FI12153U1 - Equipment for cleaning an endlessly circulating fabric in a machine for producing or treating a fibrous web - Google Patents

Abstract

Apparatus (1) for cleaning an endlessly circulating web (8) in a machine for manufacturing or processing a fibrous web, characterized in that the plant comprises an atomizing device (2) for directing at least one liquid jet to the surface portion of the web (8), a wiping device (3) for wiping the liquid propagated at least partially by means of the liquid jet on the surface portion, and a drying device (4) for thermal drying of the wiped surface portion of the web (8). In addition, the protection requirements 2-8.

Description

APPARATUS FOR CLEANING TEXTILE FABRIC MANUFACTURING OR PROCESSING MACHINE

The invention relates to an apparatus for purifying endlessly circulating fabric of a fiber web making or web processing machine, more precisely defined in accordance with the preamble of claim 1. The invention further relates to the combination of such apparatus with tissue.

Such prior art cleaning equipment for cleaning paper deposits is known in the art. Particularly at or after the entrance of the coating means, the tissues in use can become heavily soiled. Thus, the coating material to be applied to the fibrous web may also be exposed to the fabric carrying it during use, but especially also during start-up and rupture of the fibrous web. Such a coating agent, such as glue, starch or coating paste, causes the tissue to become clogged. If the fabric comprises, for example, a dryer fabric for drying the coating material, such one will obstruct the openings of the dryer fabric or create bumps in the dryer fabric. This results in a non-uniform drying of the fibrous web, which can ultimately lead to a loss of quality of the fibrous web, or the resulting bumps produce marks on the fibrous web, defective surface.

It turns out that such tissues can only be deficiently cleaned with current purification equipment. With prior art equipment, water may remain on top of such tissue after cleaning. Residual moisture in the tissue results in a decrease in the quality of the paper that comes in contact with the tissue. Therefore, in some applications, tissue cleaning was previously abandoned during use. Instead, such tissues were manually cleaned during machine shutdown.

In addition, studies have shown that coating agent ingredients such as pigments, binders, and additives can lead to permanent residues in the tissue despite purification with water. Such residues appear as continuous streaks or "patches" in the circumferential direction of the tissue. These residues, in turn, in the drying fabrics, in turn, lead to uneven drying of the coated fiber web or to surface defects caused by protrusions protruding from the tissue and to the aforementioned disadvantages.

The present invention relates to the above-mentioned objects of the preamble.

It is an object of the invention to provide an apparatus for tissue cleaning which avoids the disadvantages of the prior art. In particular, the aim is to remove residues of the coating material in particular from the tissue and at the same time to maintain the quality of the fiber-treated fiber web throughout the use.

This objective is achieved by means of a tissue-cleansing device, a combination of equipment and tissue, which is subject to independent protection requirements. Particularly advantageous and advantageous embodiments of the invention are disclosed in the dependent claims.

The inventors have found that the coating agent residues in the tissue can be removed particularly well if, in the first step, the coating agent is sprayed from the tissue by means of one or more liquid jets. The coating material is thus targeted to the surface of the tissue. For example, in the case of water-soluble coating agents, high-pressure water is likewise preferably used for liquid jets. This has the advantage that the coating material becomes thinner, less viscous and easier to remove from the fabric surface. In a second step, the soaked or detached coating material is wiped away from the liquid-sprayed tissue surface. This sweep can preferably be non-contact, i.e. without rubbing with a solid body. This results in less wear on the surface of the tissue. Such a touch sweep can be effected by means of at least one gas jet forming, for example, an air curtain or a fan jet. In this connection, dirt removed from the tissue can be absorbed. In the final step, the swept surface nanoparticle is thermally dried to improve evaporation of any coating solution dissolved in the adherent tissue surface and to prevent coating residues remaining on the tissue. As with the first and second steps, the third step can also be non-contact. To this end, a heat source or ventilation may be provided to transfer heat in the form of thermal radiation and / or convection to the newly wiped surface of the tissue.

The coating agent of the invention may be a liquid or pasty substance such as an adhesive, starch, coating paste or the like. The coating material is designed to remain permanently adhered to it at least after coating the fibrous web. After subsequent drying, the coating material forms a permanent layer or film on the fibrous web. The coating agent may be, for example, an aqueous mixture.

