FI98506B - Pope-type reel up or the equivalent for paper web - Google Patents

Description

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The invention relates to a paper web pope roll or the like, comprising a head and an ironing insert comprising a perforated jacket attached to said ends, the diaper and the ends enclosing the jacket and the ends. to which a vacuum is arranged to create a vacuum in the perforation of the jacket to prevent slippage between the jacket and the paper web, and which the winding cylinder the winder comprises secondary forks or the like, in connection with which the above-mentioned winding axle and the roller already grown to it in connection with the winding cylinder are sequenced to be moved after the initial stages of winding, and whose secondary forks In connection with 15, the winding is largely traced to be performed and from which secondary forks the roll is adapted to be removed when it is completed.

The Pope reel is commonly used e.g. for winding paper web from paper machine, coating machine, supercalender and printing machine. The web is wound on the shaft, 20 and the resulting roll is pressed against a pope or winding cylinder over which the web passes in a certain sector and which is rotated at a circumferential speed corresponding to the speed of the web. Before. : * · When the roll is completed, the new shaft can be brought into nip contact with the pope cylinder · so that it also has a corresponding circumferential speed. As soon as the roll of paper has reached the desired diameter, it is moved away from the pope cylinder. Then its rotational speed ··· v; 25 begins to decelerate, causing a web loop to form between the new roll shaft and the finished roll. This loop is controlled, for example, by a jet of compressed air to rotate * · **: .ί: around the new roller shaft! u - e detach from the finished roll.

··· • · · »· ·« ·· *: As is well known, in the wrapping phase, the axis of the paper roll rests and rotates, usually on two ·· * 30 support rails. For this purpose, its ends have special bearing parts which also j: *: guide the passage of the roller when, when completed, it is moved along said rails *: **: for further processing. In papermaking, this further processing is usually longitudinal cutting,

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2 where the roll is cut and disassembled into a roll. A crane, for example, can be used to return and replace empty roller shafts.

When certain types of paper, e.g. LWC and SC, are rolled, the slippage of the paper to be rolled on the surface of the winding cylinder has been a problem, especially at higher S speeds. This slip problem occurs especially in the circumferentially driven winders described above, where the growing new paper roll receives the power required for rotation from the circumference of the driven winding cylinder to its own circumference by means of frictional force between the paper and the surface of the winding cylinder. When said frictional force is less than a certain limit value, a slip occurs between the surface of the winding cylinder 10 and the paper to be rolled, which in turn leads to uncontrolled variations in tension and hardness in the roll of paper being made.

These variations in tension and hardness cause wrinkles in the rolls, especially in their inner layers, so that the bottom of the rolls becomes waste paper. This in turn causes significant financial losses to the paper mill.

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The sliding of the paper against the surface of the winding cylinder described above depends on the tension of the paper in the region of the winding cylinder and the resulting surface pressure against the surface of the winding cylinder. Another factor affecting slip is the line pressure that • '·· the primary and secondary winding forks cause a rolling cylinder ··· for the growing paper roll; 20 against. In addition, the formation of slippage is influenced by the surface properties of the paper to be rolled and the rolling cylinder, i.e. the coefficient of friction between said surfaces, which is also affected by: the moisture content of the paper.

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Increasing the tension of the paper reduces said slip tendency, since then the surface pressure of the paper 25 against the winding cylinder increases and the frictional force increases. However, the tensile strength of the paper 9 '9 · sets the upper limit for the increase in tension through increased breaks. Emerging • j · *. keeping the line pressure between the roller and the winding cylinder sufficiently high and constant · * · * · ί · 'is made difficult by the fact that winding is started in the primary forks in its upper position and' ·; · * is continued at a later stage in the secondary forks. The primary forks bring the roller; 30 in downwardly inclined contact with the surface of the winding cylinder, whereby the roller begins to receive its rotational power from the circumference of the winding cylinder. As the roller increases and the primary forks 3 .. ';.: 98506 gradually descend to their lower position, the line pressure between the roller and the winding cylinder decreases quite steadily and sharply due to a decrease in the force component due to gravity as the position of the increasing roller changes to the winding cylinder.

