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Printing method and printing device for non-individual body sheet

A printing method and continuum technology, applied in printing, printing machines, rotary printing machines, etc., can solve problems such as deformation, wrinkling, and deterioration of conveying accuracy

Inactive Publication Date: 2006-05-31
MURATA MFG CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] However, the raw material sheet to be printed is made thinner and thinner for small size and large capacity. If the printing table is moved in the X, Y, and θ directions for the alignment of the continuum sheet, the extremely thin raw material sheet will be subjected to excessive tension. Tensile stress, which becomes the cause of wrinkling or deformation
As a result, there are problems such as chipping, deterioration of conveying accuracy, etc.

Method used

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  • Printing method and printing device for non-individual body sheet
  • Printing method and printing device for non-individual body sheet
  • Printing method and printing device for non-individual body sheet

Examples

Experimental program
Comparison scheme
Effect test

no. 1 Embodiment

[0057] figure 1 An example of a continuous sheet printing device related to the present invention is shown.

[0058] The continuum sheets used here 1 and figure 2 The raw material ceramic layer 1b is formed in a continuous film form on a flexible support body 1a such as a relatively long carrier film as shown, and the first pattern P1 and the pattern corresponding to the P1 are formed in advance by printing or the like at certain intervals in the longitudinal direction on the upper surface thereof. Multiple alignment marks M1. In this example, the pattern P1 and the mark M1 are printed to a predetermined thickness using an electrode material such as Ni paste. When the thickness of the ceramic layer 1b is 5 μm-0.2 μm, because the continuum sheet 1 itself is almost transparent, so the back side of the continuum sheet 1 can be seen through, and the pattern P1 and the mark M1 can be recognized, as will be described later. Logo M2 for printing plate 7. The alignment mark M1 o...

no. 2 Embodiment

[0076] The amount of printing deformation in screen printing can be known from the large deviation of each pattern. Such as Figure 10 Shown: When the marks M1 and M2 for position deviation detection are arranged outside the surroundings of the patterns P1 and P2', the marks M1 and M2 can be aligned, but the patterns P1 and P2' do not have to be aligned.

[0077] Figure 10 (a) is when the mutual positional relationship between the sign M1 and the pattern P1, the sign M2 and the pattern P2' is equal, Figure 10 (b) is when the mutual positional relationship is different.

[0078] However, by using the feedback correction value (B'-A) ​​obtained by image processing and the correction value of both sides of the offset (offset) value calculated by measuring the mutual position of the printed coating film in advance, so that the original desired pattern P1, The position offset correction of P2' is corrected together with other offsets due to long-term differences. In order to ...

no. 3 Embodiment

[0083] In the first and second embodiments, after printing at the printing station 4, the printing offset at the feedback station 9 is obtained and fed back, but in the third embodiment, the feedback station is omitted, and the printing offset is obtained at the printing station 4 Feedback for the next printing.

[0084] Although the system diagram of the printing device of the third embodiment is omitted, it is from figure 1 In the printing device shown, the feedback table 9, lighting 10, camera 11 and other systems are omitted. Also, the amount of displacement between the printed position identification mark M2 and the alignment mark M1 is measured by image processing with the camera 5 provided on the printing table 4 .

[0085] Figure 13 , Figure 14 It is a flowchart of the printing method of the third embodiment.

[0086] exist Figure 13 In the initial printing shown, the processing of steps S1 to S7 is the same as Figure 7 . After printing, the continuum sheet...

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Abstract

The present invention provides a printing method and printing apparatus for a continuous sheet that can be aligned with high precision without applying excessive tensile stress to the continuous sheet. The method of performing screen printing on a continuum sheet (1) with a plurality of alignment marks (M1) preset includes: preparing to hold a plurality of identification marks (M2) corresponding to the alignment marks (M1), The process of arranging the printing plate (7) above the printing table (4), the process of sucking and holding the continuous sheet (1) on the printing table (4), using the printing plate to screen print the prescribed pattern on the suction and holding of the printing plate On the continuum sheet (1) on the platform (4), the process of screen printing the position identification mark (M2) of the printing plate (7) on the continuum sheet (1) at the same time, the continuum sheet (1) is printed from the The stage (4) is transported to the feedback stage (9), and the process of sucking and holding on the feedback stage (9) is obtained by image processing for each pair of continuous sheet (1) sucked and held on the feedback stage (9). The process of offset between the bit mark (M1) and the printed position identification marks (M2), and the process of feedback control of the position of the printing plate in the X, Y, and θ directions according to the calculated offset.

Description

technical field [0001] The invention relates to a printing method and a printing device for performing screen printing on a continuous sheet with a plurality of alignment marks set in advance. technical background [0002] Conventionally, as a device for manufacturing ceramic green sheets for laminated electronic components, it is known that a raw ceramic layer is formed on a carrier film having a relatively long length, and the continuum sheet is sequentially kept in a continuous state. A device for obtaining a ceramic raw material sheet through a plurality of processes such as an electrode film printing process, a drying process, and a blanking process (refer to Japanese Patent No. 2504277). [0003] In recent years, the raw ceramic layer has been made very thin below 10 μm, and if an electrode film is printed on it, a height difference of the electrode film will occur. When such raw ceramic layers are laminated, problems such as cracks and delamination may occur due to t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B41F15/26H05K3/12B41F15/36B41F15/08B41F15/20B41F15/24B41F15/28
Inventor 早川和久林一知西村孝士
Owner MURATA MFG CO LTD
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