Sealing Blade

Abstract

A sealing blade includes opposite elongated edges (30, 31) and between them a flat (32) and which is adaptable to a blade holder (17) arranged in a coating applicator (25) of a coating device (21) and into contact with a moving surface (11′). The sealing blade has a contact surface (33), which may be arranged against the moving surface and which is 5-15% of the width (W) of the sealing blade (10).

Claims

1-9. (canceled)

10. A structure for sealing the upstream side of an application chamber of a coating applicator of a coating device in a paper or board coating applicator wherein the structure is arranged to directly engage a moving surface, so that a portion of the structure slides on the moving surface, the structure comprising: a sealing blade having a width defined between an elongated back edge and an elongated front edge which are opposed, and between the back edge and the front edge, a first blade surface, and an opposed second blade surface; at least one first bend or rounding formed in the sealing blade between the back edge and the front edge which divides each of the first blade surface and the second blade surface into a first part terminating at the back edge and a second part terminating at the front edge, such that the first blade surface is convex and the second blade surface is concave; wherein the sealing blade has a fastening area adjacent the back edge; wherein the back edge is arranged, along with the fastening area, to be mounted to an elongated blade holder in a coating applicator of a coating device; wherein the front edge terminates a contact surface formed on the first surface, and wherein the front edge is arranged to lie along a moving surface so that at least a portion of the contact surface is in contact with the moving surface and extends along the moving surface in a direction defined by a direction in which the moving surface moves; wherein the portion of the contact surface in contact with the moving surface is 5-15% of the width of the sealing blade.

11. The structure of claim 10 wherein portions of the sealing blade form flow openings through the sealing blade which pass through the contact surface; and wherein a majority of the contact surface is between the front edge and the flow openings.

12. The structure of claim 11 wherein the portions of the sealing blade forming flow openings through the sealing blade are arranged so that when the sealing blade is in contact with a moving surface the flow openings are at least partially separated from the moving surface.

13. The structure of claim 11 wherein the flow openings define a top edge toward the back edge, and the top edge of the flow openings define a distance from the front edge of the sealing blade which is 15-50 mm.

14. The structure of claim 10 wherein the second blade surface includes the contact surface and wherein the second blade surface faces the moving surface.

15. The structure of claim 10 wherein the sealing blade fastening area adjacent the back edge includes: two flat surfaces one located on the first surface of the sealing blade and another located on the second surface of the sealing blade, the two flat surfaces extending from the back edge toward the first bend or rounding; and wherein the sealing blade has portions forming fastening holes, which extend through the two flat surfaces, through which fastening holes fasteners may pass to mount the sealing blade to a blade holder.

16. The structure of claim 10 wherein the moving surface has a curvature and the first blade surface and the second blade surface second parts terminating at the front edge are formed to the curvature of the moving surface.

17. The structure of claim 10 wherein the second blade surface second part terminating at the front edge, has a second bend between the first bend and the front edge which divides the second blade surface into a third surface part extending from the first bend to the second bend and a fourth surface part extending from the second bend which terminates at the front edge; and wherein the fourth surface part is tangent to the moving surface.

18. A structure for sealing the upstream side of an application chamber of a coating applicator of a coating device in a paper or board coating applicator wherein the structure is arranged to directly engage a moving roll surface, so that a portion of the structure slides on the moving roll surface, the structure comprising: a metal sealing blade having a width defined between an elongated back edge and an elongated front edge which are opposed, and between the back edge and the front edge, a first blade surface and an opposed second blade surface; at least one first bend formed in the sealing blade between the back edge and the front edge which divides each of the first blade surface and the second blade surface into first parts terminating at the back edge and second parts terminating at the front edge; wherein the at least one first bend is such that the first blade surface is convex and the second blade surface is concave; wherein the sealing blade has a fastening area adjacent the back edge; wherein the back edge is arranged, along with the fastening area, to be mounted to an elongated blade holder in a coating applicator of a coating device; and portions of the first blade surface second part which define a contact surface extending from the front edge, wherein the contact surface is arranged to lie along a moving roll surface of a roll so that at least a portion of the contact surface forms a seal with the moving roll surface and extends along the moving roll surface in a direction defined by a direction in which the roll rotates.

