FI82500B - PRESS SPRING WITH PRESS SHEET I EN PAPER MACHINERY. - Google Patents

Description

The invention relates to a press section of a paper machine with two separate presses and, respectively, two press nips, which nips are formed between two press rolls, of which at least one of the rollers is preferably provided with a pin. and wherein in the press section the paper web is guided as a closed export through said press nips from the pick-up point or the like to the transfer section of the paper machine and in the press section a substantially non-water-receiving transfer belt / or from the press nip to the drying section of the paper machine, the surface characteristics of the transfer belt 15 of which are such that the web follows the transfer belt in a nip in which the second fabric is a dewatering press felt, or other tissue receiving water from the web.

Dewatering by evaporation from a paper web is very energy intensive and therefore expensive and uneconomical. Therefore, the aim is to remove as much water from the web as possible before the drying section by mechanical means. The final step in this event is the press section, where water is removed from the web by pressing it between the rollers. In this case, it is known that the water is removed considerably when the thermal state of the bead is raised, because the viscosity of the water and the compressive modulus of the web are thus reduced at the same time as the surface tension. In this way, considerable increases in the dry matter content of the web after the press section have been achieved and thus savings in the use of drying energy have been achieved.

30 The most common way previously known to remove water from fibrous webs, especially paper and board webs, is to pass the web through two nip formed by opposing rolls. As is known, dewatering nipples use one or two compression fabrics which convey the water discharged from the web and act as a web-conveying member.

As the production speeds of paper machines increase, dewatering by means of final pressure has become a bottleneck limiting the increase in the speed of machines. This is because the press nips formed by the pair of rollers are short in the machine direction, so that at high speeds the residence time of the web in these press nips remains short. However, especially due to the flow resistance of the fibrous structure of the web, water needs a certain minimum time to leave the web on the hollow surface of the roll and / or the spray fabric.

As is already known, several successive different inserts formed by two rolls have been used in the press parts. straight clamps or so-called compact presses. However, twin roll presses require a relatively large space, especially if there are multiple consecutive nips. The compact design of the press parts, on the other hand, causes difficulties in the optimal placement of the various components and in terms of use, e.g. in draining the paper wreck.

15 Two-roll presses commonly use air rolls, which are relatively expensive components and consume a lot of heat energy. Suction rollers must use a perforated jacket with mechanical resistance to the problem.

20 If two-roll presses attempt to increase the dewatering capacity by increasing the nip load, a certain line pressure is reached at the limit where the nip pressure can no longer be increased due to the limited duration of the paper web and / or press fabrics.

25 Due to the problems presented above and for other reasons, the so-called long nip presses using two opposing stationary shoes or an equivalent roll-shoe combination.

It is also known to use presses formed by a pair of rollers, the nip area of which has been extended with flexible coatings of the rolls, which are e.g. rubber. The structure of such a press is simple, but it can be very long even with large rollers and reasonable coating collapses. The disadvantage is the heating of the coating, its rapid wear or peeling, and the difficulties associated with renewing the pin-35 weft.

It is known that various fabrics and roll coatings soften and extend the nip formed by the pair of rollers of the wet press and thus affect the pressure on the nipple in the nipple and its duration. However, due to the relative hardness and low thickness of the most common fabrics, the effect is quite small and, above all, the nip length and thus the pressing pressure and time cannot be controlled within a sufficiently wide range.

In the well-known so-called shoe solutions in which the second roll of a pair of nip-forming rollers is replaced by a fixed device 10 pressed against the surface of the roll can in principle adjust the pressure in the groove between the shoe and the roll and its duration on the web by selecting compression shoes of different lengths. In practice, however, such a solution is quite difficult to implement. The structures easily become expensive and the required operating efficiencies become high.

15 In addition, the durability of the conveyor belt applied to the nip between the shoe and the roll, on the one hand, and the reduction of friction between the conveyor belt and the shoe, on the other, and the lubricants used, cause problems which are difficult to solve.

In connection with the present invention, reference is made to Applicant's F1 Patent Application No. 203895 (filed October 3, 1984). Em. The patent application discloses a method for pressing a fibrous web using a press nip formed between two press rolls, through which a press-drying web is passed supported by a fabric or water-receiving belt or between a fabric and / or a water-receiving belt and through which a plurality of elastic presses are passed. . Em. In the method of the FI patent application, it is considered new that the maximum compression pressure applied in the method is chosen between an upper limit and a lower limit, which upper limit is less than 130 bar and less than a certain function pn (L), which 2max 30 is a decreasing function with increasing nip length L determined by the maximum available compression pulse, which lower limit is greater than 50 bar, and that the diameters of said press rolls are selected as such and that a flexible belt is used as said press belt, the thickness, structure and viscoelastic properties of the material being selected so as to in the region of maximum compression pressure, the length range of the extended nip bounded between the rollers is such that the upper limit L2 and the lower limit L1 are as follows: <200 mm and> 30 mm.