The term "fibrous web" according to the invention is understood to be a blanket or non-woven material consisting of fibers, such as wood fibers, plastic fibers, glass fibers, carbon fibers, additional materials, additives or the like. The fiber web may thus be formed, for example, into a paper, board or tissue web comprising essentially wood fibers, with minor amounts of other fibers or additional materials and additives being present. The term "fabric" refers to a rotating belt with which the fibrous web comes into (direct) contact within the machine. Such a fabric can be utilized to transport the fibrous web through the machine. However, it is also common in a pulling apparatus in which the fabric wraps around at least one cylinder or pulling roll to press the fibrous web against it. Such tissue may be fluid permeable. In principle, it may have been fabricated like a wire. This may be, for example, a forming wire. Preferably, the fabrics of the invention also include drying fabrics which serve to convey a fiber-coated fiber web to, through, and out of a drying apparatus (also called a drying section) for drying the web within the machine. In this context, the fabrics are formed as generally closed (endless) loops to support the fibrous web, e.g., on their outer sheath surface. They are supported and usually operated by several rollers. For this purpose, the radially inner casing surface of the fabric, also called the machine side, is at least partially in contact with the respective casing surfaces of the rolls. At the same time, the radial outer shell paper, also referred to as the paper side, supports the fibrous web. The longitudinal direction of the tissue is understood as the circumferential direction. In contrast, the width direction continues perpendicular to the circumferential direction. The longitudinal direction of the fabric may be consistent with the machine direction of the machine.

By rotating the tissue, it is meant that the tissue rotates - in the direction of travel - with respect to the apparatus according to the invention, i.e. passes by. The equipment itself does not need to be solid with respect to the tissue it is supposed to clean. The apparatus may be implemented such that it can be moved transversely - in the width direction of the tissue - perpendicular to the direction of travel, i.e., the apparatus itself is designed to be reciprocated with respect to the tissue in said direction. The cleaning may also be carried out gradually with the body portion whereby the apparatus remains for at least one cycle of the tissue to be cleaned and is then moved forward, e.g., by the nozzle width. Local spot cleaning can also be performed. To this end, the apparatus may be provided with a cross member which extends parallel to the width direction and on which the apparatus is mounted to be relatively movable in that direction, i.e., the apparatus performs a linear motion in the width direction. In order to move the apparatus in the width direction, a corresponding drive device, such as a linear drive device, may be provided. In addition, the nebulizer, sweeping device and drying device may be connected to each other or to the cross member so that they can be moved together with respect to the orbiting tissue in the direction of the width of the tissue. However, the said devices of the apparatus may also consist of separate components housed in a common housing of the apparatus.

The nebulizer, scanning device, and drying device are preferably oriented towards the tissue to be cleaned so that, when viewed in the direction of travel of the tissue and viewed towards the tissue, they are disposed on different surface surfaces of the tissue which follow each other. It could also be said that the three devices are spaced apart when viewed in the direction of tissue travel. This ensures that the liquid jet of the nebulizer device, then the gas jet of the scanning device, and finally the heat of the drying device, i.e. these devices, pass over the tissue on one and the same surface area of the circulating tissue. In other words, all said devices simultaneously act on the same side of the tissue (the diaper surface). Preferably, the tissue to be cleaned is the paper side. However, exceptions may also be made. Accordingly, the machine side of the tissue could also be cleaned accordingly. In both cases, the apparatus is directed towards the cleanable side of the tissue, respectively.

Advantageously, the apparatus may be implemented such that the surface to be cleaned is only a fraction of the respective tissue surface to be cleaned. The apparatus can thus be implemented in a compact manner. The cleaning of the entire surface of the tissue is then carried out gradually, namely by moving the apparatus back and forth along the width of the circulating tissue. In this way, the jacket surface can be gradually cleaned by means of apparatus, e.g. spirally. This spiral-like trace of cleaning results from a combination of linear motion along the transverse beam of the apparatus and circular motion of the circulating tissue.

In principle, the apparatus may also be provided with a device for suctioning a liquid-dirt mixture which is ejected from the tissue by purification. The housing of the apparatus may provide a corresponding aperture for receiving this mixture, and may be connected to a potential vacuum source. The apparatus may also be provided with fluid or air supply channels to the spraying, sweeping, or drying apparatus which connect the respective apparatus to the corresponding source. The supply and suction, i.e. the removal of substances, can take place through a cross bar provided in the equipment.

The invention relates in principle to both the apparatus for cleaning itself and the combination of the apparatus and the tissue.

The advantages of the invention are particularly well achieved if the thermal energy supplied to the tissue by thermal drying is dimensioned such that the temperature difference of the surface temperature of the tissue immediately at the previously cleaned point is 5 K compared to that which has not been cleaned; wherein the unpurified site is preferably within the same radius as the immediately previously cleaned site but has been displaced along the width of the tissue by a length outside the radius of action of the thermal drying.

The invention will now be explained in more detail with reference to the drawings, without limiting the general validity of the description. In the drawings: Figure 1 is a side elevational view of a very schematic, non-scalable part of a fiber web making or processing machine; Figure 2 is a very schematic, not to scale, sectional view of one embodiment of the apparatus of the invention.

