Device and method for manipulating a fibrous web
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65H-020/14
D21G-009/00
출원번호
US-0994285
(2016-01-13)
등록번호
US-9890007
(2018-02-13)
우선권정보
FI-20150012 (2015-01-14)
발명자
/ 주소
Laitio, Juha
Nieminen, Markku
출원인 / 주소
TAKSO Software Ltd
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
The invention relates to a device and a method for manipulating a fibrous web (10). The device comprises at least one blower (21A, 21B) provided with a flow-preventing element (24A, 24B) which is arranged to produce at least one blow (26A, 26B) substantially in the direction of the fibrous web (10),
The invention relates to a device and a method for manipulating a fibrous web (10). The device comprises at least one blower (21A, 21B) provided with a flow-preventing element (24A, 24B) which is arranged to produce at least one blow (26A, 26B) substantially in the direction of the fibrous web (10), and a friction element (28) against which the fibrous web (10) is arranged to be pressed at least partially from the effect of said blow (26A, 26B) and flow-preventing element (24A, 24B) to apply a friction force resisting the motion of the fibrous web (10) to the fibrous web (10). According to the invention, the blow (26A, 26B) is directed substantially away from the friction element (28) and the friction element (28) comprises a surface profile which is arranged such that, from the effect of said at least one blow (26A, 26B), a continuous vacuum is created on the surface of the fibrous web (10) on the side of the friction element (28). Due to its intensified friction effect, the device according to the invention is applicable especially for board and, by means of it, it is possible to form e.g. an air cutting device in the tail-threading section of a board machine.
대표청구항▼
1. A device for cutting a fibrous web in motion along a motion direction, which device comprises a first blower provided with a first flow-preventing element, said first blower made to produce a first blow from one or more first outlet openings, the first blow having a blow direction substantially o
1. A device for cutting a fibrous web in motion along a motion direction, which device comprises a first blower provided with a first flow-preventing element, said first blower made to produce a first blow from one or more first outlet openings, the first blow having a blow direction substantially opposite to the motion direction of the fibrous web, said first flow-preventing element comprises a first flow-preventing plate located at least partially at an angular position in relation to the travel direction of the web,a second blower provided with a second flow-preventing element to produce a second blow from one or more second outlet openings, the second blow having a second blow direction substantially in the direction of the motion direction of the fibrous web, said second flow-preventing element comprises a second flow-preventing plate located at least partially at an angular position in relation to the travel direction of the web,a friction element against which the fibrous web is arranged to be pressed at least partially due to the effect of said blows and flow-preventing elements due to the Coanda effect which causes a force component directed at the fibrous web perpendicular to a plane of the fibrous web to press the web against the friction element to apply a friction force to the fibrous web, the friction force resisting the motion of the fibrous web and decelerating the fibrous web, whereby the first and second blows are adapted to cut the decelerated fibrous web,whereby the friction element is located between the first and the second blower, whereby the blows are directed substantially away from said friction element such that at least a majority of the friction element is located on the backside of a plane defined by the outlet openings and the blow direction of each blow, andthe friction element comprises a surface profile which deviates from a planar one and due to the effect of said blows and flow-preventing elements, a continuous underpressure is provided on the surface of the fibrous web on the side of the fibrous web that faces the friction element even when the fibrous web contacts the friction element during said pressing. 2. A device according to claim 1, wherein the surface profile is arranged such that said first and second blows create a continuous underpressure between the fibrous web and the friction element. 3. A device according to claim 1, wherein the surface profile comprises several projections against which the fibrous web is arranged to be pressed, whereby an air channel remains between the fibrous web and the surface profile for maintaining said underpressure. 4. A device according to claim 3, wherein said projections are arranged on the friction element in two dimensions. 5. A device according to claim 1, wherein the whole friction element is located on the backside of a plane defined by the outlet openings and the blow direction of each blow. 6. A device according to claim 1, wherein said first and second blowers comprise a common air-supply channel and said friction element is arranged substantially between the common air-supply channel and the fibrous web. 7. A device according to claim 1, wherein said first and second blowers are arranged to produce blows substantially equal in strength. 8. A method for manipulating a fibrous web in a tail-threading section of a fibrous-web machine, the method comprising conveying the fibrous web in the vicinity of a first blower and a second blower, each of said blowers provided with one or more openings and a flow-preventing element, wherein the flow preventing elements comprise a first flow preventing plate and a second flow preventing plate each located at least partially at an angular position in relation to the travel direction of the web, such that the first and second blows produced by the first and second blowers from said openings create a force component perpendicular to a plane of the fibrous web to the fibrous web, whereby the first blower is arranged to produce the first blow at least mainly opposite to the motion direction of the fibrous web and the second blower the second blow at least mainly in the direction of the motion direction of the fibrous web, andapplying a friction force resisting motion of the fibrous web to the fibrous web by a friction element which is located between said first blower and second blower in the motion direction of the fibrous web, whereby the blows of the blowers are directed substantially away from said friction element such that at least a majority of the friction element is located on a backside of a plane defined by the outlet openings and the start direction of each blow, and whereby the blows cause together a continuous underpressure on the surface of the fibrous web facing the friction element at least partially due to the Coanda effect whereby the friction force decelerates the fibrous web and said first and second blows cutting the fibrous web for tail-threading,and using as said friction element an element which has a surface profile deviating from a planar one.
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