19. The structure of claim 18 wherein the metal sealing blade is formed of a stainless spring steel.

20. The structure of claim 19 wherein the metal sealing blade is formed of type 1.4301 stainless spring steel having a thickness between 0.254-0.381 mm and the width being 100-130 mm.

21. The structure of claim 18 wherein the portion of the contact surface in contact with the moving roll surface is 5-15% of the width of the sealing blade.

22. The structure of claim 18 wherein portions of the sealing blade form flow openings through the metal sealing blade which pass through the contact surface; and wherein a majority of the contact surface is between the front edge and the flow openings.

23. The structure of claim 22 wherein the portions of the metal sealing blade forming flow openings through the sealing blade are arranged so that when the sealing blade is in contact with the moving roll surface the flow openings are at least partially separated from the moving roll surface.

24. The structure of claim 22 wherein the flow openings define a top edge toward the back edge, and the top edge of the flow openings define a distance from the front edge of the sealing blade which is 15-50 mm.

25. The structure of claim 18 wherein the sealing blade fastening area comprises: two flat surfaces located on the first blade surface and the opposed second blade surface between the back edge and the first bend; and portions of the sealing blade which define fastening holes at the flat surfaces through which fasteners may pass to mount the sealing blade to a blade holder.

26. The structure of claim 18 wherein the moving roll surface has a curvature and the first blade surface and the second blade surface second parts which terminate at the front edge are formed to the curvature of the moving roll surface.

27. The structure of claim 18 wherein the first blade surface second part which terminates at the front edge has a second bend between the first bend and the front edge which divides the first blade surface into a third surface part extending from the first bend to the second bend and a fourth surface part from the second bend which terminates at the front edge; and wherein the fourth surface part is tangent to the moving roll surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] The invention, which is not restricted to the embodiments presented below, is described in more detail by making reference to the drawings, in which:

[0015] FIG. 1 shows an example in principle of a coating device viewed from the side.

[0016] FIG. 2 shows one example of a coating applicator seen from the side.

[0017] FIG. 3 shows one example of a sealing blade viewed axially from the top, from one end of the sealing blade.

[0018] FIGS. 4a-4c show on a rough level of principle various embodiments of the sealing blade and of how it settles against the application roll, viewed from the side.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0019] FIG. 1 shows an example in principle of a coating device 21 viewed from the side. In this case, the device 21 comprises two rotating application rolls 22, 11, which are adapted in a nip contact and between which the paper or board web 24 to be treated, in other words to be surface sized or coated, is adapted to travel. The direction of travel of the web 24 is indicated by an arrow, and the direction of travel of each of the rolls 22, 11 is also indicated by an arrow. A web 24 treatment substance, such as a coating mixture or surface sizing agent, is spread onto the surfaces 22′, 11′ of the application rolls 22, 11 by means of coating applicators 25. The treatment substance layer is leveled and its thickness is adjusted by means of a doctor element such as a doctor blade or a rotating metering rod (reference number 15 in FIG. 2). The doctored treatment substance layer is transferred from the application rolls 22, 11 onto both sides of the web 24 to be treated in a nip between the rolls 22, 11. If only one side of the web 24 is treated, the treatment substance is only spread onto one application roll 11.

[0020] FIG. 2 shows one example of a coating applicator 25 seen from the side. In this case, the coating applicator 25 is constructed to rest on the girder 12, and the application chamber 20 that is against the application roll 11 is formed by a space in the girder 12, which space is limited first in the direction of rotation of the application roll 11 by a sealing blade 10 which comes first, i.e. on the inlet side, and by a metering rod 15 which is on the outlet side, i.e. latter in the direction of rotation. The sealing blade 10 is fastened to the girder 12 by means of a blade holder 17, and the metering rod 15 is fastened by means of a rod holder 14.

[0021] The sealing blade 10 presses against the surface 11′ of the application roll 11 and prevents, the coating from flowing in an uncontrolled manner against the direction of rotation of the roll 11 and prevents the access of air, which is carried with the rotating roll 11, into the application chamber 20. A metering rod 15 is placed at a distance from the sealing blade 10, which metering rod 15 is pressed against the application roll 11, but which metering rod 15 is suspended hydrodynamically at a distance from the surface 11′ of the roll 11 by a film transferred onto the rotating roll 11. The thickness of the film transferred onto the surface 11′ of the roll 11 is adjusted by changing the loading of the metering rod 15. The distance between the sealing blade 10 and the metering rod 15 forms an application distance, and the application chamber 20 is hence limited by the girder 12, sealing blade 10, metering rod 15 and application roll 11. The ends of the application chamber 20 are sealed in the case according to the embodiment by means of flexible seals 19, which limit the width of the area to be coated. The coating is fed into the application chamber 20 through nozzles 18 from a main tube 13 located inside the girder 12 and extending over the entire width of the coating applicator 25.