5 The most difficult part of controlling said line pressure is the step of moving the growing roller from the primary forks to the secondary forks. In practice, there are significant variations in the line pressure, which in turn makes it possible for the paper to slip momentarily on the surface of the winding cylinder. This results in the occasional wrinkling of the paper described above at the beginning of the winding.

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The transfer of the roll from the primary forks to the secondary forks can also cause tension fluctuations in the paper, which due to varying surface pressure can cause slippage and wrinkling of the paper.

IS A previously known way to avoid the slip problem described above and its consequences is to set the paper tension as high as possible by adjusting the speed difference between the winding cylinder and the nearest drive before it. As stated, the limiting factor in this case is an increase in the susceptibility of the web to breakage and a deterioration in the quality properties of the paper, because, for example, the tensile strength and elongation are then reduced.

: T: 20 • :: As is known, another way is to maximize the line pressure between the growing roller and the winding cylinder by using an excessive load force on the support forks, * * especially in the secondary forks, to press the roller against the winding cylinder # · * · * · * *. A disadvantage of this procedure is the deterioration of the quality properties of the paper, since, in particular, the tensile strength and elongation are reduced, as is the case with the previous method.

In addition, with regard to the state of the art related to the invention, reference is made to DE patent 502 391, SE patent 102 927 and U.S. patents 2,753,181, 4,207,998 and 4,277,010, as well as 30 to 74,446 patents.

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From the above-mentioned publications, the solution according to the invention is probably FI patent 74 446. This publication describes a paper web pope winder or the like comprising a winding cylinder which is mounted at both ends on the winder frame structures and in which the winder has primary forks with empty winding fork and tetris forks, in connection with which the above-mentioned winding shaft and the roller already grown on it in connection with the winding cylinder are moved after the initial stages of winding and in which the winding is largely performed and the roller is removed when it is completed. As a winding cylinder, said pope winder uses a winding winding cylinder comprising a torn jacket and a suction box traced inside the winding winding cylinder, the suction zone of which is adapted mainly to the sector between the inlet nip and the outlet nip of the growing roll. The solution according to this publication achieves a very good result in rolling, but the disadvantage of the solution is that the used rolling cylinder with its suction boxes, edge seals and the like inside it is very expensive.

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The object of the present invention is to solve the problems related to the prior art in a simple and practical manner and in a practical manner. It is a further object to provide a device for winding a paper web which has at least the same reliability and · ** .. efficiency as the above-mentioned FI patent 74,446, but which is substantially simpler in construction and more expensive to manufacture. cheaper.

In order to achieve these and later objects, the invention is mainly characterized by the fact that grooves are formed in the surface of the casing of the winding cylinder and that said perforation through the casing is formed at the bottom of these grooves.

Of the advantages obtained by the solution according to the invention, it can be pointed out in this connection that the advantages obtained with respect to the other state of the art are the same as those obtained with FI- * ·. · * In 74 446 and that the most significant advantages of the invention over this publication are the simplicity of the structure as well as the lower cost.

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The invention will now be described in detail with reference to an embodiment of the invention shown in the figures of the accompanying drawing, to which the invention is not limited.

S Figure 1 shows a schematic side view of a pope reel in which the method and ice arrangement according to the invention are applied.

Figure 2 shows the winding cylinder in a partially lacquered view as seen from one end thereof.

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Fig. 3 shows the winding cylinder of Fig. 2 in a partially sectioned view from the direction A indicated in Fig. 2.

Fig. 4 shows a partial sectional view of a preferred embodiment of the winding cylinder shell 13 according to Fig. 3.

The main part of the pope winder schematically shown in Fig. 1 is formed by a winding cylinder 10, around the circumference of which the paper web W rotates a little over a quarter turn (angle α) before moving to the circumference of the paper roll formed around the roll shaft 11. : T: 20 The shaft H rests and rotates on two support rails 12, and the secondary forks 13: · press it against the winding cylinder 10. The secondary forks 13 also move the paper roll: R away from the winding cylinder 10 when the desired diameter R of the roll R has been reached.

• MM • · 0 * 0 V: The finished rolls of paper R are transported along support rails 12 for further processing, from which the empty roll shafts 25 are returned, e.g. to storage rails mounted above the support rails 12 (not shown).

