STUD FOR A DOCTOR BLADE HOLDER IN A FIBER WEB MACHINE AND DOCTOR BLADE HOLDER ASSEMBLY FOR A FIBER WEB MACHINE

Abstract

 The invention relates to a stud for a doctor blade holder in a fiber web machine. The stud (15) has a body (16) with a flange (17). The body (16) is a single piece having a form for a standard tool. The invention also relates a doctor blade holder assembly for a fiber web machine.

Description

[0001] The invention relates to a stud for a doctor blade holder in a fiber web machine, the stud having a body with a flange. The invention also relates to a doctor blade holder assembly for a fiber web machine.

[0002] In order to facilitate the maintenance of the doctor blade holder assembly, a doctor blade holder with sliding function has been developed. US-patent application number US20020153114A1 discloses such an assembly. Here the sliding function is implemented with a rail structure and multiple studs supporting the doctor blade holder and sliding inside the rail structure. In this way, the whole doctor blade holder can be slid out for maintenance. Similarly, the doctor blade holder can be slid in.

[0003] The height of the known doctor blade holder assembly is big. The high assembly needs space and increases forces straining the doctor blade holder and the studs. The known rail structure is of metal with fiberglass segments. The fiberglass is prone to cracking especially under impact loads, and it deteriorates over time. The stud itself has several parts and it requires the use of a special tool to install. This makes it difficult for maintenance when the tool is not available. The stud has rotating components which are weak. They will break off with time and when entering the rail structure the sharp corners cause damage to the rotating elements. During use the studs will jam to the rail structure and it is hard to slide out the doctor blade holder.

[0004] It is an object of the invention to provide a novel stud for a doctor blade holder in a fiber web machine with easier exploitation and improved durability. The characteristic features of the stud according to this invention are stated in the accompanying Claim 1. Another object of the invention is to provide a novel doctor blade holder assembly for a fiber web machine which assembly is simple and compact but has rigid support for the doctor blade holder and can be utilized in various positions and with different doctor blade holders. The assembly can be made low, and it is easy to maintain. The characteristic features of the doctor blade holder assembly according to this invention are stated in the accompanying Claim 5. The stud and other parts of the assembly have unique properties. In this way, the doctor blade holder assembly functions accurately and is long lasting. With new kinds of parts, the doctor blade holder assembly remains simple but robust, and it is easy to slide in and out.

[0005] The invention is described below in detail by referring to the enclosed drawings which illustrate some of the embodiments of the invention, in which

Figure 1

shows a doctor blade holder assembly according to the invention adapted to the vicinity of a surface to be doctored,

Figure 2a

shows a stud according to the invention in 3D,

Figure 2b

shows the stud seen from below,

Figure 2c

shows a cross section of the parts of the stud together with one embodiment of the rail structure according to the invention,

Figure 2d

shows a cross section of another embodiment of the rail structure according to the invention without the stud,

Figure 3a

shows a cross section of one embodiment of the doctor blade holder assembly according to the invention,

Figure 3b

shows a cross section of another embodiment of the doctor blade holder assembly according to the invention,

Figure 3c

shows a rail structure according to the invention seen from above,

Figure 3d

shows an enlargement of the rail structure of Figure 3c,

Figure 4a

shows the rail structure according to the invention equipped with a slide bar,

Figure 4b

shows another rail structure according to the invention equipped with the slide bar and a transfer equipment.

[0006] Figure 1 shows one doctor blade holder assembly according to the invention adapted to the vicinity of a surface 10 to be doctored. The doctor blade holder assembly is especially for a fiber web machines such as paper, board, and tissue machines. Here one doctor blade 11 is arranged to a doctor blade holder 12 fixed to a doctor beam 13. Also other kinds of support structures for the doctor blade holder may be used and generally the support is called as a doctor back. Here the surface 10 rotates counterclockwise. The surface can be, for example, the surface of a drying cylinder. Then the doctor blade keeps the surface clean. The doctor blade holder assembly is also suitable for doctoring polymer coated rolls, belts, and transfer belts as well as open-surfaced rolls. In a fiber web machine, such as a paper or board or tissue machine, open-surfaced rolls are used for several varied reasons. In a suction roll, for example, the shell is perforated for leading a vacuum effect from the inside of the roll to the outside of it. In other words, in the wet end of the machine, the doctored rolls have some void volume for water to escape. The void volume can be grooves, blind holes and/or through holes. Whereas in the dry end and finishing part of the machine most of the doctored rolls have a smooth surface. The holes make the shell open-surfaced. On the other hand, grooved rolls are also used, in which the shell surface is grooved mainly for improving dewatering. A suction roll with a grooved surface also exists, the shell of which is provided with both holes and grooves. In addition to or instead of grooves, blind bores, for example, can be used. Soft coatings are also used in the rolls while belts and transfer belts are soft surfaced by their nature. In addition, the surface of a belt, for example, can be grooved. The doctor blade removes water and impurities from the surface. Also, the doctor blade may remove the fiber web off the surface. In practice, in the center roll doctoring is crucial. So, there are even two consequent doctor blade at one roll.

