IE50691B1 - A metal printing screen and a method for producing the printing screen - Google Patents

Abstract

The invention relates to a metal printing screen for flat screen printing, a method and former for manufacturing the printing screen. The printing screen overcomes the problem of poor registration associated with existing printing screens and the problem of adequately tensioning metal printing screens onto a forme frame. Essentially the printing screen (2) comprise a printing portion (9) and an outer peripheral mounting portion provided by upstanding side mounting members (11) adapted to engage a forme frame (1). The printing portion (9) and the side mounting members (11) are simultaneously formed by electrolytic deposition of nickel onto a former (15), on which is provided a negative (18) of the printing screen (2). The printing portion (9) and the mounting members (11) are formed on a forming face (16) and on corresponding side faces (17), respectively, of the former.

Description

PATENT APPLICATION BY (71) PETER DAVIES, A BRITISH SUBJECT OF BARRINGER, BALTYBOYS, BLESSINGTON, COUNTY WICKLOW, REPUBLIC OF IRELAND.

Price 9 Op - 2 50681 The present invention relates to a metal printing screen for flat screen printing of the type comprising a flat printing portion and an outer peripheral mounting portion integral with and extending over at least a portion of the periphery of the printing portion, the mounting portion being arranged for releasable engagement with a forme frame.

There are a number of known types of metal printing screens for flat screen printing. For example, in one type the screen comprises a metal mesh of, for example, stainless steel, and a mask of photosensitive material is applied to the metal mesh. The mask is removed from unwanted portions of the mesh to form the printing pattern by exposing those portions of the mask to light.

In other words, by exposing the mask using a negative of the printing pattern. This type of screen is substantially similar to conventional silk screens, with the exception that instead of a screen of textile fibres a metal mesh screen is used.

Another type of metal printing screen is described in GB-A-1393056. In this type, the printing screen - 3 50691 comprises a metal mesh, preferably of stainless steel and a metal mask is formed on the mesh, for example, electrolytically depositing a metal foil onto the mesh. The printing pattern is then etched in the foil leaving portions of the mesh exposed.

A further type of metal printing screen is described in US-A-2421607. In this type, the screen comprises a metal mesh, again preferably of stainless steel, and a mask formed by a sheet of metal material, preferably of copper, is soldered to the mesh. The printing pattern is then etched from the metal mask and soldered leaving portions of the mesh exposed.

US-A-4084506 describes a still further type of metal printing screen. In this printing screen the metal mesh is formed on a metal plate which subsequently forms the mask. The metal plate is preferably of copper material and the mesh is formed by electroTytically depositing, for example, nickel on the copper plate. The printing pattern is then etched from the copper plate.

However, each of these types of printing screen requires a metal mesh, and in each case, the outer edges of the mesh or screen are bent upwardly to form side members to engage a forme frame. In general, the side members are bent upwardly after the printing pattern has been formed. - 4 S0691 Unfortunately, without relatively complex and expensive apparatus, it is virtually impossible to ensure that the sides are bent accurately. Accordingly, the printing pattern is not accurately positioned relative to the side members and consequently registration problems occur during subsequent printing. Even if the side members are formed before the printing pattern is formed, the problem of accurately positioning the printing pattern relative to the side members is still encountered.

Furthermore, because of the difficulty of accurately forming the side members, in general, it is not possible to adequately tension the screen onto the forme frame. This, needless to say, leads to poor quality of subsequent printing.