: Ts ♦ ·· ·: V The changeover device of the roller shafts 11 is formed by guides 14 projecting from the side of the winding cylinder 10 ··· * ... s, which are rotatably mounted at their lower ends, and in each case j j '; 30 of these guides 14 are up-and-down moving guideways, in which the roller shaft 1Γ can be closed in the gap between the lower jaw piece 15 and *: **: the upper jaw piece 16: r "" '; .................., _. , „„ ______ 98506 for 6. Parts 14, 15 and 16 form the so-called the primary carriers. The movement of the jaw pieces is thus tracked so that the hydraulic cylinder 17 moves the lower jaw piece 15, which is connected to the upper jaw piece 16 via the hydraulic cylinder 18. The hydraulic cylinder 18 can thus only be used to open or close the jaw between the jaw pieces 15,16.

When replacing the roller shaft 10, the lower jaw pieces 15 are raised flush with the ends of the auxiliary rails (not shown) and the upper jaw pieces 16 are raised to their upper position 16 '. At the same time, the guides 14 are rotated by a power device, not shown in the drawings, in such a position that there is no gap between the lower jaw piece 15 and the end of the auxiliary rail. The roller shaft is allowed to roll into the jaws of the jaw pieces, which are closed by lowering the upper jaw pieces 16 '. The lower jaw piece 15 is lowered so that the circumference of the winding shaft 1 jout is close to the circumference of the winding cylinder 10, after which the guides 14 are rotated in the direction of rotation of the winding cylinder 10, whereby the eccentric bearing of the guides 14 further reduces the distance between the winding cylinder 10 * and the winding cylinder 10 on the paper web W running on it and reaches a circumferential speed corresponding to this speed. The transfer of the web W to the new shaft can now be performed as previously described and the new roller shaft to be lowered onto the support rails in place of the previous one.

ιΎι 20 «• · The structure and operation of the winding cylinder discussed above are known per se and this · description is intended to facilitate an understanding of the invention and its background.

It should be emphasized that the present invention can be applied to very different winders, the structure and operation of which differ substantially from that shown above in connection with Figure 1. An example of a separate construction and operation of the invention itself will be described in more detail below.

»T; t ·· ·. · ·; Figures 2, 3 and 4 show some preferred structural examples of a winding cylinder 10 according to the invention. The winding cylinder 10 is a suction cylinder with a casing 20 with a perforation 21 i: ': 30. The casing 20 of the winding cylinder 10 is suitably attached *: **: to end pieces 22a and 22b. At the other end of the winding cylinder 10 there is a drive shaft 18 98506 thereof, which is non-rotatably attached to the end piece 22a. At the end of said drive shaft 18, a winding cylinder 10 is mounted on the machine frame structures by a bearing 19a. A central through hole 25 is formed in the end piece 22b of the opposite end of the winding cylinder 10, and a vacuum connection 26 is connected to said end piece 22b 5, to the flange 27 of which a pipe (not shown) leading to a suction pump is attached. At its end on the side of the vacuum connection 26, the winding cylinder 10 is mounted on the machine frame by a bearing 19b. As has already been shown from the previous description, the winding cylinder 10 according to the invention is very simple in construction, comprising only the jacket 20 provided with the application 21 and the end pieces 22a and 22b 10 constructed as described above. The winding cylinder 10 is thus completely hollow, and not even any inner shaft or the like is required inside the cylinder. In contrast to the above-referenced FI patent 74 446, there are also no mate structures or other solutions required inside the winding cylinder 10, so that the structure of the cylinder 10 is substantially simpler than that of the referenced publication. As also explained above, the valve 10 is provided with a vacuum connection 26 connected to a suction pump (not shown). The arrangement according to the invention prevents slipping between the paper web W and the outer jacket of the winding cylinder 13 by causing a vacuum in the interior of the winding cylinder 10, by sucking air from inside the jacket via a vacuum connection 26. A pressure drop is then formed in the perforation 21 of the jacket 20, whereby a vacuum is created inside the roller cylinder. At the paper path, the air flow from the reV is lower and the pressure drop is lower, so that at this point the suction effect • · • ** is applied to the paper path.