[0007] As it simplest, the doctor blade holder is attached to the doctor back with several screws. Here, instead, a rail structure 14 is used together with studs. Generally, the stud is for a doctor blade holder assembly in a fiber web machine. One stud 15 is shown in Figure 2a. The stud 15 has a body 16 with a flange 17. According to the invention, the body is a single piece having a form for a standard tool. Thus there are less parts, and the stud maybe easily installed and deinstalled with a standard tool. Here, the form includes two opposite flats 18 arranged in the flange 17 (Figure 2b). Thus the body can be hold by a spanner or adjustable spanner, for example. During installation, the stud is positioned so that the flats 18 are mainly crosswise in relation to the rail structure 14 (Figures 4a and 4b). Thus the studs will stay inside the rail structure with clearances as designed.

[0008] The stud 15 in one piece is shown in Figure 2c. The body 16 of the stud 15 has a threaded center boring 19 in center and circular shape with aforementioned flats 18 for assembly and disassembly using standard tools. The center boring 19 is for the machine screw 20 attaching the doctor blade holder which is explained in more detail later.

[0009] Even the plain stud with the flange would be enough to attach the doctor blade holder to the rail structure. However, there is also a rotating piece 21 arranged around the body 16. This rotating piece will contact smoothly with the rail structure but simultaneously aid the sliding function. Advantageously, the rotating piece 21 is a tubular sleeve made of bronze or stainless steel. Then the stud will have more durability and longer life than with the known studs. The body itself is of stainless steel 316, for example.

[0010] The stud will by aligned to the rail structure by aid of the flange and the rotating piece. So there are small clearances, and the vibrations of the doctor blade holder will be avoided. Here, the body 16 has a circumferential shoulder 22 at an end 23 opposite to the flange 17. A corresponding hole is in the doctor blade holder, like in the tray or base plate 24 in Figures 3a and 3b. Thus, the stud will be firmly aligned with the doctor blade holder.

[0011] The doctor blade holder assembly is for a fiber web machine, and it has a doctor blade holder 12 arranged movable to a rail structure 14 with a plurality of consecutive studs 15 having a body 16 with a flange 17. With this kind of construction the whole doctor blade holder can be pulled out in cross machine direction for maintenance and cleanup, for example. On the other hand, during installation, the rail structure is first attached to the doctor back. Then the doctor blade holder equipped with studs is slid in in cross machine direction. Advantageously, the majority of the studs are studs according to the present invention.

[0012] The modern doctor blade holder assembly includes a doctor blade holder 12 arranged pivotably by a pivot rod 25 supported to brackets 26. In this way, only the doctor blade holder pivots with the doctor blade. In the embodiment of Figure 1, the doctor beam 13 is a rigid structure. The doctor beam 13 is supported at its ends and there are setting means for adjusting the angle of the doctor beam 13 (not shown) . The actual loading of the doctor blade is done by pivoting the doctor blade holder. The doctor beam forms the doctor back.

[0013] Figures 3a and 3b show the doctor blade holder assembly, where the doctor blade holder 12 also includes loading fingers 27, which are fixed to a top plate 28. Then there are top brackets 29 also fixed to the top plate 28. These top brackets are like the bracket 26 as bolted to the studs. There is also a pivot rod passed through both brackets. And more, between the studs 15 and the brackets 26 there is a base plate 24 holding two loading tubes 30 in place. Thus the top plate and the doctor blade installed thereto can pivot. By the loading tubes, the doctor blade is pressed against the surface or lifted up for maintenance. Then there a jaw part 31 also screwed to the top plate 28. The doctor blade 11 is supported by a blade holder 12, which includes a top plate 28 and a jaw part 31. Here the jaw part 31 is a separate piece screwed to the top plate 28. In other words, loading fingers are redundant.

