EP0897796A1 - Method of manufacturing a screen printing jig and apparatus therefor - Google Patents

Abstract

A covering layer (3) giving the desired printing pattern is applied to parts only of a fine-mesh screen (1). After layer application, the rear underlay (2) and screen can be detached from each other, typically after the former has solidified. The layer can be applied by spraying, painting or transfer-printing. Alternatively this can be done by wiping or immersion. The screen can be flat or cylindrical.

Description

The invention relates to a method for producing a screen printing stencil according to the preamble of claim 1 and a device according to claim 14.

There is already a general process for making a screen printing stencil known in which a cover layer in accordance with a desired pattern only in some areas on a fine mesh Sieve is applied.

However, it has been shown that sieve openings are formed by a liquid substance used in the cover layer is often not completely fill in, or that when the edge of the print pattern the cover layer should not end between two sieve webs build up far enough. One reason for this is that the above liquid substance not on the already existing structures sticks, but passes through the sieve. This leads to errors Print patterns on the stencil and thus ultimately too Prints that are reduced in quality.

The invention has for its object a method of the aforementioned Kind in such a way that print patterns on the stencil have it manufactured more precisely. In addition, it is an object of the invention to provide a specify suitable device for this.

The procedural solution of the task can be found in the characterizing Part of claim 1. On the other hand, is the device side Solution of the problem to be found in claim 14.

The method according to the invention for producing a screen printing stencil, in which a cover layer in accordance with a desired one Print samples only in areas on a fine mesh screen is characterized in that the screen for application the cover layer is closed on the back by a pad.

This base prevents that to build up the cover layer Pass the liquid substance used through the sieve can, so that sieve openings can always be completely filled, and even if the sieves are relatively coarse. About that In addition, edges of the cover layer that are in the area between two screen ends end, supported by the pad, making them relative can be expansive. Let through the cover layers created in this way the print patterns reproduce better, resulting in a higher quality Pressure leads.

All common sieves can be used to form templates, e.g. B. plastic sieves, wire mesh or electroplated Sieves, such as nickel sieves, and the like. From them will be applied the cover layer on the screen removes the base so that finally the finished screen printing template is available. Care must be taken that the material used to form the cover layer does not adhere too strongly or better not at all to the pad when separating the sieve and base, damage to the applied Avoid covering layer. Expediently you choose for the cover layer is a material that has little affinity for the material the document has.

According to a development of the invention, the sieve and are separated Underlay after the cover layer has solidified. The Risk of damage to the cover layer when the underlay is removed the sieve is thus reduced. The type of consolidation takes place the cover layer depending on the formation of the cover layer used material.

The material for forming the cover layer can e.g. B. a viscous Be a liquid, such as an aqueous emulsion of a synthetic resin varnish, a aqueous suspension of pigments or wax. As a liquid substance molten metal is also used to form the cover layer or a molten metal alloy in question, e.g. B. Wood's metal.

The latter has a relatively low melting point and can therefore are used in particular with metallic screens. Also the Use of colors or the use of ink to form Cover layers are possible.

These materials are solidified depending on the nature of their composition. If it is a polymerizable lacquer, this can be by heating and / or exposure to radiation of a suitable wavelength harden or crosslink. In the case of colors or inks or in In the case of wax, the cover layer only needs to be heated. Metals or metal alloys can be solidified by cooling. That annealing steps could follow if necessary.

In an embodiment of the invention, the cover layer can be placed on the screen spray on. This also applies to certain metals or metal alloys (Wood's metal). However, it is also possible to brush on the corresponding ones Material on the sieve to form the cover layer. The latter can but can also be applied to the screen by a transfer printing process, e.g. B. using liquid plastics, paints, paints and Inks. Last but not least, the cover layer can also be applied to the sieve by a doctor blade or immersion process if predetermined Areas of the sieve were previously treated so that there was no cover material sticks. These areas could be before performing the squeegee or Dipping method z. B. be greased.

Flat screens, cylindrical screens or any other can be used as screens other shaped screens are used. The important thing is that they are close with the backing. For coating with the cover layer can also temporarily into a flat screen other shape, for example in a cylindrical shape, by placing it on the peripheral surface of a cylinder and then treating it becomes.

Rigid or elastic underlays are used as the underlay e.g. B. can also be pressed against the back of the sieve. In the event of of a screen cylinder, the base can be an expanding one Act hollow body, which is arranged inside the screen cylinder and expanding against the inner peripheral surface of the screen cylinder lets press. After the covering layer has been applied, the hollow body becomes evacuated again, causing it to detach from the screen cylinder.

