DE3114640A1 - METHOD FOR APPLYING ANTISTATIC SOLUTIONS AND TRAIN WITH AN ANTISTATIC ORDER - Google Patents

Description

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AGFA-GEVAERT 5090 Leverkusen, Bayerwerk

SHARED COMPANY

Patent department HRS / m-c

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Method of applying anti-static solutions and web with an anti-static application

The invention includes a method for applying antistatic solutions to running webs and a web with an antistatic coating on the surface.

To avoid flashes caused by electrostatic charges, it is known and customary to use at least one Surface of webs, in particular of webs coated with light-sensitive photographic emulsions are or will be coated with antistatic solutions. The antistatic solutions are used in

IQ immersion process or other pouring process in liquid form in a constant layer thickness evenly applied to the entire surface of the web. By applying the antistatic agents to the surface of the web, the surface resistance is reduced and the conductivity is increased over the entire width of the web, so that charges are dissipated via the antistatic layers. Depending on the chargeability of the processed web material larger or smaller antistatic layer thicknesses are required to achieve a surface resistance of about 10 to "Ό Oh ^m, which guarantees a conductivity of the sheet surface in which no electrostatic discharges caused by lightning.

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This is the most effective and universal measure, whereby the surface resistance according to DIN 54 582 increases slightly measure is.

The conductive backing layers usually contain polymeric film-forming electrolytes, especially polymeric alkali metal salts Carboxylic or sulfonic acids, e.g. acrylic or maleic acid copolymers, Polystyrene sulfonic acid, but also quaternary polymers (e.g. poly-2-vinyl-N-methyl-pyridinium sulfate). Such antistatic layers can be created by using appropriate swelling agents or solvents be anchored on the back of the film.

Carbon black-filled backing layers have particularly favorable properties. In contrast to the polymer electrolytes its surface resistance is independent of the relative humidity. They also offer antihalation protection. However, they currently still require a pre-bath during processing in order to be removed. As a binder High-molecular, alkali-soluble products, e.g. cellulose acetate hexahydrophthalate, are used.

While web surfaces without applied antistatic layers can be printed with all printing inks, web surfaces show which are coated with antistatic agents have the significant disadvantage that they are due to the chemical composition of the antistatic agents only have a very limited printability. Often, however, there is a printability Desired, for example, when processing black and white or color photographic images on the

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The name of the manufacturer or the processing dates or numbers can be printed on the back to form an individual To be able to identify the image later. This is so far only with considerable chemical and technical c effort possible or it must be printed on the surface Labels can be stuck on that contain the desired data.

For coating the entire web surface, in order to achieve sufficient conductivity, considerable IQ amounts of antistatic solutions are required, being the solvents have to be evaporated again after the coating in a drying process, including energy is needed.

The invention is based on the object of a method to find antistatic solutions with which it is possible to use small amounts of antistatic agents to achieve both good conductivity and good printability of the web surface.

On the basis of a procedure mentioned in the introduction Art, this object is achieved according to the invention in that the antistatic solution is linear or in the form of a grid is applied to the surface of the web.

It has surprisingly been found that the anti-static solution can be applied in the form of a line or a grid on a track surface on average the same surface resistances can be achieved as with a previously common full-surface application and

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that the line or grid-like application of the antistatic agents has good electrostatic conductivity the surface achieved so that no electrical discharges take place. The printability is very good, because a wide variety of printing inks adhere very well to surfaces that are not provided with antistatic agents.

The advantageous use of a profile roller application, Process for generating the linear or mesh-shaped profile of the antistatic agents on the surface the moving web allows, depending on the profile size of the profile roller, considerable savings in antistatic solution from 30 to 60%, whereby the measured surface

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resistances are between 5 * 10 and 3.5 * 10 Ohm. Of the Application of the antistatic solution with the profile roller application process has one more thing than the conventional application process by coating or pouring Advantage that there are no voids on the web surface caused by wetting errors or the tear of the commissioned film. The described The method thus allows a reduction in losses with a cost saving due to lower consumption of antistatic solutions and the associated lower drying capacity and good printability of the electrostatically good conductive track surface.

The profile roller application process also offers the further advantage of printing on the web surface during the To be able to apply antistatic coating by using colored antistatic solutions. The up

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Prints can include the manufacturer's name, any special notes for the consumer, special Distinguishing features or the like. Contain.

The web produced by the method is characterized in that the antistatic solution on its surface is applied linearly or in the form of a grid and between the lines or the grid areas remain without antistatic solution. The mesh grid or the profiles made of antistatic conduct the electrostatic Charges from the web or equalize them, while the areas between the lines or the Have the mesh well printed. The width of the applied anti-static lines is 0.5 to 2.5 mm, so that with a choice of the printed letter size from 5 to 10 mm, the imprint is always easy to read.

The linear application of the antistatic solution to the web surface can have the most varied of shapes. An arrangement of order profiles which intersect at right angles and which extend in the direction of travel of the web and transversely to the direction of travel of the web. The distance from profile line to profile line can in this case be 2 to 15 mm, with a very good charge exchange or good dissipation being achieved.

It is also advantageous to arrange the profile lines at an angle to the direction of travel of the web, which, crossing each other, are diamond-shaped Include surfaces.

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For thin profile lines, a closer one is suitable Arrangement of the crossing lines described or an advantageous arrangement in which application profiles that cross each other at right angles as well as that run obliquely to the direction of web travel are provided are.

It is also advantageous to apply the profile lines, in which the lines do not cross, for example lines made of antistatic solutions that are parallel to each other run in or across the direction of travel or the are arranged in a zigzag or meander shape to the edge of the web or to the direction of web travel. Likewise, the Lines describe curves or arcs, for example being arranged in a sinusoidal manner above or next to one another.