[0014] Advantageously, the body 16 has outer dimensions according to the rail structure 14. Especially, the distance between the shoulder and the flange equals to rail structure (Figures 3a and 3b). This eliminates movements in the vertical direction of the stud. Simultaneously, the diameter of the rotating element equals to the rail structure in vertical direction. Thus the doctor blade holder will stay firmly supported without big gaps and any wiggling.

[0015] Figure 3c disclosed one rail structure 14 according to the invention. Here, the rail structure 14 is of solid metal. The cross section of the rail structure 14 is shown in Figure 2c. This kind of rail structure is also called as T-rail. Advantageously, bronze, or stainless steel is used for strength, durability, and long life.

[0016] As shown in Figures 3c and 4b, the rail structure 14 has an entry area 32 with funnel shape. Sharp edges are thus avoided by bevels and rounded corners. This makes it easier to align the doctor blade holder for installation and prevents rotating piece damage. In Figure 4a only the left side of the rail structure is beveled, which is enough for smooth operation.

[0017] The rail structure has even more new features. First, the rail structure 14 has counter bored slots 33 for back bolts 34. With the back bolts the rail structure is attached the doctor back. One back bolt 34 is shown in Figure 2c with dotted line. These counter bored slots allow misalignment on doctor back bolt pattern. In other words, the rail structure according to the invention can be easily installed to old doctor assemblies even the holes for back bolt are not precisely positioned in cross-machine direction.

[0018] Also the rail structure itself has innovative design. Now the rail structure 14 includes two rail parts 35 and 36 arranged apart from each other. The cross sections of both parts are shown in Figure 2d. With separate parts more back bolts are needed, but the height of the rail structure is much lower than previous. This reduced stresses targeting to the studs. Also, the parts will be attached more firmly to the doctor back. In principle the parts could be identical which would simply the manufacturing. However, advantageously one or both of the parts 35, 36 is installed on a doctor back 13 by form guiding. As shown in Figure 2d, the left side part 35 has a protrusion 37 which bears to the tip 38 of the doctor back 13. The protrusion will keep the part well aligned and straight when the back bolts are installed. Here the doctor back 13 has an accurate machining 39 forming an elevated edge 40 for the second part 36. Like the first part 35, the second part 36 is well aligned and straight when the back bolts 34 are installed. This kind of rail structure suits well in new installations where the doctor back is made for the assembly according to the invention. On the hand, an old doctor back may be machined if the assembly is rebuilt.

[0019] As shown in Figure 3c, the rail structure 14 consists of several consecutive segments 41 with interlocking design therebetween. Segments with one length may be manufactured and then install segments consecutively as many as needed. If necessary, one or more segments are shortened to adjust to the total length. The interlocking design ensures accurate alignment of the segments when assembled. Figure 3d shows one embodiment where on the left is a snick 42 and on the right is a corresponding notch 43. In the two-part rail structure this kind of design is not necessary, since the parts will be aligned by form guiding to the doctor back as explained above. Although, interlocking design may be utilized.

[0020] In principle, there are studs over the length of the doctor blade holder. Thus the doctor blade holder is firmly supported. Advantageously, at one end of the rail structure 14 instead of the studs 15 there is a slide bar 44 equipped with a handle 45 outside the rail structure 14 (Figures 4a and 4b) . First, the slide bar 44 is dimensioned in view of the rail structure. So extra clearances are avoided, and the support remains also at the end of the doctor blade holder. Second, the handle 45 makes it possible to pull out the doctor blade holder by hand or using some pulling device. In Figures 4a and 4b, the slide bar 44 is mounted to the doctor blade 12 holder with two machine screws 20. Here, in addition, there are several holes 46 for attaching one kind of slide bar to any doctor blade holder model. Here the handle 45 is a large hole in the end of the slide bar to allow for connecting heavy duty pull out hardware like shackle or like.

