CN110341296B - Screen printing plate manufacturing method - Google Patents

Screen printing plate manufacturing method Download PDF

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Publication number
CN110341296B
CN110341296B CN201910799211.9A CN201910799211A CN110341296B CN 110341296 B CN110341296 B CN 110341296B CN 201910799211 A CN201910799211 A CN 201910799211A CN 110341296 B CN110341296 B CN 110341296B
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layer
photosensitive
photosensitive glue
film
gauze
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CN201910799211.9A
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CN110341296A (en
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汪洋
陈厚
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Jiangsu Shengxi Electronic Technology Co ltd
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Jiangsu Shengxi Electronic Technology Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C1/00Forme preparation
    • B41C1/14Forme preparation for stencil-printing or silk-screen printing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F15/00Screen printers
    • B41F15/14Details
    • B41F15/34Screens, Frames; Holders therefor

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Photosensitive Polymer And Photoresist Processing (AREA)
  • Manufacture Or Reproduction Of Printing Formes (AREA)
  • Printing Plates And Materials Therefor (AREA)

Abstract

The invention discloses a screen printing plate manufacturing method, which comprises the following steps: s1, weaving a silk screen; s2, stretching a net; s3, preparing a photosensitive film; s4, attaching a photosensitive film; s5, cutting and tearing the film; s6, exposure; the invention provides a screen printing plate manufacturing method which is good in photosensitive glue coating stability, uniform in coating and controllable in thickness.