The material for the pad can be in accordance with the material of the sieve and that of the cover layer. So can a pad e.g. B. made of metal, rubber, rubber, plastic, and the like. Even natural materials such as B. wood, stone, glass, etc., are possible. However, certain materials are excluded if the underlay must be elastic.

An inventive device for producing a printing stencil has the following: a bearing device for the rotatable mounting of a Hollow cylinder about its longitudinal axis; a coating device for pattern-based application of a cover layer on the outer peripheral surface the hollow cylinder; and an elastic hollow body which can be pressed against the inner circumferential surface of the hollow cylinder by expansion is.

With such a device, not only sieves can be matched with the inventive method with a cover layer coat, but also hollow cylinders that are closed Have peripheral surface. With them it can be z. B. flexographic printing plates act a continuous on its outer peripheral surface Have photoelastomer layer. This can be covered due to the pattern to be exposed afterwards. A hollow cylinder can, however also be a metallic cylinder with an insulation layer due to the pattern is covered to then galvanic on it Ways to apply a metal sieve. Other hollow cylinders can also depend on the pattern be coated, for example with a continuous layer of lacquer closed screen cylinder, the paint layer is photosensitive is. After coating, this is exposed to a subsequent one Development process to expose screen openings according to the pattern.

According to one embodiment of the invention, the hollow body as an in Radial direction of the hollow cylinder formed inflatable tube be. It is placed on the inside of the wall of the hollow cylinder and stabilizes the concentricity of the hollow cylinder. The hollow cylinder is on sieve to be coated, the sieve is simultaneously through it on his Closed back.

Alternatively, the hollow cylinder can also be designed as an expandable one in the radial direction Be sleeve formed. This can be a metal sleeve with act extremely thin walls, some of which are still elastic in the radial direction is pressed against the inner peripheral surface of the hollow cylinder to become. They can also stabilize the concentricity of the hollow cylinder and a sieve can be closed on the inside.

The hollow cylinder can be provided separately from the storage device, can therefore be inserted into the hollow cylinder regardless of the bearing device and pressed against its inner wall. For example it can be a hose that is closed at the end, in the z. B. air can be admitted with overpressure. Only after investment of the hose on the inner peripheral surface of the hollow cylinder becomes the latter used in the storage device of the device according to the invention.

The hollow body can also be part of the storage device. He can in Form of an inflatable cylinder tension roller, which is rotatably mounted is, and onto which the hollow cylinder is pushed.

The cylinder tension roller can be inflated by a source of compressed air be that can be part of the device according to the invention. In the Compressed air source can be a blower capable of if necessary, to be able to compensate for flow losses and ensures that maintain a circular cross section of the hollow body or hollow cylinder remains.

The coating device itself can be a coating station have, which is displaceable parallel to the longitudinal axis of the hollow cylinder. Liquid covering medium is then used via the coating station Creation of the cover layer applied to the template. It can the coating station is one which has one or has a plurality of nozzles in order to spray on the cover layer. this happens when rotating the hollow cylinder about its longitudinal axis while simultaneously Displacement of the coating station in the longitudinal direction of the hollow cylinder. The nozzles can be pressure controlled, piezoelectric excited or electrostatic nozzles. Also bubble-jet nozzles can be used.

However, a coating station parallel to the hollow cylinder can also be used horizontal transfer roller are used, through which a liquid cover layer is transferred to the hollow cylinder when hollow cylinder and transfer roller, which run parallel to each other, rotated accordingly and come into contact with each other.

Figur 1 einen vergrößerten Längsschnitt durch eine von einer Unterlage unterstützten Siebdruckschablone;

Figur 2 einen erfindungsgemäßen Verfahrensschritt zum musterbedingten Auftragen einer Abdeckschicht auf ein Flachsieb, das auf einer ebenen Unterlage liegt;

Figur 3 eine Vorrichtung zum Auftragen einer Abdeckschicht auf die äußere Umfangsfläche eines zylindrischen Siebs; und

Figur 4 eine weitere Vorrichtung zum Auftragen einer Abdeckschicht auf die äußere Umfangsfläche eines Hohlzylinders mit geschlossener Oberfläche, der auf einer Schablonenspannwalze sitzt.