[0021] The slide bar has even more new features. The slide bar 44 has several consecutive holes 47 for a lock down bolt 48. In practice, the lock down bolt prevents the doctor blade holder from moving in the cross-machine direction while in operation. The drilled and tapped holes are on the end of the slide bar before the handle. This construction allows for more cross machine adjustment of the doctor blade holder. Here there are five holes 47 with equal intervals of about 12 mm. So the position of the doctor blade holder can be adjusted precisely in cross-machine direction. For the lock down bolt, there is a threaded hole 49 at the end of the rail structure 14, see Figure 3c. Alternative, corresponding hole would be on the doctor back in the embodiments like in Figures 3b and 4a.

[0022] As shown in Figure 4b, between the rail structure 14 and the slide bar 44 there is a transfer equipment 50. This transfer equipment is integrated into the slide bar and rail structure to facilitate initial sliding movement and fine tuning of the cross-machine position to insert the lock down bolt. Here, a fork 51 is bolted to the rail structure 14. Then there is a threaded block 52 bolted to the slide bar 44. Between the fork 51 and the threaded block 52 is an adjustment screw 53 equipped with a lock nut 54. When uninstalling the doctor blade holder, the lock nut is first released and then the adjustment screw 53 is rotated to move the doctor blade holder out. The transfer equipment pulls out even if the studs are jammed to the rail structure. When the doctor blade holder moves a little bit, it will be easy to pull out using the handle. Also, the transfer equipment can be used to adjust the doctor blade holder during the installation. The adjustment screw as well the lock nut may be rotated with standard tools. Also, the transfer equipment can be installed on the other side of the rail structure.

[0023] The doctor blade 11 as well as the doctor assembly has a length of several meters, from 1 to 11 meter extending in cross-machine direction. The doctor blade has a width from 5 to 20 centimeters extending in machine direction.

[0024] The stud according to the invention is simple but robust. With aid of other surprising features of the doctor blade holder, the installation and maintenance of the doctor blade holder assembly is easy and quick. At the same time, the doctor blade holder assembly is low in structure and is vibration-free. Also it is easy the maintain the doctor blade holder assembly, and it will suit for new installation and to retrofits.

Claims

1. Stud for a doctor blade holder in a fiber web machine, the stud (15) having a body (16) with a flange (17),
characterized in that the body (16) is a single piece having a form for a standard tool.

2. Stud according to claim 1, characterized in that the form includes two opposite flats (18) arranged in the flange (17) .

3. Stud according to claim 1 or 2, characterized in that there is a rotating piece (21) arranged around the body (16) made of bronze.

4. Stud according to any of claims 1 - 3, characterized in that the body (16) has a circumferential shoulder (22) at an end (23) opposite to the flange (17).

5. Doctor blade holder assembly for a fiber web machine, the assembly has a blade holder (12) arranged movable to a rail structure (14) with a plurality of consecutive studs (15) having a body (16) with a flange (17), characterized in that the majority of the studs are studs according to any of claims 1 - 4.

6. Assembly according to claim 5, characterized in that the body (16) has outer dimensions according to the rail structure (14).

7. Assembly according to claim 5 or 6, characterized in that the rail structure (14) is of solid metal namely bronze or stainless steel.

8. Assembly according to any of claims 5 - 7, characterized in that the rail structure (14) has an entry area (32) with funnel shape.

9. Assembly according to any of claims 5 - 8, characterized in that the rail structure (14) has counter bored slots (33) for back bolts (34).

10. Assembly according to any of claims 5 - 9, characterized in that the rail structure (14) includes two rail parts (35, 36) arranged apart from each other.

11. Assembly according to claim 10, characterized in that one or both of the parts (35, 36) is installed on a doctor back (13) by form guiding.

12. Assembly according to any of claims 5 - 11, characterized in that the rail structure (14) consists of several consecutive segments (41) with interlocking design therebetween.

13. Assembly according to any of claims 5 - 12, characterized in that at one end of the rail structure (14) instead of the studs (15) there is a slide bar (44) equipped with a handle (45) outside the rail structure (14).

14. Assembly according to claim 13, characterized in that the slide bar (44) has several consecutive holes (47) for a lock down bolt (48).

15. Assembly according to claim 13 or 14, characterized in that between the rail structure (14) and the slide bar (44) there is a transfer equipment (50).

Drawing