[0022] FIG. 3 presents one example of a sealing blade 10 viewed axially from the top, from its one end, which sealing blade 10 may be corresponding to the one installed in the coating applicator 25 in FIG. 2. The sealing blade 10 includes opposite elongated edges 30, 31 and a flat 32 between them. The flat 32 has two opposite sides, forming the flat surfaces 32a and 32b as shown in FIG. 4. The flat surface 32a of the flat 32 on the side of the roll 11 and the flat surface 32b on the side of the application chamber 20. Of these flat surfaces, FIG. 3 shows the flat surface 32b on the side of the application chamber 20.

[0023] The sealing blade 10 is arranged, so that it may be placed in a blade holder 17 arranged on a coating applicator 25 of a coating device 21 so that the blade contacts with the moving surface 11′. For mounting, the sealing blade 10 includes a fastening area 37 adjacent to first elongated edge 31, i.e., the back edge, from which fastening area 37 the sealing blade 10 is adapted to be fastened to the blade holder 17. In the fastening area 37, there may be for example die-cut fasteners holes 31b, which ensure the fastening of the blade 10 to the holder 17. The second elongated edge 30, i.e., the front edge, is opposite to this first edge 31 mounted in elongated holder 17. The front edge 30 includes a tip 38, which is arranged against the moving surface 11′.

[0024] A contact surface 33, best shown in FIG. 4, may be arranged against the moving surface 11′, forms part of the sealing blade 10. Some examples of the contact surface 33 are presented in FIGS. 2 and 4a-4c. The contact surface 33 is on the flat surface 32a of the sealing blade 10 is on the side of the roll 11, in other words on a side opposite the side 32b forming part of the application chamber 20. The contact surface 33 may be 5-15% of the width W of the sealing blade 10. In this connection, the width W of the sealing blade, see FIG. 3, refers to the distance between the elongated edges 30, 31 of the sealing blade 10, measured along the flat 32. Correspondingly, the length L of the sealing blade 10 refers to the length of the sealing blade 10 in the cross direction of the machine. The length L of the sealing blade 10 may be several meters, and as much as ten meters. The directions W and L are perpendicular to each other. It must be noted that in the figures the proportions of the sealing blade 10 and its parts are not necessarily actual proportions. As a result of the contact surface 33 arranged in the sealing blade 10 as early as during its manufacture, the sealing blade 10 is, when installed in the blade holder 17, at a suitable angle with respect to the roll 11, and hence for example the lubrication of the tip 38 of the sealing blade 10 becomes sufficient and the tip 38 becomes less sharpened even without lubrication, because part of the flat surface 32a is against the moving surface 11′ as opposed to the prior art where only the edge of the blade is in contact with the roll and so becomes sharp.

[0025] By arranging the contact surface 33 in the sealing blade 10, it can be brought into contact with the moving surface 11′ more reliably over a larger area and especially over its flat 32, than merely by contacting the moving surface 11′ along its elongated edge 30. Moreover, the contact surface 33 is in the sealing blade 10 already formed before it is installed in the blade holder 17, and it is not formed only when loading the blade 10 against the moving surface 11′. In other words, it can be said that initial tension has been removed from the blade 10 when it is installed in its blade holder 17. This makes the contact between the flat 32 of the blade 10 and the moving surface 11′ very reliable, and at the same time the sharpening of the tip 38 of the blade 10 is reduced.

