AT15570U1 - Device for repairing a felt on a fiber web machine - Google Patents

Abstract

In a device for repairing a felt on the press section (100) of a fiber web machine, which device (10) - blowing devices (12) for blowing the air against the felt (14) for dewatering the felt (14) arranged on one side of the felt (14) on the felt circulation (102) of the press section (100) and comprising a blowing port (18) for supplying the air, and supporting devices (20) for supporting the felt (14) arranged with respect to the blowing devices (12) of the said press side felt (14) on the opposite side, said support means (20) being arranged to support the felt (14) on at least two spaced support points (22) from which a support point (22) extends in the direction of travel of the web Felt (14) is arranged in front of the blow opening (18) and the other after the blow opening (18) are assigned, it is proposed that the support devices (20) are elastic to adapt to the felt (14).

Description

description

DEVICE FOR REPAIRING A FELT ON A FIBERMAKING MACHINE

The invention relates to a device for repairing a felt on the press section of a fiber web machine, which device - Blowing devices for blowing the air against the felt for dewatering the felt, arranged on one side of the felt on the felt circulation and comprising a blow opening for feeding the air, and supporting devices for supporting the felt arranged with respect to the blowing devices of the felt of the pressing party on the opposite side, which supporting devices are provided to support the felt on at least two spaced supporting points , of which a base is arranged in the direction of the felt before the blow opening and the other after the blow opening, are assigned.

The at the fiber web machine, especially on the drying machine to be dried fiber web is very much drained. After the formation of the fibrous web on the wire section, dewatering is performed by pressing the fibrous web with a press device into the press nip between the press rolls while the fibrous web is between the folds. Pressed by the press nip, the water from the fiber web is conveyed into the felt, which conveys the water with it in the tissue circulation. So that the water absorption of the felt wetted in the press nip can be restored from the circulation back into the press nip before returning the felt, the felt must be repaired, ie dewatered.

In connection with fiber web machines, such as in the manufacture of paper and cardboard, a vacuum box is generally used for dewatering the felts. However, in the case of very heavy basis weights, such as the drying of pulp, the amount of water to be dewatered to the felt is much less than the amount of water that is to be dewatered on the felts of the paper and board machines. The vacuum box causes a greater retarding effect in the felt, resulting in increased wear of the felts and increased consumption of energy.

The prior art knows separate blowing devices, with the help of which was blown on the felt to be repaired air over a narrow blow opening to drain the felt. In this solution, however, the air may escape between the blowing devices and the felt, and the water drained from the felt tends to follow the felt in the running direction of the felt, thereby impairing the efficiency of dewatering.

The prior art knows the publication US 3,313,679, are described in the blowing devices for repairing a felt. In this publication, with respect to the blowing devices on the other side of the felt, two fixed supporting points are formed which hold the felt to the blowing devices, whereby the escape of air between the blowing devices and the felt can be at least partly prevented. However, this arrangement is considerably expensive to realize, because the water is conveyed by means of blowing devices in another felt, whereby a separate circulation must be organized. Furthermore, the fixed points cause friction on the felt and eventually the friction friction destroys the felt. In addition, the use of such a construction is expensive because of the high energy consumption.

The object of the invention is to produce a device for repairing a felt on the press section of a fiber web machine, which is more energy efficient than the prior art devices and which wear the felt less. The characterizing features of this invention can be taken from the enclosed protection claim 1.

This object can be achieved with a device for repairing the felt on the press section of a fiber web machine, which device blowers for blowing the air against the felt, arranged on one side of the felt in the felt circulation and comprising a blowing opening for supplying the air and supporting devices for supporting the felt, arranged in relation to the blowing devices of the felt on the press section on the opposite side. Support devices are provided to support the felt on at least two spaced apart support points, of which a support point in the direction of the felt before the blow opening and the other is arranged after the blow opening. The support devices are elastic to adapt to the felt. The flexible support devices allow tight support of the support devices on the felt despite changes in the thickness of the felt without friction to be worn away from the felt. At the same time, the dense support prevents the escape of the blast air between the blowing devices and the felt. In other words, it can be said that the supporting devices are "floating" on the surface of the felt. In this context, the flexibility of the supporting devices is understood to mean that they are provided flexibly, for example by pneumatic loading, or alternatively, the supporting devices can be elastic in terms of their construction and thus flexible.

Preferably, the support devices are loaded to cause flexibility. With the aid of the load, the surface pressure between the supporting devices and the felt can be regulated, for example, by means of air pressure.