The object of the present invention is to apply and further develop the insights presented in the above-mentioned FI patent application 843895, e.g. to achieve the following clear objectives.

The object of the invention is to provide a press part which preferably has at least two press nips, the rollers of which are interchangeable with each other.

An important object of the invention is to provide a completely closed export of the web from the forming wire to the drying fabric, i.e. firstly from the pick-up fabric to the first nip, secondly from the first nip to the second nip and thirdly from the second or later nips to the paper machine drying fabric. Closed exports reduce breaks in the web, especially thin grades, and the resulting downtime.

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It is a further object of the invention to provide a press section in which the quality properties of the paper can be effectively influenced by the choice of strips and mats belonging to the press section, which strips and mats are also wear parts and easily replaceable.

20. . It is a further object of the invention to provide a press section which is low in construction and which has sufficient space between the press nips so that sufficient space is left for the various devices also for their use and maintenance and for the removal of wrecks. Thus, the structure of the invention is intended to fit well e.g. for re-assembly of press parts.

It is also a further object to provide a press section which achieves an even higher dry matter content or in which alternatively lower quality pulps can be used.

It is an object of the invention to provide a press section which does not necessarily require press rolls having e.g. known disadvantages discussed above.

It is also an object to provide a press section in which a relatively symmetrical dewatering and thus a symmetrical structure of the web can be realized.

35 n 5 82500 1 In order to achieve the above and later objects, the invention is mainly characterized in that in addition to the press fabrics a nip-extending elastic belt is introduced into each press nip, that a closed export of the paper web between the first and second nip 5 is provided by the lower nip fabric or by transferring the web from said lower or upper fabric as a suction device transfer to a transfer belt or press fabric passing through the second nip in the transfer nip, and passing through said second nip a transfer belt or fabric adapted to take 10 of the web from the second nip closed for export or the like, to which the web is transferred at the transfer point by the suction zone of the suction device arranged inside the loop of the drying wire.

One of the starting points of the present invention has been the insights presented in the above-mentioned FI application 843895, according to which an optimum shape for the drying pressure function p * p (t) of each nip or nips can be realized by means of an elastic compression mat by applying in addition to the associated fabrics 20 and web, an "additional" suitably selected and sized resilient belt or more belts, the hardness, thickness, elongation, stiffness of which are varied as desired, and on the other hand suitable roll diameters are selected. This makes it possible to change the length of the nip in the direction of travel of the machine and to compensate for the unevenness in the dry matter content of the web 25 by means of the flexibility of the belt. The present ideas combine in a new way with the above ideas the advantageous use of several nips as well as the closed export of the web from the forming part to the drying part and the control of the symmetry of the dewatering.

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

; ; Figure 1 shows a schematic side view of a first two-nip embodiment of the invention.

Fig. 2 shows a second two-nip embodiment of the invention.

Figure 3 shows an embodiment of a three-nipple embodiment of the invention.

Figure 4 shows the compression pressure distributions of an elongated elastic band nip according to the invention.

Fig. 5 shows a cross-section of a nip suitable for use in the invention using an elastic band, and Fig. 5 is at the same time a section V-V in Fig. 3.

According to Figures 1, 2 and 3, a web W is formed on a wire 10, which is either a flat wire or another wire of a two-wire forming section. In the run-down between the wire 10, the wire suction roll 11, and the wire pull roll 12, the web VJ is transferred on a release line in the suction zone 29a of the pick-up roll 29 to the first upper fabric 20; 21; 22 which is either a transfer fabric or a regular pick-up felt. The fabric 20; 21; 22 introduces the web W on its lower surface into a first press nip N 1 formed between two press rolls 24 and 25. The nip is provided with two press fabrics 20, namely said upper fabric 20; 21; 22 and a first lower fabric 40; 41; 42, which is a water-receiving press fabric, e.g. an ordinary press felt.