Embodiments of the invention are described in detail below with reference to the drawing. Show it:

1 shows an enlarged longitudinal section through a screen printing stencil supported by a base;

FIG. 2 shows a method step according to the invention for pattern-based application of a cover layer on a flat screen that lies on a flat surface;

Figure 3 shows a device for applying a cover layer on the outer peripheral surface of a cylindrical screen; and

Figure 4 shows another device for applying a cover layer on the outer circumferential surface of a hollow cylinder with a closed surface, which is seated on a stencil roller.

FIG. 1 shows the principle on which the invention is based. One to be coated Sieve 1 is first placed on a base 2, namely so that it is in contact with the base 2 everywhere. Then will a covering layer 3 is applied to the screen 1 according to the pattern, the Cover layer 3 areas between webs of sieve 1 completely or partially fills out. Since the underside of the sieve 1 rests on the base 2, is a passage of the cover layer 3 through the base 2 prevents the screen openings. This ensures that the pattern in its originally intended form actually on the sieve 1 is transferred and not about breaks at the edge of the pattern and faulty Openings remain in sample central areas.

The sieve openings are closed by the backing 2 is the more advantageous, the larger z. B. are the screen openings, each thinner the material used to form the cover layer 3 is, or the thinner the cover layer 3 itself. The pad 2 acts in each case as support for the cover layer 3 and is only from Strainer 1 removed after there is no longer any danger of this the cover layer 3 is damaged again.

Figure 2 shows one way as in accordance with a desired one Print pattern applied a cover layer 3 on a screen 1 can be. For this purpose, the sieve 1, which is a flat sieve acts, first placed on a flat surface 2 and in a suitable manner fixed on it. The application of the cover layer 3 the screen 1 is carried out with the help of a transfer roller 4, which previously is pattern-coated with covering material 5. Is the cover roller 4 arranged stationary and can be rotated about its longitudinal axis 6, so when moving the pad 2 in the direction of arrow 7, the covering material 5 are pressed into the sieve 1 so that the cover layer 3 arises. The pad 2 prevents the covering material from passing through 5 through the sieve 1, resulting in a more precise pattern formation leads.

The transfer roller 4 is coated with covering material 5 in general known way and will not be explained here. Mentioned should only be that the transfer roller 4 relative to one could move the stationary pad, i.e. roll it on the stationary screen 1 could.

Instead of using a transfer roller 4, the cover layer 3 could also on the flat screen 1 z. B. sprayed. This could be a spray head parallel to the surface of the sieve 1 and along a meandering Web are guided, the pattern with spray signals for application is driven by liquid cover material on the screen 1.

Figure 3 shows a further device for performing the invention Process by means of which a covering layer is applied a cylinder screen can be applied.

Reference number 8 denotes a rotating sieve in the shape of a cylinder, on which through one or more nozzles 9 paint or varnish, wax or a metal alloy is applied as a covering liquid. Here becomes a jet 10 of the covering liquid sprayed out of the nozzles 9 controlled by means of a computer 11 so that the covering liquid only on those places on the screen 8 is applied at which the screen 8 due to the pattern must be covered and those parts of the sieve 8 uncovered remain where this should remain permeable. The sieve 8 becomes this Purpose added between two synchronously driven end heads 12 and set in rotating motion (direction of rotation D). To different Template lengths or screen lengths between the end heads 12 To be able to record is, for example, the right end head 12 in the direction the cylinder axis of the circular screen 8 slidably. The sieve 8 is between the right and left end heads 12 placed and the right end head 12 moved up to the sieve 8. Usually very thin and slightly designed sieve 8 can u. U. already by the axially acting clamping force and the friction between screen 8 and the left powered end head 12 are rotated. The rigidity of the sieve 8 is also sufficient always out to the right end head 12 via the acting frictional forces notify the direction of rotation if only the speed of the sieve 8 so is slowly increased that the required acceleration torque Transfer capacity of the rotary screen 7 is not overwhelmed. Both end heads 12 are rotatably mounted on bearing blocks 13, the bearing blocks 13 are arranged on a machine bed 14. To guide the right Bearing blocks 13 in Figure 3 guide rods 15 are present, the z. B. can be attached to the machine bed 14.