Additionally, in known printing screens, because mesh material is used and the mesh extends across the openings in the printing pattern, the clarity and definition of the subsequent print suffers. In fact, in the case of many known printing screens it is common to find saw20 toothing around the edges of prints subsequently printed. Such saw-toothing is caused by the wires or strands of the mesh. Indeed, if a small detail in the printing pattern coincides with a wire or strand of the mesh, such a detail will not be printed. 80691 - 5 Specification US-A-2024087 describes a method of making a printing plate. A screen positive, 1n which the high lights are represented by opaque dots, the middle tones by larger dots, and the shadows by very large opaque dots, is printed down photographically on a sensitive plate thereby producing a negative. A smooth metal plate sensitized with bichromated glue 1s exposed through the negative and the glue that has not been acted upon by the light washed away. The plate 1s heated to burn in the glue dots and used as a master plate for the production of a printing plate by electroplating and stripping the master plate. In the printing plate, the dots are holes or ducts through the plate and correspond to the transparent dots of the negative. For printing, the plate is placed around a hollow metal cylinder, the surface of which is perforated by many small holes covered by a porous blank and ink introduced into the hollow cylinder.

The present invention provides metal printing screen for flat screen printing of the type comprising a flat printing portion and an outer peripheral mounting portion integral with and extending over at least a portion of the periphery of the printing portion, the mounting portion being arranged for releasable engagement with a forme frame (GB-A-1393056), characterised in that the printing portion and the mounting portion are formed by electrolytic deposition onto a former, and at least a - 6 So 60 1 pair of register holes are formed in the portion during the electrolytic forming of the printing screen, the register holes being arranged for alignment with a corresponding alignment means on a printing table or on the medium to be printed.

The advantages achieved by the invention are that the printing portion and in turn the printing pattern is accurately positioned relative to the mounting portion of the printing screen. Additionally, where it is desired to form a number of printing screens from the same former, the printing screens will be similar to each other and the printing screens can readily be inter changed without registration problems during subsequent printing. Furthermore, because the entire screen is formed by electrolytic deposition, a metal mesh is not required and therefore, each of the openings which form the printing pattern may be positioned in any desired location, thus ensuring that small details in the printing pattern will be printed, where heretofore small details in a printing pattern could be obliterated by a wire, strand or fibre forming the mesh of the printing screen. Moreover, when it is desired to print a multicoloured pattern and a number of printing screens are used with corresponding register holes, registration of the printed pattern for each of the colours is readily and easily assured. 80681 - 7 In one embodiment of the invention the mounting portion comprises an upstanding mounting member adjacent at least two opposing sides of the printing portion.

The advantage of this embodiment of the invention is that 5 the printing screen can readily and easily be mounted on a forme frame.

Preferably, the upstanding mounting member extends around the periphery of the printing portion.

The advantage of this embodiment of the invention is that 10 the screen can be adequately tensioned in all directions.

Advantageously, the printing portion and the mounting portion are simultaneously formed on the former.

The invention also provides a method for manufacturing a printing screen according to the invention, the method comprising the steps of: forming a negative of the printing portion and the mounting portion on a former, and forming the printing portion and the mounting portion on the former by electrolytic deposition onto the former. - 8 50681 Further, the invention provides articles whenever printed on a metal printing screen or by a method according to the invention.

The advantage of this embodiment of the invention is that 5 the mounting portion may be used for registering the printing pattern, and furthermore it enables the printing screen to be evenly tensioned in all directions leading to improved quality of printing.

Ways of carrying out the invention are described in detail 10 below with reference to drawings of which Figure 8 illustrates one specific embodiment, and in which: Fig. 1 is a perspective view of a printing screen forme incorporating a printing screen; Fig. 2 is an exploded view of the printing screen 15 forme of Fig. 1; Fig. 3 is a detailed view of portion of the printing screen of Fig. 1; Fig. 4 is a perspective view of a former for manufacturing the printing screen of Fig. 1; Fig. 5 is a detailed view showing portion of the - 9 former of Fig. 4; Fig. 6 1s a view similar to Fig. 4 of a former; Fig. 7 is a view similar to Fig. 5 of the former of Fig. 6; Fig. 8 is a perspective view of portion of apparatus for screen printing incorporating a printing screen forme according to the invention; F1g. 9 1s a perspective view of a printing screen forme frame; and Fig. 10 1s a detail of portion of the forme frame of Fig. 9.