Preferably, the opening is open and aligned with the blow opening for dewatering the felt. When air is blown towards the felt, the other half of the felt is open with respect to the air opening, whereby the air through the felt can effectively flow into the open space between the support devices.

The blowing devices can be assigned two flat support surfaces, between which the blowing opening is formed, which support surfaces are located with respect to the support points on the other side of the felt. With the help of the flat support surface, a sufficiently large contact surface can be formed in the felt, so that the air between the felt and the blowing devices can not escape.

The support devices are preferably arranged on the side of the felt, which supports the fiber web on the press section, and the blowing devices on the opposite side. In other words, the support devices are located outside of the tissue circulation and within the felt circulation of the blowing device. In this case, the blowing is directed from the cleaner side of the felt, wherein in the inner part of the felt no water and impurities is blown, but they are blown back the same distance as they have come into the felt.

Preferably, the support devices are two load bars, in which each load bar forms a base. The loading bars are usually elements used in the tissue circulations, and they do not have to be manufactured especially for the device according to the invention.

The support devices may be pneumatically loaded. With the help of the pneumatic load, the load can be regulated steplessly to the desired level.

The support devices may consist of a pneumatic muscle. With the help of a pneumatic muscle the adjustment of the load is easy and the support devices become flexible.

Preferably, the support devices are arranged in the direction of the felt before and after the blow opening. At the time of the blowing opening, there remains an open opening through which the water can flow, and at the same time the felt is supported on both sides of the blowing opening, whereby the escape of the blowing air between the blowing devices and the felt is prevented.

Preferably, the device according to the invention is intended for use on the press section of the dewatering machine for pulp. By using a felt repair device on the press section of the pulp dewatering machine, enough water can be drained from the felts before the next press nip.

Preferably, the distance between the support devices from each other at least equal to the length of the blow opening. In the case of the blowing opening, an open gap is formed between the supporting devices through which the water can drain out of the felt. In this context, the length of the blow opening is understood to mean the dimension in the running direction of the felt.

Preferably, the blower devices are assigned a segment rotor blower for supplying the blown air. The segment rotor blower fits particularly well for this purpose. An industrial glass can also be used.

The blowing devices may be provided for supplying the blast air 10 - 100 kPa, preferably 25-70 kPa, more preferably 40 - 60 kPa. At such a pressure level, however, adequate drainage of the felt is achieved with moderate energy costs. When talking about the pressure levels in this context, it means the overpressure in relation to the prevailing air pressure.

The length of the blow opening can be 0.5-10 mm, preferably 1-5 mm. In this case, the desired pressure against the felt is achieved at a certain volume flow of the air to be blown.

Preferably, the device is provided for dewatering a felt to restore a sufficient water-binding capacity of the felt before the return to the press nip, but so that the purpose of the repair is not to dehydrate the felt completely dry.

More specifically, the device according to the invention is characterized in that the supporting devices are elastic in order to be able to adapt to the felt.

With the help of the device according to the invention a lower energy consumption is achieved as the drainage of the felt works more effectively. The energy consumption with respect to the blow box may even be less than that of the prior art devices. Since each felt circulation should have its own device for repairing the felt, the energy savings will be repeated and thereby even hundreds of thousands of euros in power consumption can be saved.

The device according to the invention is also significantly cheaper by their energy costs compared to the vacuum system because of the piping and the device. The device of the invention requires fewer pipes, which are also lighter than the prior art vacuum systems. In addition, with the aid of the solution according to the invention, it is very easy to regulate air flows precisely in relation to the felt. It is much easier to measure and regulate the flow of air for the objects because the compressed air is dry. For this reason, no separate control device is required with each device, as was the case with conventional vacuum systems.

Thanks to the support devices, the water dissolved from the felt can be scraped off the felt and directed downwards immediately after the blow opening. In addition, the air can then be forced to flow out only on the length of the blowing opening on the opposite side of the felt, whereby the air is prevented from being conveyed with the felt. At the same time, the "opening speed" of the air remains high and the repair efficiency is at a high level.

In the following, the invention will be described in detail with reference to the accompanying drawings, which illustrate some embodiments of the invention, in which Fig. 1 shows the device according to the invention viewed from the side as a schematic diagram as a part of the press section of the fiber web machine, Fig. 2, the device according to the invention viewed from the side closer than

Schematic diagram shows.