[0026] According to one embodiment, flow openings 34, 34.1-34.3 may be adapted in the flat 32 of the sealing blade 10. Some examples of their locations have been presented in FIGS. 4a-4c, where the openings are described in principle by the two-headed arrows running through the flat 32 of the blade 10. Most of the contact surface 33 may be between the elongated edge 30 and the flow openings 34, and 34.1-34.3 of the blade 10, as shown in FIGS. 3 and 4. The contact surface 33 and the flow openings 34, 34.1-34.3 are formed in the sealing blade 10 so that when in contact with the moving surface 11′, the flow openings 34, 34.1-34.3 formed in the sealing blade 10 are at least partially separated from the moving surface 11′. In this case, the moving surface 11′ does not block the flow openings 34, 34.1-34.3. This also ensures the functioning of the flow openings 34, 34.1-34.3 in all circumstances, in other words the access of air into the chamber 20 is prevented, the lubrication of the sealing blade 10 is ensured and the removal of overpressure from the chamber 20 is ensured. As a result of the invention, it is even possible to improve the impacts achieved with the flow opening 34, 34.1-34.3. The location of the flow openings 34, 34.1-34.3 on the flat 32 of the blade 10 may be optimized for example close to a standardized contact surface 33 and hence the lubrication between for example the blade 10 and the moving surface 11′ may be intensified.

[0027] According to one embodiment, the contact surface 33 may be arranged in the sealing blade 10 for example so that the flat 32 of the sealing blade 10 is divided into two or more areas 35.1-35.3, of which the contact surface 33 is formed in at least one area 35.1, in other words on one side of the flat 32. In FIGS. 4a and 4b, the sealing blade 10 has been divided into two areas 35.1, 35.3, and the contact surface 33 is in the area 35.1. In FIG. 4a, the contact surface 33 is in a planar area 35.1, and in FIG. 4b the contact surface 33 is in a curved area 35.1. Correspondingly, in FIG. 4c the sealing blade 10 has been divided into three areas 35.1-35.3, and the contact surface 33 is again in the area 35.1, which is a planar area here, too.

[0028] According to the embodiments presented in FIGS. 4a-4c, the areas 35.1-35.3 may be formed in several different ways. According to a first embodiment, the flat 32 of the sealing blade 10 is divided into two or more areas 35.1-35.3 by means of one or more folds 36.1, 36.2. In FIGS. 4a and 4b, the sealing blade 10 has one fold 36.1, and in FIG. 4c, the sealing blade 10 has two folds 36.1, 36.2. The fold 36.1, 36.2 may be a beveled sharp fold or also a rounded fold. With two folds 36.1, 36.2, the angles of the folds do not need to be that great. The flat 32 of the sealing blade 10 may also be divided into two or more areas 35.1, 35.3 by means of one or more rounded surfaces such as 36.3 shown in FIG. 4b. The folds 36.1, 36.2 and/or roundings 36.3, more generally the removal of the initial tension of the sealing blade 10, may be performed for example in the last stage of the manufacture of the sealing blade 10.

[0029] FIGS. 4a present three different possibilities to arrange the flow openings 34.1-34.3 in the sealing blade 10. They can be for example in the same area 35.1 with the contact surface 33, in which case they are between the fold 36.1 and the contact surface 33. They can also be in the same area 35.3 where the sealing blade 10 is fastened to the holder 17. Moreover, they can also be at exactly the fold 36.1. In the embodiment of FIG. 4b, the flow openings 34.3 are in the area 35.3, and in FIG. 4c the flow openings 34.1 are in the area 35.2.

[0030] The distance D of the top edge of the flow openings 34, in other words that of the edge closest to the tip 38 of the blade 10, from the elongated edge 30 of the sealing blade 10, which edge 30 is equipped with the tip 38, may be for example 15-50 mm. The sealing blade 10 may be for example of spring steel type 1.4301, and its material thickness may be for example 0.254-0.381 mm and total width W for example 100-130 mm.

[0031] As presented above, the sealing blade 10 according to the invention is no longer a planar item known from prior art. Instead, its front edge 30 is deviated from the planar surface. The deviation may be accomplished for example by means of one or more angle folds in the longitudinal L direction of the blade 10. The folds may be located in the width W direction of the blade 10 at a distance of 5-15% from the tip 38 of the blade 10, which tip 38 is an edge 30 opposite to the edge 31 on the side of the blade holder 17. Another alternative presented for example in FIG. 4b is to round the tip portion of the blade 10 in the area 33 in question to be curved in the same direction as the curvature of the roll surface 11′.

[0032] It is to be understood that the above description and the related FIGS. are only intended to illustrate the present invention. The invention is hence not only restricted to the above-presented embodiments or the embodiments defined in the claims, but several different variations and adaptations of the invention will also be obvious to a professional in the field, which variations and adaptations are possible within the inventive idea defined by the enclosed claims.