Referring to the drawings and initially to Figs. 1 to 3, a printing screen forme for flat screen printing is indicated generally by the reference numeral 1. The printing screen forme comprises a printing screen 2 also according to the invention releasably mounted to a forme frame 3.

The forme frame 3 is made up of four timber sections 4 adjustable outwardly so that the printing screen 2 may be tensioned onto the frame 3. Locking screws 6 are 3069 1 - 10 provided to lock the frame 3 in position when the screen 2 is suitably tensioned, Fixing holes 7 are provided in the frame 3 to engage pegs 8 for securing the screen 2 to the frame 3.

The printing screen 2 comprises a printing portion 9 in which is formed a printing pattern 10, and a mounting portion, provided by upstanding side mounting members 11 around the periphery of the printing portion 9. The printing portion 9 and the side members 11 are of nickel material and are formed simultaneously by electrolytic deposition of nickel onto a former as will be described in detail below. The side members 11 embrace the forme frame 3, and fixing holes 12 in the side members 11 are provided to engage the pegs 8.

It can be seen that the printing pattern on the screen 2 comprises a large square formed by boundary lines 20 and having a shaded portion 21 at opposing corners of the large square. A small rectangle shaded portion 22 is provided in the centre of the large square. A detail of portion of the printing pattern is shown in Fig. 3 and it can be seen that the lines 20 are each formed by a plurality of openings 24, while the shaded portions!! and22are also formed by a plurality of openings 25 forming a grid pattern to accommodate the passage of printing ink. - η Figs. 4 and 5 show a former 15 on which the printing screen 2 is formed by electrolytic deposition. The former 15 is of brass material and comprises a forming face 16 on which the printing portion 9 of the screen 2 is formed and side faces 17 on which the side members 11 are formed. A negative 18 of the printing pattern 10 of the screen 2 is engraved into the forming face 16.

The negative 18 includes a plurality of openings 26 and 27 corresponding to the openings 24 and 25 on the printing screen 2 engraved into the forming face 16 of the former 15, see Fig. 5. Accordingly, when the screen is being formed on the former 15 the openings 26 and 27 form the openings 24 and 25 in the screen 2. Similarly, holes 28 engraved into the side faces 17 form the fixing holes 12 in the printing screen 2.

To manufacture the printing screen 2, the former 15 is immersed in a nickel plating solution (not shown) and acts as a cathode. Electric current passes through nickel anodes (also not shown) in the solution and the former 15 causes nickel to be deposited onto the forming face 16 and side faces 17 of the former 15, thus forming the printing screen 2. Nickel is not deposited over the openings 26 and 27 and the holes 28, thereby forming the openings 24 and 25 and the holes 12 in the printing screen 2. - 12 50681 The printing screen 2 is then separated from the former and mounted on the forme frame 3 by the pegs 8. The frame 3 is extended outwardly by means of the expandable joints 5 to tension the printing portion 9 over the frame 3. When the desired tension is obtained the locking screws 6 are tightened and the printing forme 1 is used in conventional manner.

It has been found that because the side members 11 and the printing portion 9 are formed simultaneously on the former 15, the printing pattern 10 is always accurately positioned relative to the side members 11. This is mainly because the side faces 17 of the former can be accurately machined and in turn the side members are accurately formed.

Furthermore, it has been found that because the side members 11 are accurately formed more even tensioning of the screen 2 on the forme frame 3 can be achieved than could be heretofore achieved.

It has also been found that the quality of prints obtained from the printing screen 2 are of considerably higher quality than those heretofore obtained from known printing screens. The reason for this is that in the present printing screen a metal mesh is not required, because the grid pattern formed in the printing pattern is actually - 13 formed by the electrolytic process. Accordingly, it will be appreciated that each of the openings forming the grid pattern can be positioned in any desired location by merely providing a hole or opening in the forming face 16 of the former 15. Thus, where a small detail is to be printed an opening or hole corresponding to the detail can be provided on the forming face 16 of the former 15.