According to Figures 1 and 2, a special elastic strap 100 is passed through the first nip, which provides an extension of the first nip, e.g. as shown in Figure 4, so that a much higher compression pulse can be used in this nip compared to sharp roll nips. The elastic belt 100, the structure of which will be described in more detail later, extends around an upper press roll 25 with a smooth surface 24 'guided by guide rollers 121 and a tension roller 122 so that the inner surface of the elastic belt 100 is directly against the surface 24' of the press roll 24.

According to Figure 1, a conventional press felt 40 is passed through the first nip as a lower fabric 35. The guide rollers of the felt 40 are indicated by reference numerals 43 and the restoring devices by 46. After the nip a suction device 28 is arranged to suck the lower felt 40 against the inner felt 40 and thus, it is ensured that the web W follows the lower felt 40, by which it is introduced as a closed export to the transfer nip N 1. Said transfer nip Nq is formed in connection with the suction zone 37a of the transfer suction roll 37. In the transfer nip Nq, the web passes to an overhead press felt 5 passing through the second nip.

According to Figure 2, the web W is adapted after the nip to follow the upper felt 21, which can also be an ordinary pick-up felt. If a transfer felt 21 is used, it must be quite permeable, because the pick-up roll 29 10 must suck the paper web W from the wire 10. As shown in Fig. 2, the web W

is transferred by the upper felt 21 to the transfer nip Nq formed in connection with the suction zone 57a of the suction roll 57 arranged inside the transfer felt 51 below the second nip. In the transfer nip Nq, the web W moves from the upper felt 21 to the lower felt 51 as a fully closed export.

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According to Figures 1, 2 and 3, after the first nip, the web W has a second separate nip formed between two press rollers 34 and 35 provided with a drive 39. In Figures 1 and 2 the upper rollers 34 are shown provided with a hollow surface 34 * and in Figure 3 both rollers 34, 35 are hollow-surfaced 34 'and 35', but the roll 35 may also have a smooth surface.

: As shown in Figure 3, the press member includes, as a first and a second nip, and two conventional short and sharp press nips, through which a regular press felt 22 passes as the upper fabric. The press rolls 24 and 25 of the first nip are provided with a hollow surface 24 '; 25' and a drive 29. The lower fabric of the first nip is a conventional press felt 42. The lower fabric of the second nip is a transfer felt or transfer belt 52, which may be completely impermeable. The surface characteristics of the outer surface 30 of the transfer belt 52 are selected so that the web W follows the transfer belt 52 just after the nip, in which support the web W is introduced as a closed export to a third press nip N 1, which is a substantially dewatering extended nip. A nip is formed between two press rollers 54 and 55 provided with a drive 59, of which the upper roll is provided with a smooth surface 54 'and the lower roll 55 has a smooth surface 55'. According to Figure 3, the third nip is an elongated nip, for which purpose a flexible belt 100 is arranged to pass through it, which is guided by the guide rollers 121 and the guide roller 123.

β 82500 1 As shown in Figure 3, after the nip extended by the elastic belt 100, the web W is further adapted to follow the transfer belt 52 based on its surface properties. With the transfer belt 52, the web W is transferred as a closed export to the drying section of the paper machine as described in more detail below. The upper fabric of the nip N 1 is a conventional press felt 32, which is guided by guide rollers 33 and in connection with which rehabilitation devices 36 are known.

As shown in Figures 1, 2 and 3, the transfer fabric 50; 51; 52 takes the web W nip 10 N2 '^ 3 after the transfer suction roll 62, over the suction zone 62a of which the drying wire 60 of the paper machine dryer section is passed. In line P2, the web W is transferred from the transfer fabric 50; 52 for the drying wire 60, on the surface of which the web W is adhered and guided by the first drying cylinder 63 or so-called drying section of the drying section. baby cylinder in more than 15 suitable sectors. The web W continues to run supported by the drying wire 60, the so-called as a single tissue export at least at the beginning of the drying section.

According to Figures 1, 2 and 3, between the first and second nips, steam boxes 70 and 71 are arranged to act against the web W, to which 20 steam to be fed is illustrated by an arrow S. In Figure 3, respectively, between the second and third ηίρ * · η there is a steam box 71. The purpose of the steam boxes 70 and 71 is to provide a web W with a higher dry matter content, which is achieved by removing more water in the 25 nips following the steam boxes 70,71, which is achieved by a decrease in water viscosity and a decrease in compression coefficient of elasticity. , both of which are based on a higher compression temperature.

As described above, a completely closed export between lines P1 and P2 is provided, which means that the web W is always supported by the surface of either the press fabric or the special transfer fabric 50; 52, and there are no unsupported open gaps in the web W. This substantially contributes to the operational reliability of the press section by reducing the risk of breakage.