Fig. 4 shows a partial section of a preferred embodiment of the jacket 20 of the winding cylinder 10. In the foregoing description, it has been found only that the sheath 20 is provided with a through routing 21 throughout. In the embodiment of Fig. 4, grooves 24 are formed on the surface of the sheath 20 and said holes 24 pass through the sheath 20. 21 is formed in the embodiment of Fig. 4 by grooves 24 • · ·. ·: *! on the bottom. This solution makes it possible to create a better vacuum on the jacket :: V 30 20.

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The invention has been described above by way of example with reference to the exemplary embodiments shown in the figures of the accompanying drawing. However, the invention is not limited to the examples shown in the figures, but the various embodiments of the invention may vary within the scope of the inventive idea defined in the appended claims.

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Claims (2)

9 98506 1. A paper web reel or the like comprising a ends (22a, 22b) and a winding cylinder 5 (10) comprising a perforated (21) jacket (20) attached to said ends, the jacket (20) and the ends (20) 22a, 22b) enclose an empty interior in which a vacuum is traced to form a vacuum in the perforation (21) of the jacket (20) to prevent slippage between the jacket (20) and the paper web (W) and which has a winding cylinder (10) at both ends (22a). , 22b) bearing bearings (19a, 19b) to the frame structures of the winder and the winder having primary forks (14, 15, 16) with which an empty winding shaft (1Γ) is brought into contact with the winding cylinder (10), preferably above it and which winder includes secondary forks (13) ) or the like, in connection with which the above-mentioned winding shaft (11 ') and the roller already grown on it in connection with the winding cylinder (10) are sequenced to be moved after the initial stages of winding j a in connection with the secondary forks (13) of which the winding is largely sequenced to be performed and from which the secondary forks (13) the roller (R) is adapted to be removed when completed, grooves (24) are formed in the surface of the winding cylinder (10) ) and that said perforation (21) passing through the sheath (20) is formed in the bottom of these grooves (24). Reel according to claim 1, characterized in that said grooves (24) 20 are arranged to run around the circumference of the jacket (20). • '' m · • »· • · · · · · · · M · '· · · · · · · · · · . • · · '. • · · ··· *. ··· ···. • »· ·· · •» · • · ♦ · • · '· · ··· ··. ···· - ··· · 9 · * 4 ·. · - ..... 10 98506 Paten tkrav A poppy roller or a ring for a paperback, comprising a ring (22a, 22b) and a roller cylinder (10), a ring and a sleeve (20) having a perforated ring (21) and fastening the ring ( 22a, 22b), colors in pines (20) and in (22a, 22b) inserts and tomters are used, colors in underturned anordnats with pictures and perforations (21) in pins (20) with a handle in the case of underpants account for use in the manufacture and operation of the piston (20) and the paperclip (W), and with the roller cylinder (10) and the bearing with the bearing (19a, 19b) 10 and with the aid of the bearings (22a, 22b) in the field of operation rullstolen plane and which rullstol har primärgafflar (14,15,16) with which one is torn rullningsaxel (1Γ) is inserted into the i communicates with the rullningscylindem (10), positioned above and preferably between denna, Science account vilken rullstol hör sekundärgafflar (13) or the like, i communicates with the above-mentioned Vilka rullningsaxel (1Γ) och en ru the red rollers of the rollers 15 and the rollers (10) are rolled out of the rollers and the rollers of the rolls (13) rolls of the rolls (13) after which the headforms, the headforms of the headforms (20) are formed, (20) and the headings perforated (21), of which the genome is formed by 20 headings (20), the headforms are formed (24) . : "2. Rolling stock according to claim 1, spaced apart from the sphere (24) ··· 'anordnade att löpa kring omkretsen av mäntein (20). • m ··· • · • · ·: .j: 25 # · ··· .... ··· • · · • · · · · • · · · * ··· · .... ··· • · * ..... ♦ · 9 e «• · ··· # ·. ·. · ··· • »· ···· .. • · · • ·· · ····· ... • · ........ - *. * ·. · V ·.: · --J_; .. J · - · = ·> ___ ..... V '· - - »· -