Figure 1 is a side view of a part of a machine for manufacturing or processing a fiber web 7. Only the essential parts of the drying section of such a machine are described herein. In the present case, the drying section has a plurality of guide rolls 9 and drying cylinders 10. The fabric 8 is guided around these. The fabric 8 is implemented here as a drying fabric. The drying wire guides the fibrous web 7 around the guide rolls 9 and e.g. the heated drying cylinders 10 to dry it. Although not described, the fabric 8 may also be part of the pulling device mentioned at the beginning.

In the direction of travel of the fabric 8, a coating 11 is provided in front of the drying section for coating the fibrous web 7 with a coating material. The fiber web 7 is coated with a coating material and dried in a drying section. The direction of travel of the fabric 8 continues from left to right or counterclockwise when viewed in Figure 1. At the points where the fabric 8 carries the fiber web 7 against the drying cylinders 10 and the guide rollers 9, the machine direction, i.e. the direction of movement of the fiber web 7 through the machine, and the direction of travel of the fabric 8 are uniform.

In the direction of movement of the fibrous web 7 as seen from the rear of the last drying cylinder 10, the fabric 8 is lifted out of this and guided onto the other rolls. In this area, the fabric 8 is cleaned, here from the side facing the fibrous web 7. To this end, an apparatus 1 is provided for cleaning the tissue 8. This is arranged at a certain distance from the tissue 8, namely, so that it is turned toward the cleanable surface portion of the tissue 8. The apparatus 1 can be moved back and forth by the actuator 6 over the cross member 5 along the width of the fabric 8. The surface portion of the fabric 8 to be cleaned by the apparatus 1 is only a fraction of the total surface area (envelope surface) of the fabric 8. With this arrangement, however, the entire width of the fabric 8 can be gradually cleaned by means of the apparatus 8, namely during the intended use of the machine.

In the present case, the width direction of the fabric 8 or the fibrous web 7 is a direction extending parallel to the axis of rotation of the guide rollers 9 or the drying cylinders 10 (indicated by a check mark). In Figure 1, this is a direction perpendicular to the drawing plane in the figure.

Figure 2 shows a possible embodiment of the apparatus 1 in cross-section through it along a plane perpendicular to the latter in the direction of travel of the tissue 8 (indicated by an arrow).

The apparatus 1 comprises a spraying device 2, a wiping device 3 and a drying device 4. Said devices 2, 3, 4 may be arranged in a housing 12 or at a location of the housing 8 at a certain distance from one another.

The function of the nebulizer device 2 is thus to direct one or more jets of liquid into the tissue 8 to remove the dirt particles that are stuck to the surface of the tissue 8. This at least one liquid jet is disposed in the present image at an angle, namely a sharp angle, i.e., in the direction of travel with respect to the direction of travel of the fabric 8. This will improve the cleaning performance of the equipment 1. Thus, a fluid source (not shown) may be provided to direct fluid to pressurized tissue 8. Liquid, e.g., water or water mixture, exits from at least one corresponding nozzle of nebulizer 2 and contacts tissue 8. If tissue 8 is made permeable to water, dirt particles entrained therein may pass through fabric 8 as shown in the cone depicted below fabric 8. Most of the liquid dirt mixture ejected by spraying 8 may be sucked out by apparatus 1. To this end, housing 12 has a corresponding opening for receiving this mixture. coupled in the direction of travel 8 viewed in front of the spray device 2. To produce a corresponding vacuum, the aperture or housing 12 may be connected to a respective vacuum source (indicated by a nozzle).

The scanning device 3 is arranged downstream of the spraying device 2 in the direction of travel of the tissue 8. The wiping device 3 engages with the spraying device 2 at a certain distance to direct the blowing just to the surface portion of the sprayed tissue 8 by the spraying device 2. The scanning device 3 is designed to apply pressure to the tissue 8 with at least one gas jet. The gas may be air or a mixture of air. To this end, the scanning device 3 may be connected to an unpressurized air source and may have a corresponding nozzle, such as a fan nozzle. The resulting fan jet or air curtain acts as a non-contact sweeper on the tissue and to wipe off any remaining water from the nebulizer device 2 in the tissue 8, e.g. The remaining liquid is blown through the water-permeable tissue 8.

In contrast to a liquid jet arranged at a sharp angle, the gas jet may extend centrally, i.e. from at least one motion component, in the direction of travel of the fabric 8. In other words, the gas jet may extend at an angle to the surface of the fabric 8 in Figure 2 and also form an angle (as small as possible) of up to 90 °.