Il 9 82500 1 In the press section according to Figures 1, 2 and 3, dewatering takes place in the first nip in both directions (arrows V), i.e. through both surfaces of the web W. This promotes the symmetry of the web W. According to Figure 1, in the second nip, the dewatering takes place mainly upwards (arrows V), because the transfer tissue 50 is not substantially water-receiving. According to Fig. 2, dewatering in the second nip takes place mainly upwards and somewhat downwards, since the upper fabric 31 is a conventional water-receiving press felt and the lower fabric 51 is a transfer felt or belt, the penetration of which must be relatively large, because the transfer nip Nq uses suction roll transfer.

In Fig. 3, the dewatering in the second and third nips takes place upwards (arrow V), because in these nips the lower fabric is a transfer belt 52 which is not substantially water-receiving. The choice of dewatering directions 15 described above has the practical advantage of providing a web W with a rather symmetrical distribution of fines and fillers.

An essential feature of the invention is the use of the above-described non-water-receiving or only relatively low-water-receiving transfer belts 50,51,52, which further transfer the web W as a closed export to the warping part. According to Figs. The unreceived structure generally, but not necessarily, means that the transfer belt 50,52 is relatively impermeable. As stated, the transfer belt 51 must be relatively permeable due to the suction roll displacement (57,57a). The transfer belt 50; 52 is, for example, a fabric obtained by impregnating a conventional press felt with a suitable plastic material.

With regard to the details of the various embodiments of the invention shown in Figures 1, 2 and 3 and their applicability to the various products to be manufactured, the following can be shown. According to Figures 1 and 2, two press nips 100 elongated with an elastic belt and ^ are used. In general, two press nips can be handled and provide a sufficiently high dry matter content for the web W. Alternatively, according to Figure 3, two conventional sharp and short press nips and a third extended nip N 1 are used, in which a sufficient dry matter content is obtained for the web W.

5 The use of several nips also gives sufficient variation in the dewatering directions, as described above.

From the embodiments according to Figures 1 and 2, it can be stated that they are suitable for almost all types of paper, but especially well for thinner types of paper, for which the closed export of the web W is important. An example is sack paper where it is necessary to avoid stretching. Using nips and elastic straps 100, long nips and large compression pulses can be realized.

In the presses of Figures 1 and 2, the elastic belt of the first nip is preferably substantially softer than the elastic belt 100 of the second nip, so that a lower load, i.e. a lower maximum compression pressure P, can be applied to the first nip, which is flow-restricted, than the second nip. · The softer first 20 elastic straps 100 achieve greater nip elongation. When a softer first elastic belt 100 is used, a large total impulse can already be applied in the first nip without exceeding the web curl limit. The second nip typically uses, for example, newsprint with a harder elastic strap and a higher maximum compression pressure. However, the second nip Nj may be shorter than the first nip N1.

In the embodiment of Figure 3, the first elastic belt nip is replaced by two common short and sharp roller nips. The solution in Figure 3 is suitable for all grades, especially for high-speed newsprint and sack paper machines due to closed exports.

Several different variations of the solutions according to Figures 1, 2 and 3 can be used within the scope of the invention. Possible are e.g. variations 35 of Figures 1 and 2 in which the elastic strap 100 is not used in the first nip Nj. Such a variation is also possible, but not generally preferred, in which the elastic strap 100 is used in the first nip N1 but not in the second nip N2. A kind of inverted version of Figures 1 and 2 can be implemented in which the transfer felt or belt 50,51 of the second nip is above, the elastic belt 100 of the second nip being around the upper roll 34, i.e. above.

5

The embodiment according to Fig. 3 can also be varied in which the elastic straps 100 are also used in the second nip or even in the first and second nips, the elastic straps 100 being in all the nips. The press section 10 according to Fig. 3 can be made an inverted version 10 so that the transfer belt 52 passing through the second and third nips and is positioned above, whereby the elastic belt 100 is also positioned above, i.e. around the upper press roll 54.

Figure 4 shows some of the compression pressure curves P = P (L) of the long nip used in the invention obtained by the applicant's test machine. The pressure curves shown in Figure 3 have been obtained on an applicant's test paper machine with the press section of Figure 3 by measuring the pressure curves of the extended nip with pressure sensors and an oscilloscope 20 connected to the press rolls and synchronized to rotate the press rolls 54 and 55.