Description

Screen printing plate manufacturing method
Technical Field
The invention relates to a screen printing plate manufacturing method.
Background
The silk-screen printing technology is an ancient civilization, is a long-standing industry and is widely applied to the production and life of people. Particularly, in recent years, the electronic industry is highly developed, the screen printing process is well applied, vivid scenes appear, meanwhile, higher and higher requirements are provided for the requirements on the screen printing precision, the plate making industry and the development of materials are promoted, but the screen printing process is not always different from the screen printing process, the basic structure of the screen printing plate is permanent, namely, a screen frame, a screen miss printing screen and a blueprint photosensitive material are integrated, and the three are all inexorable; at present, the exposure on the gauze is generally carried out by coating photosensitive glue on the gauze, heating and curing the photosensitive glue on the gauze, and then exposing and washing the photosensitive glue on the gauze by a negative exposure mode to obtain a screen printing pattern.
Disclosure of Invention
Aiming at the defects of the prior art, the invention solves the problems that: the method for manufacturing the screen printing plate has the advantages of good stability of a photosensitive resist coating, uniform coating and controllable thickness.
In order to solve the problems, the technical scheme adopted by the invention is as follows:
a screen printing plate manufacturing method comprises the following steps:
s1, silk screen weaving: weaving a plurality of metal wefts and a plurality of metal warps in an up-and-down staggered mode to form a gauze;
s2, stretching a net: the metal weft and the metal warp are stretched by tension and fixed on a screen frame to form a screen printing plate;
s3, preparing a photosensitive film: selecting a bottom film, uniformly spraying active alumina powder on the bottom film, and spraying a first layer of photosensitive glue on the bottom film sprayed with the active alumina powder; an isolation film is attached and installed in the middle of the first layer of photosensitive glue; controlling the peripheral edge of the first layer of photosensitive resist to be positioned outside the peripheral edge of the isolation film; then spraying a second layer of photosensitive glue on the end faces of the isolating film and the first layer of photosensitive glue; the second layer of photosensitive glue covers the isolation film and is overlapped with the peripheral edge of the first layer of photosensitive glue up and down, and then the second layer of photosensitive glue is sent into a drying oven to be heated to obtain a semi-dry composite photosensitive glue layer;
s4, laminating the photosensitive film: spraying water on the gauze in the step S2, covering and adhering the second layer of photosensitive glue at the uppermost end of the semi-dry composite photosensitive glue layer on the gauze, and then sending the gauze into a drying oven for heating and drying to ensure that the second layer of photosensitive glue is covered, adhered and adhered on the gauze;
s5, cutting and tearing the film: tearing the basement membrane from the first layer of photosensitive glue, then cutting the periphery of the second layer of photosensitive glue to enable the first layer of photosensitive glue to be cut and separated from the second layer of photosensitive glue, and finally tearing the isolation membrane to obtain the gauze attached with the second layer of photosensitive glue;
s6, exposure: and exposing and developing the second layer of photosensitive resist on the gauze.
Further, the bottom film in step S3 is a PET film.
Further, in step S3, the isolation membrane is a teflon membrane.
Further, the vertical distance L from the peripheral edge of the isolation film to the peripheral edge of the first layer of photosensitive resist in the step S3 is not less than 2 cm.
Further, the temperature in the oven in the step S3 is 20 to 30 ℃; the drying time is 15-20 min.
Further, the temperature in the oven in the step S4 is 30 to 40 ℃; the drying time is 15-20 min.
Furthermore, the metal warp and the metal weft are made of one of stainless steel, tungsten steel, titanium, aluminum, copper and nickel.
The invention has the advantages of
The invention changes the traditional mode of directly coating the photosensitive glue on the gauze, but performs the photosensitive glue, and directly coats the photosensitive glue on the basement membrane, because the smoothness of the basement membrane causes the poor adhesion between the photosensitive glue and the basement membrane, and the moving is very inconvenient, so the invention utilizes the porous adsorption characteristic of the active alumina powder to uniformly spray the active alumina powder on the basement membrane, and then sprays the first layer of photosensitive glue on the basement membrane sprayed with the active alumina powder, thereby increasing the adhesion of the first layer of photosensitive glue and the basement membrane, and after the first layer of photosensitive glue is directly heated and solidified on the gauze and is torn, the surface of the first layer of photosensitive glue can present a porous fold structure due to the infiltration of the aluminum powder of the active alumina powder, thus bringing inconvenience to the subsequent exposure, the surface smoothness of the first layer of photosensitive glue can not be controlled even if the surface of the first layer of photosensitive glue is cut, the invention adds a barrier film and a second layer of photosensitive glue, the second layer of photosensitive glue is jointed and covered on the upper end surface of the first layer of photosensitive glue, and the barrier film is arranged in the space between the second layer of photosensitive glue and the first layer of photosensitive glue, because the periphery of the second layer of photosensitive glue and the