also Fig. 3, constant tension during for assurance rolling-up mechanism 300 and unreeling structure 200, in the present embodiment, the tension control mechanism 500 of the tension force of control stock can also be set, described tension control mechanism 500 comprises the printing forward pull controlling organization 510 that is arranged at before described printing mechanism 100 stations, perhaps can also comprise the printing backward pull controlling organization 520 that is arranged at behind described printing mechanism 100 stations.Printing forward pull controlling organization 510 and printing backward pull controlling organization 520 perhaps are set simultaneously, guarantee in rolling and when unreeling, it is constant that the stock surface tension all keeps, and guarantees that stock is in tensioning and smooth state, the distortion when preventing that stock is lax and causing printing.

See also Fig. 3, for making the printed pattern drying on the stock, in the present embodiment, drier 600 can also be set.After described drier 600 is arranged at described printing mechanism 100 stations.Described drier 600, carries out drying to described printed pattern and handles after each printing action is finished by the mode of infrared electric heating pipe hot-air seasoning or ultraviolet light polymerization oven dry.Certainly, described drier 600 just is used for dry described printed pattern, fills printing for resetting and gap, and this is not necessary.

See also Fig. 3, for eliminating the static that when rolling-up mechanism 300 rollings and unreeling structure 200 unreel, produces, in the present embodiment, static can also be set eliminate mechanism 700.Described static is eliminated mechanism 700 and is arranged at unreeling structure 200 station rears and rolling-up mechanism 300 station the place aheads respectively.Described static is eliminated mechanism 700 and eliminate the static that produces when rolling-up mechanism 200 rollings and unreeling structure 300 is unreeled, and guarantees quality and the production safety of printed pattern.Certain described static is eliminated mechanism and just is used for eliminating static, fills printing for resetting and gap, and this is not necessary.

See also Fig. 3, for making unreeling structure and rolling-up mechanism course feed volume film, also be provided with film carrier conveying mechanism 800 behind the described unreeling structure station, guarantee to carry the volume film with constant speed to described printing mechanism.

See also Fig. 3, in winding process, keep smooth for making described unreeling structure and rolling-up mechanism, be respectively equipped with deviation correction mechanism 900 at described unreeling structure station rear and described rolling-up mechanism station the place ahead.In the winding process, the volume film edge causes waste of material or the adjustment of stopping work in case there not be alignment will cause that follow-up work step makes mistakes.So, in processing volume film, need to keep rolling up film side neat and consistent all the time to the operation of rectifying a deviation timely of the volume film of skew.

Wherein, described image detection mechanism 400, tension control mechanism 500, drier 600, static are eliminated mechanism 700, film carrier conveying mechanism 800 and deviation correction mechanism 900 and all are installed on the described mainframe.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the utility model design, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. a film screen process press comprises printing mechanism, it is characterized in that, described printing mechanism comprises frame, also comprises:

The print frame assembly is arranged at described frame, and silk screen is installed replaceably;

Bearing ink pad is fixed in described frame, and over against the silk screen of described print frame assembly, the one side that contacts with stock is loading surface, carrying and fixing stock;

Printing assembly is arranged at described frame movably, and stock is executed seal;

Print frame module position governor motion is connected with described print frame assembly, regulates executing of described print frame assembly and prints the position;

Machine vision alignment system is arranged at described frame, gather the silk screen of described print frame assembly and stock reference mark positional information and regulate control signal to described print frame module position governor motion output.

2. film screen process press according to claim 1 is characterized in that, described machine vision alignment system comprises image capturing device, and described image capturing device is positioned at the below of described loading surface.

3. film screen process press according to claim 1 is characterized in that, described print frame module position governor motion comprises X-direction translation assembly, Y-direction translation assembly and horizontal direction rotary components.

4. film screen process press according to claim 1 is characterized in that, described bearing ink pad is connected with source of the gas mechanism, and described loading surface offers the vacuum suction hole of the described source of the gas of connection mechanism.

5. film screen process press according to claim 1 is characterized in that, described print frame assembly comprises the print frame lifting drive, drives described print frame assembly and printing assembly and rises simultaneously and descend; Wire frame is connected to described print frame lifting drive, and silk screen is installed replaceably; The silk screen adjusting knob is rotatably connected in described wire frame, regulates the degree of tightness of described silk screen; The silk screen tight lock part is locked described silk screen.

6. film screen process press according to claim 1 is characterized in that, described printing assembly comprises shop slurry cutter, scraper and line slideway auxiliary, and described shop slurry cutter and described scraper are realized printing along described line slideway secondary motion.

7. film screen process press according to claim 5, it is characterized in that, described printing mechanism comprises net sheet gap adjustment assembly, be connected in described print frame lifting drive, can and realize rising simultaneously and descending with described print frame assembly and printing assembly by described print frame lifting drive driving; Described net sheet gap adjustment assembly comprises drive unit and print frame support column, described drive unit is by regulating the stroke of described print frame support column, drive described wire frame, silk screen adjusting knob, silk screen tight lock part, printing assembly, Power Component motion, realize net sheet gap adjustment, regulate the distance between described silk screen and the stock.

8. film screen process press according to claim 6, it is characterized in that, described printing mechanism comprises Power Component, occurrence positions changes described Power Component with the adjusting of described print frame lifting drive or described net sheet gap adjusting mechanism, described Power Component comprises servomotor, shop slurry driving device for cutter and scrapes driving device for cutter, described servomotor is arranged at described print frame assembly, described shop slurry cutter is arranged at described shop slurry driving device for cutter, and described scraper is arranged at the described driving device for cutter of scraping.

9. according to any described film screen process press in the claim 1 to 8, it is characterized in that, the image detection mechanism that also comprises the quality that detects stock, described image detection mechanism comprise printing quality testing agency after the printing after being arranged at the printing front surface defects detection mechanism before the described printing mechanism station and/or being arranged at described printing mechanism station.

10. film screen process press according to claim 9, it is characterized in that, the tension control mechanism that also comprises the tension force of controlling stock, described tension control mechanism comprise the printing backward pull controlling organization after being arranged at the preceding printing forward pull controlling organization of described printing mechanism station and/or being arranged at described printing mechanism station.

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