Figure 4 shows the compression pressure curves A, B, C, D and F obtained. , with different line loads (kN / m). Fig. 4 is a table showing, in addition to the line load, the dry matter content in Z realized by means of the press 25 according to Fig. 3. In Fig. 4, the measurement result C V (150 kN / m, KA = 45.4%) is the reference value obtained when the press according to Fig. 3 was without the elastic strap 100. In this case, the nip was sharp and its length is marked with L.

V / 30 The pressure distribution curves shown in Fig. 4 are obtained with an elastic belt 100 having an uncompressed thickness of 10 mm and a web-side surface hardness of about 18 P & J. This elastic belt 100 was made of polyurethane and provided with a reinforcing fabric. The test results have been obtained with a press according to Fig. 3, in which the diameters of the rollers 54, 35 and 55 were 1300 mm. The upper roll 54 had a steel groove surface. The lower roll 55 was a smooth steel roll. The test results of Fig. 4 are i2 82500 1 obtained at a web speed of 15 m / s when the web to be driven was newsprint 2 with a basis weight of 48 g / m.

Comparing the measurement results C and B in Fig. 4 with a substantially equal maximum compression pressure P, it can be seen that according to the invention rr max a substantial improvement in dry matter content has been obtained using the elastic belt 100 because the dry matter content has increased from 45.4 Z 48, 9 Z: in. Based on the measurement result A, in which a fully usable maximum compression pressure = 102 bar has been used, a dry matter content of the web W as high as 50.0% has been realized with a nip width of LA = 100 mm.

In Fig. 4, the center line of the nip is marked with a vertical line K-K. Examining the measurement results C, D and E, it can be seen that the elastic belt 100 15 influences the shape of the pressure distribution above all, so that the elastic belt 100 widens the sharp compression pressure curve C from its upper part and lowers the maximum compression pressure P

In the curves of Figure 4, the area below them represents the compression pulse acting on the nip.

Figure 5 shows a cross-section V-V in Figure 3, i.e. a cross-section of the extended nip according to Figure 3. Figure 5 is drawn substantially on a scale to show the thickness ratios of the various belts and fabrics as well as the web. The thickness H of the elastic strap 100 is generally in the range of 5-25 mm, preferably about 8-15 mm. For details of the structures of the elastic strap 100, reference is made to the applicant's F1 patent application 850087 (filed January 8, 1985). The elastic strap 100 may also be uniformly 30 in the thickness direction. The hardness of the outer surface 101 of the paper web W-side of the elastic belt 100, thus against the fabric 52, is preferably in the range of about 10-80 P & J, most preferably in the range of about 20-40 P & J. A layer 110 of elastic component having said hardness equalizes small-scale compression pressure variations. a variation with a range of n.

35 6 mm and smaller. The elastic strap 100 according to Fig. 5 has a substantially harder and also thicker body layer 120 than the above-mentioned hardness, which gives the elastic strap 100 the necessary mechanical strength.

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i3 82500 1 and which helps to compensate for the larger-scale variation of the compression pressure compared to that defined above. The hardness of the body layer 120 of the elastic strap 100 is generally in the range of 3-30 P&J, preferably in the range of 5-20 P&J. The thickness of the harder body layer 120 of the elastic strap 100 is substantially more than half the total thickness H of the belt 100, preferably about 60-70 X size. the thickness of the belt. The elastic strap 100 may have a mesh structure or other similar reinforcing body layer. The elastic strap 100 is made of e.g. rubber and / or polyurethane and may have one or more reticulated or similar reinforcing fabrics or 10 layers.

As for the transfer belt 50; 51; 52 still used in the invention, it is preferably non-stretchable and has a surface such that it does not rewet the web after the nip, which is a considerable advantage over the other advantages of using the transfer belt 15.

In Figures 1 and 2, the diameters of the press rolls 24, 25, 34, 35 are preferably in the range of 800 to 1800 mm, which area also accommodates the diameters of the nip press rolls 54 and 55 shown in Figure 3. The diameters of the first and second short and sharp nips and the forming rolls 24,25 and 34,35 of Figure 3 are generally in the range of 700 to 1400 mm. As stated above, the choice of press roll diameters also contributes to the length of the nips. If necessary, deflection compensation devices are used in the press rolls, the use of which is not restricted, because the press rolls are not suction rolls but solid-sheathed press rolls.

In the nipples used according to the invention, which are extended by an elastic strap 100 or another similar elastic component, a line load measurement is generally used, which is generally in the range of about 50-500 kN / m, preferably in the range of 200-400 kN / m.