first layer of photosensitive glue are jointed and connected, the connection between the second layer of photosensitive glue and the first layer of photosensitive glue is not influenced, the smoothness of the second layer of photosensitive glue and the film tearing treatment of the following barrier film can be ensured by the barrier film, so the invention actually uses the second layer of photosensitive glue, the second layer of photosensitive glue is jointed on the gauze, after heating and curing, the basement membrane is torn from the first layer of photosensitive glue, then the periphery of the second layer of photosensitive glue is cut, the first layer of photosensitive glue is cut and separated from the second layer of photosensitive glue, and finally the barrier film is torn, the gauze attached with the second layer of photosensitive glue is obtained, therefore, the second layer of photosensitive resist can be prefabricated, the thickness is easy to control, certain leveling uniformity can be guaranteed, and the influence on the printing performance of the screen printing plate is avoided.
Drawings
FIG. 1 is a schematic structural diagram of a base film, activated alumina, a first layer of photoresist, an isolation film, and a second layer of photoresist.
FIG. 2 is a schematic view of the structure of the first layer of photoresist, the isolation film and the second layer of photoresist according to the present invention.
FIG. 3 is a schematic view of a structure of an isolation film and a second layer of photoresist according to the present invention.
FIG. 4 is a schematic diagram of a second layer of photoresist according to the present invention.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1 to 4, a method for manufacturing a screen printing plate includes the following steps:
s1, silk screen weaving: weaving a plurality of metal wefts and a plurality of metal warps in an up-and-down staggered mode to form a gauze; the metal warp and the metal weft are made of one of stainless steel, tungsten steel, titanium, aluminum, copper and nickel, and the metal warp and the metal weft made of aluminum can be selected in the embodiment.
S2, stretching a net: the metal weft and the metal warp are stretched by tension and fixed on a screen frame to form a screen printing plate.
S3, preparing a photosensitive film: selecting a bottom film 1, uniformly spraying active alumina powder 5 on the bottom film 1, and spraying a first layer of photosensitive glue 2 on the bottom film sprayed with the active alumina powder 5; an isolating film 3 is attached and installed in the middle of the first layer of photosensitive emulsion 2; controlling the peripheral edge of the first layer of photosensitive resist 2 to be positioned outside the peripheral edge of the isolating film 3; then spraying a second layer of photosensitive glue 4 on the upper end surfaces of the isolation film 3 and the first layer of photosensitive glue 2; the second layer of photosensitive resist 4 covers the isolation film 3 and is overlapped with the peripheral edge of the first layer of photosensitive resist 2 up and down, and then the second layer of photosensitive resist is sent into an oven to be heated to obtain a semi-dry composite photosensitive adhesive layer, wherein the temperature in the oven in the step S3 is 20-30 ℃, and 25 ℃ can be optimized; the drying time is 15-20 min, preferably 18 min; the bottom film 1 is a PET film; the isolating membrane 3 is a polytetrafluoroethylene film; the vertical distance L from the peripheral edge of the isolation film 3 to the peripheral edge of the first layer of photosensitive resist is more than or equal to 2cm, and the vertical distance L is the length of the reference numeral 41 in FIG. 2.
S4, laminating the photosensitive film: spraying water on the gauze in the step S2, covering and adhering the second layer of photosensitive glue 4 at the uppermost end of the semi-dry composite photosensitive glue layer on the gauze, and then sending the gauze into an oven to be heated and dried, so that the second layer of photosensitive glue 4 is covered, adhered and adhered on the gauze, wherein the temperature in the oven is 30-40 ℃, and 35 ℃ can be optimized; the drying time is 15-20 min, preferably 18 min.
S5, cutting and tearing the film: as shown in fig. 1 to 4, the bottom film 1 is torn from the first layer of photosensitive resist 2, then the periphery of the second layer of photosensitive resist 4 is cut, i.e. cut at 41 in fig. 2, so that the first layer of photosensitive resist 2 is cut and separated from the second layer of photosensitive resist 4, and finally the isolation film 3 is torn off, so as to obtain the gauze attached with the second layer of photosensitive resist 4.
S6, exposure: and exposing and developing the second layer of photosensitive resist on the gauze.
The invention changes the traditional mode of directly coating the photosensitive glue on the gauze, but performs the photosensitive glue, and directly coats the photosensitive glue on the basement membrane 1, because the smoothness of the basement membrane 1 causes the poor adhesion between the photosensitive glue and the basement membrane 1, and is very inconvenient when moving, so the invention utilizes the porous adsorption characteristic of the active alumina powder 5 to uniformly spray the active alumina powder 5 on the basement membrane 1, and then sprays the first layer of photosensitive glue 2 on the basement membrane sprayed with the active alumina powder 5, thereby increasing the adhesion of the first layer of photosensitive glue 2 and the basement membrane 1, after the first layer of photosensitive glue 2 is directly heated and solidified on the gauze and the basement membrane is torn, the surface of the first layer of photosensitive glue 2 presents a porous structure due to the penetration of the active alumina powder folds 5, as shown in figure 2, thereby bringing inconvenience to the subsequent exposure, and the surface smoothness can not be controlled even if the surface of the first layer of photosensitive glue 2 is