Viewed in the direction of travel of the fabric 8, in the present case at a certain distance from each other, the drying device 4 is associated with a drying device 4. This comprises a heat source or ventilation (not shown) for further drying the surface portion of the newly wiped tissue 8 by heat radiation or heated air. In this way, tissue energy 8, as indicated by arrows, is applied to tissue 8 to rapidly evaporate any residual liquid from spray device 3 from or above tissue 8. Regardless of the embodiment described, the heat source of the drying apparatus could be a heat source emitting electromagnetic radiation, such as electrically powered resistance heating. Microwave or light radiation could also be a potential source of heat. If a fan is needed, this can also be electrically driven.

Regardless of the embodiment described, three-step purification can significantly reduce or even completely eliminate residues of the water-soluble coating agent in tissue 8, in particular.

The invention thus enables tissue cleaning during the intended use of the machine - that is, outside of downtime. Further thermal drying of the tissue then prevents the penetration of a fluid such as water from the fabric to the fibrous web, thereby preventing its wetting and eventually loss of quality of the fibrous web.

Claims (8)

FOR SAFETY REQUIREMENTS 1. Anläggning (1) för att rörara en ändlöst cirkulerande väv (8) i en maskin för tillverkning eller behandling av en fiberbana, kännetecknad av at anläggningen innefattar en atomiseringsanordning (2) för att rita åtminstone en vätskestråle del, en avstrykningsanordning (3) för att avstryka den med hjälp av vätskestrålen på yddelen utbredda vätskan åtminstone delvis, samt en torkanordning (4) för thermal torkning av den avstrukna ytdelen av väven (8). Apparatus (1) for cleaning an endlessly circulating fabric (8) of a fiber web making or processing machine, characterized in that the apparatus comprises a spraying device (2) for applying at least one liquid jet to the surface portion of the fabric (8). for at least partially wiping off and for thermally drying the wiped surface portion of the fabric (8) of the drying device (4). 2. Anläggning (1) enligt skyddskrav 1, kännetecknad av att avstrykningsanordningen (3) utförts för att avstryka vtska contact information and an attnstat åtminstone en gasstråle mot ytdelen. Apparatus (1) according to claim 1, characterized in that the scanning device (3) is designed to contact the liquid non-contact and is preferably arranged so as to apply at least one gas jet to the surface part. 3. Anläggning (1) enligt skyddskrav 2, kännetecknad av att avstrykningsanordningen (3) anordnats så att gasstrålen utförs som en solfjäderstråle eller en luftridå. Apparatus (1) according to claim 2, characterized in that the scanning device (3) is arranged so that the gas jet is implemented as a fan jet or an air curtain. 4. Anläggning (1) enligt något av skyddskraven 1-3, kännetecknad av att anläggningen (1) utförts parallellt med vävens (8) bredd flyttbart i förhållande till bredden. Apparatus (1) according to one of Claims 1 to 3, characterized in that the apparatus (1) is designed to be movable relative to the width of the fabric (8). 5. Anläggning (1) enligt något av skyddskraven 1-4, kännetecknad av att i anläggningen (1) anordnats en tvärbalk (5), på vilken anläggningen lagrats rörligt i vävens (8) breddriktning, samt en drivanordning (6), med vars hjälp anläggningen (1) kan flyttas fram och tillbaka i breddriktningen i förhållande till väven (8). Apparatus (1) according to one of Claims 1 to 4, characterized in that the apparatus (1) is provided with a cross member (5) on which the apparatus is mounted movable in the width direction of the fabric (8) and a drive device (6) moves the fabric (8) back and forth in width. 6. Anläggning (1) enligt något av skyddskraven 1-5, kännetecknad av att atomiseringsanordningen (2) och avstrykningsanordningen (3) planerats så att längdaxlarna av den första och den andra strålen fortsätter i inbördes plank. Apparatus (1) according to one of Claims 1 to 5, characterized in that the spraying device (2) and the sweeping device (3) are designed such that the longitudinal axes of the first and second jets extend at an angle to each other. 7. Anläggning (1) enligt något av skyddskraven 1-6, kännetecknad av att torkanordningen (4) innefattar åtminstone en coloring mot väven (8) för att generera dinergi i form av dormer ventilation, eller för att ier color form av convection. Apparatus (1) according to one of Claims 1 to 6, characterized in that the drying device (4) comprises at least one heat source directed towards the tissue (8) for producing thermal energy in the form of thermal radiation and / or ventilation or convection. Combination of apparatus (1) and fabric (8) of a machine for manufacturing or processing a fibrous web (7), characterized in that the apparatus (1) is an apparatus according to one of the claims 1 to 7. SKYDDSKRAV 8. Combination av enläggning (1) och en väv (8) för en maskin för tillverkning eller behandling av en fiberbana (7);