In the invention, the diameter of the press rolls formed by the elongated nips Ν ^, Ν ^, Ν ^, the elastic component material or materials used and the line load of the nip are preferably selected so that the nip length L is in the range 40-150 mm and the nip maximum compression pressure P in the range n.

max 40-60 bar for flow-restricted paper types and approx. 60-120 bar for pressure-restricted paper types.

ia 82500 1 The following are claims which, within the scope of the inventive idea defined by it, the various details of the invention may vary and differ from those set forth above by way of example only.

5 10 15 20 25 30

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Claims (6)

A press section of a paper machine with two separate presses (24/25) and (34/35) and two press nips (Ν ^, Ν ^), respectively, 5 of which are formed between two press rolls (24,25,34,35), of which at least one of the rolls is preferably provided with a hollow surface, and in which the paper web is guided in closed press through said press nipples (N 1, 4) from the pick-up point (P 2) or the like to the drying section of the paper machine up to the transfer point (P 2) a substantially non-water-receiving transfer belt (50,51) is passed through at least one nip (Ν ^, Ν ^), which provides said closed export from the first press (24/25) to the next (34/35) and / or from the press nip (N for a drying section having the surface characteristics 15 of the transfer belt (50,51) such that the web follows the transfer belt (50,51) in a nip (Ng, ^) in which the second fabric is a dewatering press felt (30; 31) or other water trap receiving fabric, characterized in that in addition to the press fabrics a nip-extending elastic strap (100, 110) is applied to each press nip (N 1, 3), that the closed export of the first and second nips (N Ι ^) is provided by a first nip (N ^) by means of a lower fabric (40) or an upper fabric (21) so that a web (W) is transferred from said lower or upper fabric (40,21) as a device (37,37a; 57,57a) in the transfer nip (Nq) to the transfer belt (50) or the press fabric (30) passing through the second nip (N 2), and that through said second nip (N 1) is passed: a transfer belt or fabric (50; 51) which is adapted to take the web (W) from the second nip (Nj) as a closed export to the drying wire (60) of the drying machine of the paper machine, to which the web (W) is transferred at the transfer point (P 1) to the suction device (62) of the suction device (62) ). 1 Claims Press part according to claim 1, characterized in that the paper web (W) is transferred from the first nip (Nj) by its lower felt (40) as a closed export to the transfer nip (Nq), from which the web (W) 35 is transferred to the upper felt (30) of the second nip (^). ), on the lower surface of which the web (W) is transferred to the second nip (^) and that a substantially water-impermeable and suitably impermeable transfer belt (50) is passed through said second nip (N ^), which carries the web (W) on its upper surface after the second nip (^) as a closed export to the drying section of the paper machine (Fig. 1). Press part according to Claim 1, characterized in that the web (W) is transferred after the first nip (N 2) on the lower surface of the upper felt (21) acting as a pick-up felt to a transfer nip (Nq), where the web (W) is transferred to a lower, substantially water-free but on the upper surface of the transfer fabric (51) sufficiently permeable for suction roll transfer, in support of which the web (W) passes through the second nip (N 2) and further on the upper surface of said transfer fabric (51) substantially re-wetted to the drying section of the paper machine as a closed export (Fig. 2). Press part according to one of Claims 1 to 3, characterized in that the diameter of the press rolls provided with the elastic belt (100), the structure, material or materials of the elastic belt (100) and / or the elongation of the nip elongated with the elastic belt are selected so that the nip length (L) is in the range of about 30-200 mm, preferably in the range of about 20 to 40-150 mm and the nip in question. the maximum burst pressure (P) is in the range of about 40-60 bar for flow-restricted paper grades and in the range of about 60-120 bar for pressure-restricted paper grades. Press section according to one of Claims 1 to 4, characterized in that an elastic belt (100; 110) has a hardness (100; 110) whose surface hardness on the paper web (W) side is in the region n is used in one or more nipples in the press section to extend it. 10-80 P&J, preferably in the range of about 20-40 P&J, and that said elastic strap (100; 110) comprises a body layer (120) which gives said elastic strap (100; 110) substantially its structural strength and that said elastic strap (100; 110) the hardness of the body layer (120) is substantially higher than the hardness of said outer layer as defined above and in the range of about 30-50 P&J, preferably in the range of about 5-30 P&J. Press part according to Claim 5, characterized in that the thickness of the elastic belt (100; 110) used to extend one or more nips (Ν ^, ^, Ν ^) of the press part and to increase the available spray pulse is in the range from about 5 to 25 nm. , preferably in the range of about 8-15 nm. 5 10 15 20 25 30 35 i8 82500