The left end head 12 is driven by a motor 16 and a belt 17. This belt 17 spans a drive wheel 18 which is fixed on an axis 19 which carries the left end head 12. At the other end of the axis 19 there is an incremental pulse generator 20 which determines the rotational position of the axis 19 or the sieve 8 and outputs corresponding signals S ₀ to the computer 11. At the same time, the nozzles 9, which are fastened on a processing table 21, are slowly advanced in the direction of the cylinder axis 8b of the sieve 8, so that a thin jet, dissolved in drops and consisting of covering liquid, which emerges from the nozzles 9, runs very much along a helical line on the screen 8. In the case of a plurality of nozzles arranged in the longitudinal direction of the cylinder axis 8b, a section-wise coating of the screen 8 with covering material can also take place, the corresponding row of nozzles being displaced by a section corresponding to their length after a circumferential rotation of the screen cylinder 8, etc. The feed table 21 is fed by its feed movement a spindle 22 is stamped, this spindle 22 being driven for this purpose via a stepping motor 23, which also receives its step signals S _T from the computer 11. These step signals S _T are converted into power pulses P _T by a driver stage 24. The rotation of the motor axis of the stepping motor 23 is transmitted to the spindle 22 via a belt 25 and a pulley 26. This extends through the processing table 21, which in turn is guided on guide rails 27 on the machine bed.

The nozzles 9 are each supplied with a control signal S ₁ , S ₂ from the computer 11 in order to inject cover liquid when a control signal is received.

The nozzles 9 must be covered with a covering liquid suitable for the printing process be supplied. For this purpose, they are equipped with small pressure vessels 28 connected via supply lines 29. In the pressure vessels 28 the covering liquid under a slight excess pressure of about 1 to 5 bar. Expediently, one becomes a separate one for each nozzle 9 Provide pressure vessel 28 because of differences in line resistance and the need to adjust the application quantity per nozzle 9 separately to be able to use different outlet pressures of the covering liquid condition. A not inconsiderable amount falls with each nozzle 9 unused masking liquid that is continuously sucked off and must be returned. Vacuum tanks 30 are provided for this purpose, in which the unused covering liquid via return lines 31 transported back by the negative pressure prevailing in these tanks becomes. The recirculated cover liquid can be processed in turn, the application process can be supplied as a covering liquid.

The covering liquid can be applied in the finest droplets in order to a sufficiently high resolution when generating the print pattern to achieve on the surface of the sieve 8. The liquid can have a high viscosity to a sufficient proportion To be able to carry solid matter with a relatively small drop size. It but can also separate several liquid components by different Nozzles are sprayed on at one point on the surface of the sieve 8 are united. These can be different Epoxy resin components act only in a gel state be transferred if, after their meeting, a crosslinking reaction started. One also strives for this Procedure to achieve a high drop frequency.

This is e.g. B. possible through the use of electrostatically acting nozzles, in which a liquid jet is caused by a very high-frequency vibration, for example a pipe wall, regularly dropped into droplets and in which the droplets are then electrically charged and are distracted in an electrostatic field depending on the state of charge or not be distracted.

To allow the applied droplets to pass through the sieve 8 to prevent, there is a cylindrical inside the sieve 8 Base 32, which abuts the inner peripheral surface of the screen 8 and this or closes the sieve openings.

In this cylindrical base 32, it can be z. B. a rubber hose act corresponding length, previously introduced into the sieve 8 and has been inflated before the screen 8 between the end heads 12 has been laid.

The cylindrical base 32 can also be a metallic and very be a thin-walled sleeve onto which the sieve 8 is first pushed, to then be placed on the end heads 12 together with the sleeve. If an overpressure is then generated within the cylindrical sleeve 32, so it expands slightly in the radial direction and closes thus the openings of the sieve 8. To create the excess pressure inside the sleeve 32 or the sieve 8 can, for. B. the right end head 12 with a Pressure hose 33 to be connected, via which is under positive pressure gaseous medium is blown in from one to the other End of the pressure hose 33 connected pressure generator generated becomes. In this pressure generator it can be, for. B. a corresponding designed blower that is able to operate in sufficient quantities to supply air under pressure.

It should be noted that with the device of Figure 3, of course not only cylinder screens can be provided with a cover layer. Hollow cylinders could also be mounted on the end heads 12, which are thin-walled and have a closed outer surface. The Generating an overpressure inside these hollow cylinders would then be too lead to a more stable concentricity of these cylinders.

It could be z. B. is a thin-walled metal cylinder, which has a photoelastomer layer on its outer surface, which is coated using the nozzles. But it would only be a thin-walled one Metal cylinder in question, coated with a cover layer should then be put on it later in the places where there is no cover layer is to apply a metal layer by galvanic means. In this way, screen printing cylinders, e.g. B. made of nickel.

Of course, the coating of the cylinders mentioned does not necessarily have to with the help of the nozzles 9 in Figure 3. The device according to FIG. 3 could also have a transfer roller lying parallel to axis 8b, to use it to create a desired print pattern on the between the end heads To be able to transmit 12 lying hollow cylinders.