Referring to FIG. 1, the apparatus 10 of the invention is circulated around the felt 102 of a fibrous web machine, such as a pulp dewatering machine, on the press section 100, where its purpose is to repair the felt 14 by dewatering the felt 14 in the press nip 104 and remove on the surface of the felt 14 possibly on the fiber web 101 adhering pulp. Preferably, the device 10 is placed after the press nip 104 at a location where the felt 14 is rotated so that its surface lying against the fiber web 101 is on the lower side, wherein the blowing in the operating position of the press section 100 from top to bottom can. This is not necessary, but facilitates the realization of the device considerably, because the water and possibly the dissolving pulp may fall by gravity. In other words, the supply of compressed air is preferably from the inside of the felt circulation in the direction of the outer circulation, so the device is located within the felt circulation and the support devices outside of the felt circulation, so on the surface with which the fiber web comes into contact. For each felt circulation 102, there is at least one device 10 according to the invention, but if desired, there may also be multiple devices, such as in the upper felt layers 102, each having two devices 10. With the device, the water conveyed by the nip into the felt is removed and the moisture balance of the felt is lowered sufficiently low so that the felt has a sufficient binding capacity of the water when it is conveyed anew into the press nip. On the other hand, the purpose of the repair is to dry the felt completely, as this would require a lot of drying energy.

The press section 100 of the pulp drying machine 100 shown in FIG. 1 has four felt circulations 102 and the fiber web 101 is conveyed into the press nips 104 on the surface of the lower felt circulations 102 '. The running speed of the drying machine for pulp may be about 100-300 m / min and the basis weight of the pulp to be dried as fiber web about 1000 g / m2.

In Fig. 2, an embodiment of the device 10 according to the invention is shown as a schematic diagram. The apparatus 10 is associated as a main component blowing devices 12 for blowing the air against the felt 14 for dewatering the felt 14 and support means 20 for supporting the felt 14. The blowing devices are disposed on one side of the felt 14 in the felt circulation and the support devices 20 with respect to the blowing devices 12 on the opposite side of the felt. The support devices 20 support the felt 14 elastically at least at two spaced apart at a distance d bases 22. In the embodiment of Fig. 2, the blowing devices 12 consist of two beams 30 whose lying against the felt 14 surfaces support surfaces 24, with their help the support devices 12 are supported on the surface of the felt. The beams 30 are arranged at a distance D from each other, wherein between the beam 30, a blowing opening 18 is formed, via which the air is blown against the felt 14.

The air can be conveyed to the blow port 18 along the supply passage formed by the lid 34 of the blowing devices 12, for example, from the segment rotor blower or a corresponding device (not shown), whereby the air to be blown is applied. In the inside of the lid, the air can be conveyed through a separate channel. The lid 34 can be fixed to the beam 30 in a form-fitting manner, for example with T-shaped rails 42. The beam and the lid can be fixed to each other in the width direction of the blowing opening, that is, in the transverse direction of the felt, by movement. The amount of air to be blown can be controlled by, for example, adjusting the fan's power or limiting the flow with a valve. For example, the air to be blown may be warm air flowing from the heat storage unit.

According to FIG. 2, the supporting devices 20 preferably consist of two loading elements 26, which form the supporting points 22 supporting the felt 14. The load elements can also be called load bar. The loading elements 26 can be supported on the frame of the drying machine via their frames 32, for example by means of a crossbar of the press section (not shown). A single loading element 26 is assigned a frame 32, in whose inner part a pneumatic muscle 30 is preferably arranged, on which a piston 36 is supported. With respect to the pneumatic muscle 38 at the other end of the piston 36, a strip member 40 is fixed, whose opposite surface with respect to the piston 36 forms the support point 22. By means of the pneumatic muscle 38, the loading of a single loading element 26 against the felt can be adjusted by adjusting the air pressure of the muscle. By means of the adjustment of the air pressure, the pneumatic muscle 38 expands or contracts and at the same time moves the piston 36 in the frame 32. The loading elements may for example be similar to the loading elements shown in the publication US 5,695,613. In other words, the loading element forms a pneumatic cylinder assembly supporting the rail part, with which the load of the rail part can be adjusted.