cut, the invention adds the isolating film 3 and the second layer of photosensitive glue 4, the second layer of photosensitive glue 4 is jointed and covered on the upper end surface of the first layer of photosensitive glue 2, the isolating film 3 is arranged inside the space between the second layer of photosensitive glue 4 and the first layer of photosensitive glue 2, the isolating film 3 is made of polytetrafluoroethylene material, which can ensure that the isolating film 3 is not easy to be jointed with the first layer of photosensitive glue 2 and the second layer of photosensitive glue 4, because the peripheries of the second layer of photosensitive glue 4 and the first layer of photosensitive glue 2 are jointed and connected, the connectivity of the second layer of photosensitive glue 4 and the first layer of photosensitive glue 2 is not influenced, the smoothness of the second layer of photosensitive glue 4 and the convenience for the film tearing treatment of the isolating film 3 can be ensured by the isolating film 3, thus, the second layer of photosensitive glue 4 is practically used in the invention, the second layer of photosensitive glue 4 is jointed on the gauze, after the gauze is heated and solidified, then the bottom film 1 is torn from the first layer of photosensitive glue, then, as long as the periphery 41 of the second layer of photosensitive resist 4 is cut, the first layer of photosensitive resist 2 is cut and separated from the second layer of photosensitive resist 4, and finally the isolation film 3 is torn off to obtain the gauze attached with the second layer of photosensitive resist 4, so that the second layer of photosensitive resist 4 can be prefabricated, the thickness is easy to control, certain leveling uniformity can be ensured, and the influence on the printing performance of the screen printing plate is avoided.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A screen printing plate manufacturing method is characterized by comprising the following steps:
s1, silk screen weaving: weaving a plurality of metal wefts and a plurality of metal warps in an up-and-down staggered mode to form a gauze;
s2, stretching a net: the metal weft and the metal warp are stretched by tension and fixed on a screen frame to form a screen printing plate;
s3, preparing a photosensitive film: selecting a bottom film, uniformly spraying active alumina powder on the bottom film, and spraying a first layer of photosensitive glue on the bottom film sprayed with the active alumina powder; an isolation film is attached and installed in the middle of the first layer of photosensitive glue; controlling the peripheral edge of the first layer of photosensitive resist to be positioned outside the peripheral edge of the isolation film; then spraying a second layer of photosensitive glue on the end faces of the isolating film and the first layer of photosensitive glue; the second layer of photosensitive glue covers the isolation film and is overlapped with the peripheral edge of the first layer of photosensitive glue up and down, and then the second layer of photosensitive glue is sent into a drying oven to be heated to obtain a semi-dry composite photosensitive glue layer;
s4, laminating the photosensitive film: spraying water on the gauze in the step S2, covering and adhering the second layer of photosensitive glue at the uppermost end of the semi-dry composite photosensitive glue layer on the gauze, and then sending the gauze into a drying oven for heating and drying to ensure that the second layer of photosensitive glue is covered, adhered and adhered on the gauze;
s5, cutting and tearing the film: tearing the basement membrane from the first layer of photosensitive glue, then cutting the periphery of the second layer of photosensitive glue to enable the first layer of photosensitive glue to be cut and separated from the second layer of photosensitive glue, and finally tearing the isolation membrane to obtain the gauze attached with the second layer of photosensitive glue;
s6, exposure: and exposing and developing the second layer of photosensitive resist on the gauze.
2. The method of manufacturing a screen printing plate according to claim 1, wherein the base film in step S3 is a PET film.
3. The screen printing plate manufacturing method of claim 1, wherein in step S3, the isolation film is a teflon film.
4. The method of claim 1, wherein a vertical distance L between the peripheral edge of the isolation film and the peripheral edge of the first layer of photoresist in step S3 is greater than or equal to 2 cm.
5. The screen printing plate manufacturing method according to claim 1, wherein the temperature in the oven in the step S3 is 20 to 30 ℃; the drying time is 15-20 min.
6. The screen printing plate manufacturing method according to claim 1, wherein the temperature in the oven in the step S4 is 30 to 40 ℃; the drying time is 15-20 min.
7. The screen printing plate manufacturing method according to claim 1, wherein the metal warp and the metal weft are made of one of stainless steel, tungsten steel, titanium, aluminum, copper and nickel.
CN201910799211.9A 2019-08-28 2019-08-28 Screen printing plate manufacturing method Active CN110341296B (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6092464A (en) * 1998-03-19 2000-07-25 M J Grant Company Three-dimensional raised image screen printing
CN204694989U (en) * 2015-01-15 2015-10-07 何忠亮 The drying unit of negative pressure drying silk-screen half tone
JP2017219795A (en) * 2016-06-10 2017-12-14 理想科学工業株式会社 Manufacturing method of screen printing sheet
CN207099425U (en) * 2017-07-11 2018-03-13 苏州城邦达力材料科技有限公司 A kind of photosensitive cover layer and product
CN208789231U (en) * 2018-07-18 2019-04-26 武汉虹之彩包装印刷有限公司 A kind of ultra-thin detachable silk-screen plate
CN109435431B (en) * 2018-10-30 2024-02-23 东莞市银泰丰光学科技有限公司 Screen plate for low-interference glass light guide plate and printing method thereof

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Denomination of invention: A screen making method

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