The invention is explained below with reference to drawings explained in more detail. It shows:

1 shows a profile roller application device for application a grid-shaped antistatic profile with profile lines crossing at right angles;

Fig. 2 obliquely crossing profile lines;

3 profile lines crossing obliquely and at right angles;

Fig. 4 is a graphic illustration of original

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patterns on a scale of 1: 1.

In the profiled roller application device shown in FIG. 1 an antistatic solution 2 is continuously fed to an immersion tray 1. One in the immersion bowl 1 immersing dip roller 3 removes the antistatic solution and transfers the solution 2 to a metering roller 4, from which the metered amount is transferred to a profile roller 5. The profile roller 5 transfers the antistatic solution according to their profile on the running track 6, which is guided past the profile roller 5 via a back roller 7. By choosing the contact pressure with which the back roller 7 presses the web 6 against the profile roller 5 / the application thickness of the antistatic solution 2 can be increased set the track 6. The profile roller 5 has in the example shown rectangular profile lines 8, which on the Web 6 create a rectangular mesh 9 from antistatic solution 2.

Fig. 2 shows a web 6 with a grid 10, which Has profile lines running obliquely to the direction of web travel.

In Fig. 3, a finer mesh 11 is on a track shown, in which the profile lines run both transversely to and in the direction of travel of the web and from obliquely or diagonal profile lines are superimposed. Here, the profile lines can be very narrow, for example 0.5 to 1 mm wide, so that an imprint with printing ink the narrow profile lines of the

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fine mesh completely bridged and a very good legibility of the print is achieved.

Fig. 4 shows a selection of seven different on ^ polyester-coated photographic papers applied anti-static profile line types A to G and a uniformly coated photographic paper H as a type. For all patterns was the same photo paper, the same antistatic solution in about the same application thickness (12 μπι wet) used. The width b of the antistatic profile lines is indicated in FIG. 4 in the second column, as is that Distance a between the profile lines. In the third column are those according to DIN 54 482 at constant temperature and moisture measured on several samples and given averaged surface resistances for the various

Samples A to G assume values of 5.0 * 10 ⁷ ohms to 3.5 "10 ⁸ ohms. The type samples H had an average surface resistance of 5.4" 10 ohms. Finally, the last column shows the consumption ε.η antistatic solution in%, which relates to the consumption for a type coating (H) with 100% antistatic solution.

The patterns in FIG. 4 show a surprising effect that, for example, with pattern B when only 44% of the previously required antistatic solution just as low surface resistance of approx. 5 * 10 ohms can be achieved, as with type H of the 100% antistatic solution needed. In the case of pattern B, only about 56% of the surface is provided with antistatic agents, as a result of which good printability is possible if the f.

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Profile line width b of 2 mm does not bother, which is the case when large letters are used for printing will. While Samples C and G provide less antistatic solution savings, Samples D, E are and F very advantageous if a higher surface resistance between 1 and 3.5 * 10 ohms is permitted. That Pattern D is characterized by a very fine profile, the profile lines of which are only 0.5 mm wide and also allow printing with your letters. That Sample E surprisingly shows a very low consumption of antistatic solution of only 39% in one

quite usable surface resistance of 2.7 * 10 ohms. The patterns shown: · were drawn in such a way that the anatomical profiles are darkly from the Stand out from free white areas. This applies to antistatic solutions containing carbon black. Most of the time, however, the Antistatic agents mentioned in the introduction are used, which appear white on the white back of the paper and only appear through a different gloss can be recognized, so that the profile lines hardly stand out on the paper surface. By coloring the antistatic solution, however, a certain characteristic, for example the name of the manufacturer of the product can be applied if this is desired.

The patterns shown are by no means a limitation of the invention, but rather all are conceivable have other shapes, for example also sinusoidal curves. The patterns can be parallel as well as across applied to the direction of travel of the web (see arrows, Fig. 4), without the surface resistance

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change significantly, as measurements have shown. The distribution and / or discharge of static electricity takes place equally well without flashing. At belt speeds of 100 m / min for the pattern F with the highest surface resistance

3.5 * 10 ohms no flashes are generated.

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Claims (7)

31U640 Claims ,1. Procedure for applying anti-static solutions moving webs, characterized in that the antistatic solution (2) is in the form of a line or a non-zigzag is applied to part of the surface of the web (6). 2. The method according to claim 1, characterized in that the line or mesh-shaped application of the antistatic solution (2) with a profile roller application process is applied to the moving web (6). 3rd web with an antistatic application on the surface, characterized in that the antistatic solution (2) line or net grid shape (9, 10, 11) is applied to the web surface and between the Lines or the grid (9, 10, 11) areas without an anti-static solution are available. 4. Web according to claim 3, characterized in that the grid-shaped order of the antistatic solution (2) from order profiles crossing at right angles O), which extends in the direction of travel of the web and across extend to the direction of web travel. 5. Web according to claim 3, characterized in that the grid-like order of the antistatic solution (2) consists of intersecting application profiles (10) running obliquely to the web running direction, the diamond-like Include surfaces. AG 1778 31U640 6. Web according to claim 3, characterized in that the grid-like order of the antistatic solution (2) both from intersecting at right angles, as also consists of application profiles (11) running obliquely to the web running direction. 7. Web according to claim 3, characterized in that the order of the antistatic solution (2) is linear takes place and the profile lines parallel lengthways or transversely to the web running direction or zigzag to the Direction of web travel are arranged. AG 1778