Figs. 6 and 7 show another former 15. This former 15 is essentially similar to the former 15 described with reference to Figs. 4 and 5, and like parts are identified by the same reference numerals. Here, instead of being engraved on the former 15, the negative 18 is formed by a deposit of electro-resist material on the forming face 16 and the side faces 17 of the former 16. The deposits of electro-resist material correspond to openings in the printing screen and prevent nickel being formed on the former at those positions. For example, a plurality of circular deposits 45 of electro-resist material correspond to the opening 24 which form the lines 20 in the printing screen 2. Similarly, circular deposits 46 of electroresist material correspond to the openings 25 in the printing screen 2 which form the shaded area 21. Circular deposits 47 of electro-resist material on the side faces 17 of the former correspond to fixing holes 12 of the printing screen 2. - 14 To form the negative 18 of electro-resist material on the former 15, a coating of a negative working photoresist material having electro-resist properties is applied to the forming face 16 and the side faces 17 of the former 15. Needless to say, if desired a coating of positive working photo-resist material could be applied instead. The faces 16 and 17 are then negatively exposed using a negative of the printing pattern, and are subsequently developed. The portions exposed to light are hardened and form the deposits of electro-resist material, and the areas of the coating which have not been exposed are washed off.

The printing screen 2 is then formed on the former 15 as already described with reference to Figs. 4 and 5. The portions of the forming face covered by the electro-resist material prevent nickel being deposited on these areas, which in turn form the openings in the printing pattern.

If a positive working photo-resist material is used, when this is exposed, the light softens the exposed resist material which is subsequently washed off, thus again leaving a negative of the printing screen on the former which forms the electro-resist.

Referring now to Fig. 8 apparatus according to the invention for flat screen printing is illustrated. The - 15 apparatus includes a printing forme substantially similar to that described with reference to Figs. 1 to 3 and like components are identified by the same reference numerals. The apparatus includes a printing table, the top portion of which is shown. The medium on which the pattern is printed, in this embodiment of the invention, a sheet of textile material is placed on the top 30 of the table.

In this embodiment of the invention, the printing screen 2 is of nickel material again formed by electrolytic deposition onto a former (not shown). The printing screen 2 includes registering means provided by a pair of register holes 29 outside the printing pattern. The registered holes are formed during the electrolytic forming process by corresponding holes in the forming face of the former, thus ensuring accurate positioning of the register holes. Alignment means provided by pins project from the printing table 30 to engage the register holes 29, so that the printing pattern 10 can be readily and easily aligned with the sheet 31. Therefore, when it is desired to print a multi-coloured pattern and a number of printing screens are used with corresponding register holes 29, registration of the printed pattern for each of the colours is readily and easily assured.

Needless to say, it will be appreciated that instead of using the register pins 32 the register holes 29 could be used to print dots onto the sheet 31, and the register holes 29 of subsequent screens could be then aligned with the dots.

Figs. 9 and 10 show another printing forme. The printing forme is substantially similar to that described with reference to Figs. 1 to 3 and accordingly, like components are identified by the same reference numerals. Here, the printing screen 2 of nickel material has only two side mounting members 11. The side members 11 are bent upwardly into position after the printing screen has been formed by electrolytic deposition on a flat forming face of a former (not shown). Lips 35 to engage the frame 3 are formed on the side members 11 by bending the top portion of the side members inwardly. A plurality of pegs or nails 8 secure the lips 35 to the frame 3.

The frame 3 comprises a pair of outwardly adjustable side members 36 and transverse members 37 which engage recesses 38 in the side members 36. It can be seen in Fig. 10 that ends 39 of the transverse members 37 are inclined downwardly. Inner faces 40 of the recesses 38 are correspondingly inclined, so that by pressing the transverse members 37 downwardly into the recesses 38 in the direction of the arrow A (see Fig. 10) a wedging action is achieved, 50681 - 17 forcing the side members 36 outwardly to tension the screen 2.