Alternatively, the nozzles in FIG. 3 could also be provided by a coating device for spreading covering liquid on the outer peripheral surface of the hollow cylinder to be replaced.

Another embodiment of a device for implementation of the method according to the invention is shown in FIG. Same parts as in Figure 3 are provided with the same reference numerals and are not described again.

In the present case there is a continuous shaft on the pedestals 13 35 rotatably mounted. About this shaft 35 is an inflatable rubber hose 36 drawn by means of a blower 34 with compressed air or a other suitable gaseous medium is inflatable. This stands for the blower 34 via a pressure hose 33 and an inner bore in the shaft 35 with the rubber hose 36 in connection.

If the rubber hose 36 is evacuated, it can be printed on Hollow cylinder 37 are drawn. It can be a sieve cylinder act or one that has a closed lateral surface has, as previously described. After pulling up the hollow cylinder 37 on the rubber tube 36 the latter is inflated so that it lies closely against the inner circumferential surface of the hollow cylinder 37 and this keeps round or stabilized in concentricity. Is it the hollow cylinder 37 around a screen cylinder, so are simultaneously through the rubber hose 36 the sieve openings closed from the inside or the back.

Now, as already described at the beginning, with the help of the nozzles 9, depending on the pattern a cover layer 3 on the outer peripheral surface of the hollow cylinder 37 are applied, the in the case of a screen cylinder rubber hose underneath a passage of the liquid covering material to form the cover layer 3 through the sieve prevented.

Instead of the nozzles 9, a transfer roller or a coating device can also be used here for spreading liquid on the hollow cylinder 35 are used.

Claims (22)

Method for producing a screen printing stencil (), in which a covering layer (3) is only applied in regions to a fine-meshed screen (1, 8, 37) in accordance with a desired printing pattern, characterized in that the screen (1, 8, 37) for applying the cover layer (3) is closed on the back by a base (2, 32, 36). Method according to claim 1, characterized in that after the covering layer has been applied, the screen and the base are separated from one another. Method according to claim 2, characterized in that the separation of screen and base takes place after the cover layer has been solidified. Method according to one of claims 1 to 3, characterized in that the cover layer is sprayed onto the screen. Method according to one of claims 1 to 3, characterized in that the covering layer is spread onto the sieve. Method according to one of claims 1 to 3, characterized in that the cover layer is applied to the screen by a transfer printing process. Method according to one of claims 1 to 3, characterized in that the cover layer is applied to the screen by a doctor blade or immersion method. Method according to one of claims 1 to 7, characterized in that a flat sieve (1) is used as the sieve. Method according to one of claims 1 to 7, characterized in that a cylinder sieve (8, 37) is used as the sieve. Method according to one of claims 1 to 9, characterized in that a rigid base (2) is used as the base. Method according to one of claims 1 to 9, characterized in that an elastic base (32, 36) is used as the base. A method according to claim 10 or 11, characterized in that the base is pressed against the back of the screen. A method according to claims 9, 11 and 12, characterized in that an expandable hollow body (32, 36) is used as the base. Device for producing a printing stencil with a bearing device for the rotatable mounting of a hollow cylinder (8, 37) about its longitudinal axis, a coating device (9) for applying a cover layer (3) to the outer circumferential surface of the hollow cylinder (8, 37), and an elastic hollow body (32, 36) which can be pressed against the inner circumferential surface of the hollow cylinder by expansion. Apparatus according to claim 14, characterized in that the hollow body is designed as a hose (32, 36) which is inflatable in the radial direction of the hollow cylinder. Apparatus according to claim 14, characterized in that the hollow body is designed as a sleeve which is expandable in the radial direction. Apparatus according to claim 14, 15 or 16, characterized in that the hollow body is provided separately from the bearing device. Apparatus according to claim 14, 15 or 16, characterized in that the hollow body is part of the bearing device. Device according to one of claims 14 to 18, characterized in that it further comprises a compressed air source (33, 34) for inflating the hollow body. Device according to one of claims 14 to 19, characterized in that the coating device has a coating station which is displaceable parallel to the longitudinal axis (8b) of the hollow cylinder (32, 37). Apparatus according to claim 20, characterized in that the coating station has one or more nozzles (9) in order to spray on the cover layer (3). Device according to one of claims 14 to 19, characterized in that the coating device has a transfer roller lying parallel to the hollow cylinder.

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