With the aid of the pneumatic muscle 38, it is attempted to keep the strip part 40 of the loading element 26 continuously against the felt 14, but so that there is not too much friction between the felt and the strip part 40. The grooved portion 40 scrapes off water and impurities from the surface of the felt. Preferably, the grooved portion 40 is formed such that the angle between the felt-facing surface of the grooved portion 40 and the vertical surface substantially opposite the felt is smaller than a rectangle. The angle can be near the right angle if the radius R is 1 - 2 °. Such a grooved part rotates the water at the surface of the felt in the direction of travel below 90 °, whereby the scraping is effective.

The loading elements 26 of the support devices 20 are preferably arranged so that a loading element 26 forms a base 22 in the direction of the felt 14 in front of the blow opening 18 and a second load element 26 in turn after the blow opening 18. Thus, the felt 14 can be supported on both sides of the blowing opening 18 by means of loading elements 26 against the support surfaces of blowing devices 12, wherein the only flow path of the air passes through the felt 14. Preferably, the front edge of the strip part 40 of the second loading element 26 located after the blowing opening 18 is arranged at the edge of the outlet side of the blowing opening 18 or after the edge in the running direction of the fabric. The distance between the edge of the exit side of the blowing opening 18 and the front edge of the strip part 40 of the loading element 26 in the running direction of the fabric is preferably 0-10 mm.

Instead of using pneumatic muscles equipped stress elements could be used in the inventive device loading elements having a fixed frame and an elastic strip part. The elastic strip member may be made of, for example, rubber or other elastic material, effectively conforming to the surface of the felt and at the same time being firmly seated against the felt. With respect to the invention, it is essential that the support devices are resilient or floating with respect to the felt, which can be achieved either by an elastic construction and / or by an adjustable load.

The distance D of the beams 30 of the blowing devices 12 may be adjustable to achieve a suitable speed in the blowing opening 18. For regulation, separate rails may be arranged in connection with the blowing devices to which the beams are connected, or the beams may be in communication outside the area to be blown by the regulatable rods. The support points of the support devices are preferably arranged so that each support point is aligned with a single support surface of the blowing devices. Below the open distance d between the loading elements, a collecting trough for water can be arranged, whereby the detached water from the felt for further treatment is directed. The length of the load elements in the direction of the felt may be 10-40 mm. In this case, the support surfaces formed by the beams of Blasvorrichtun conditions are at least as long as the loading elements. The length of the loading elements in the direction of the drying machine can be at least 10 cm. The lid of the blowing devices may be interchangeable, wherein the distance of the bars attached to the lid may be different for different lids, at the same time regulating the length of the blow opening.

According to one embodiment, the same felt circulation may comprise a plurality of devices according to the invention if the felt is to become particularly dry. Alternatively, the blowing devices may have a plurality of blowing openings through which the air is supplied. In this case, the amount of load elements of the support devices is always greater than the number of blow holes.

The device according to the invention operates continuously, so it is provided for continuously blowing the air during the rotation of the felt. It is important to understand that the bars of the blowing devices and the blowing opening formed between them are continuous across the entire width of the felt.

A fiber web machine refers to a paper or board machine or a drying machine for pulp, the invention is particularly well used on the press section of a drying machine for pulp.

Claims (6)

claims Apparatus for repairing a felt on the press section (100) of a fiber web machine, which apparatus (10) - blowing means (12) for blowing the air against the felt (14) for dewatering the felt (14) disposed on one side of the felt (14) on the felt circulation (102) of the press section (100) and comprising a blowing port (18) for supplying the air, and supporting devices (20) for supporting the felt (14) arranged with respect to the blowing devices (12) of the said press side felt (14) on the opposite side, said support means (20) being arranged to support the felt (14) on at least two spaced support points (22) from which a support point (22) extends in the direction of travel of the web Felt (14) is arranged in front of the blow opening (18) and the other after the blow opening (18) are arranged, characterized in that the support devices (20) are elastic to adapt to the felt (14). 2. Device according to the protection claim 1, characterized in that the distance (d) is open and aligned with the blow opening (18) to drain the felt (14). 3. Device according to the protection claim 1 or 2, characterized in that the supporting devices (20) on the side of the felt (14) which supports the fiber web (101) on the press section (100) of the fiber web machine, and the blowing devices (12) are arranged on the opposite side. 4. Device according to one of the claims 1 - 3, characterized in that the supporting devices (20) are two loading elements (26), of which each loading element (26) forms a support point (22). 5. Device according to one of the claims 1 - 4, characterized in that the supporting devices (20) are pneumatically loaded. 6. Device according to one of the claims 1 - 5, characterized in that the device is intended for use on the press section of a drying machine for pulp. For this 2 sheets of drawings