It will be appreciated that the mounting portion of any of the printing screens may be formed on a flat face of a former with the printing portion, and the side members can subsequently be formed by bending the mounting portion upwardly as described with reference to Figs. 9 and 10.

Furthermore, it will be appreciated that it is not necessary for the side mounting members to extend around the periphery of the printing portion nor indeed is it necessary for them to extend along a side of the printing portion, for example, the side mounting members could be provided by a tab on opposing sides of the printing portion if desired. Indeed, if desired, the mounting portion could be in the same plane as the printing portion, and the mounting portion could be secured to the underside of the forme frame by gluing, nailing or the like.

Needless to say, it will be appreciated that while the printing screen has been described as being formed from nickel material, other suitable metals could have been used. It will also be appreciated that a former of a material other than copper could have been used. - 18 Similarly, it will be appreciated that materials other than timber could have been used in the forme frame, for example, plastics material or metal.

Indeed it is envisaged that a metal forme frame may be 5 provided. The outer dimensions of the forme frame would be machined to correspond to those of the former. This would ensure that the printing screen and the forme frame would be an accurate fit with each other. It is also envisaged that this forme frame could be made adjustable or collapsable to facilitate fitting or removal of the screen to or from the forme frame.

It is also envisaged that the printing screen could be formed with its upstanding side mounting members inwardly inclined to facilitate fixing to the forme frame. In this case it is envisaged that the side faces of the former would be correspondingly inclined and a forme frame with similarly inclined sides would also be provided.

It will be appreciated that fixing means other than those described to secure the printing screen to the forme frame could be used. Furthermore, a printing screen wi th printing patterns other than those described could be manufactured. Needless to say, it is not necessary that the printing pattern be restricted to - 19 S0691 geometric shapes, printing patterns including images of people, landscapes and the like could be manufactured according to the invention, and washed colours could, for example, be obtained by varying the spacing and diameter of the openings in the printing pattern of the printing screen.

It is further envisaged that as well as being used for printing on textile materials the printing screen could be used for printing on many other media, for example, on paper and cardboard, for example, in packaging cartons and the like, or on pottery. Indeed, it is also envisaged that the printing screen could be used in the printing of printed circuit boards.

It is further envisaged that a sealing member, for example, an o-ring seal may be fitted between the printing screen and the bottom portion of the forme frame to prevent the ingress of printing ink or paint between the screen and the forme frame.

Claims (9)

1. A metal printing screen for flat screen printing of the type comprising a flat printing portion and an outer peripheral mounting portion integral with and 5 extending over at least a portion of the periphery of the printing portion, the mounting portion being arranged for releasable engagement with a forme frame, characterised in that the printing portion and the mounting portion are formed by electrolytic deposition onto a former, and at 10 least a pair of register holes are formed in the portion during the electrolytic forming of the printing screen, the register holes being arranged for alignment with a corresponding alignment means on a printing table or on the medium to be printed. 15

2. A metal printing screen as claimed in claim 1, wherein the mounting portion comprises an upstanding mounting member adjacent at least two opposing sides of the printing portion.

3. A metal printing screen as claimed in claim 2, 20 wherein the upstanding mounting members extend around the periphery of the printing portion.

4. A metal printing screen as claimed in any of the preceding claims characterised in that the printing - 21 portion and the mounting portion are simultaneously formed on the former.

5. A metal printing screen as claimed in any of the preceding claims, wherein the printing portion and 5 the mounting portion are of nickel material.

6. A metal printing screen substantially as hereinbefore described with reference to the drawings.

7. A method for manufacturing a metal printing screen as claimed in claim 1, the method comprising the 10 steps of: forming a negative of the printing portion and the mounting portion on a former, and forming the printing portion and the mounting portion on the former by electrolytic 15 deposition onto the former.

8. A former for manufacturing a metal printing screen according to the method as claimed in claim 7, wherein a negative of the printing portion and the mounting portion is engraved onto the former.

9. Articles whenever printed on a metal printing 50891 screen - 22 as claimed in any of claims 1 to 6.