This application claims priority on Finnish Application No. EP11165406, filed May 10, 2011, the disclosure of which is incorporated by reference herein.
Not applicable.
The present invention relates to a device for applying adhesive in a slitter-winder of a fiber web machine.
In manufacturing lines known from the prior art fiber web making takes place as a continuous process. A fiber web completing in a machine is wound with a reel-up around a reeling shaft i.e., a reel spool, into a machine roll (a parent roll). The purpose of reeling is to modify the web manufactured as planar into a more easily processable form. In the reel-up the continuous process of the machine breaks for the first time and shifts into periodic operation. This periodicity is tried to be made with efficiency as good as possible in order not to waste already done work in earlier process stages.
The machine roll web produced in fiber web making is full-width so it must be slit into partial webs with suitable width and the partial webs are wound to partial web
rolls (customer rolls) with suitable length and diameter for the customers. The slitting and winding take place as known from prior art in an appropriate separate machine, i.e. in a slitter-winder.
As known from the prior art, in the slitter-winder the machine roll is unwound, the wide web is slit on the slitting section into several narrower partial webs, into at
least two partial webs, which are wound up on the winding section around winding cores, such as spools, into customer rolls. When the customer rolls reach a desired length and diameter the partial webs are cut in the cross-direction. Tails of the partial webs are attached to the surfaces of customer rolls by applying adhesive to the surface of the fiber web, which adhesive then attaches the tails to the surface of the customer rolls. When the customer rolls are completed, the slitter-wider is stopped and the rolls, i.e. the so-called set, is removed from the slitter-winder after which the process is continued with the winding of a new set. These stages are repeated periodically until paper runs out of the machine roll, whereby the machine roll change is performed and the operation starts again.
It is known from prior art to apply adhesive for attaching the tail of the fiber web to the surface of the customer roll by means of a device traversing in the transverse direction of the running direction of the web. In publication GB 2061234 an adhesive applying apparatus is described in which adhesive is introduced while the web is moving and an adhesive stripe substantially in the transverse direction of the running direction of the web is applied.
WO publication 2008/148937 describes an apparatus for applying adhesive onto a moving web, containing an application head provided in connection with a support structure extending essentially in the transverse direction across the web, the support structure comprising a guide extending across the web into which the application head has been disposed movably, and the application head has been arranged to form onto the surface of the web an adhesive stripe essentially in the transverse direction in relation to the web running direction while the web is moving. This prior art apparatus comprises means for changing the movement direction of the application head during the application of adhesive and/or that the application apparatus includes means for changing the movement speed of the application head during the application of adhesive. According to one embodiment of this prior art apparatus it comprises more than one application head and in
Even though the above apparatus has in most cases proven to be well functioning it is not suitable in all cases and it is problematic in particular in connection with narrow machines. In connection with narrow machines the space requirement in the width direction is more than is available and thus in prior art two separate, staggered support structures have been used.
The device for applying adhesive in a slitter-winder has typically been located underneath the web and under the slitter-winder between carrier beams. In an operation situation when adhesive is applied, high movement speed of the adhesive nozzle is needed which leads to a need of high acceleration speed.
An object of the present invention is to provide for an improved device for applying adhesive in a slitter-winder of a fiber web machine which has a simple structure and in which the movement speed required for applying adhesive is reliably reached.
A further object of the present invention is to provide a device for applying adhesive in a slitter-winder of a fiber web machine in which the disadvantages of the prior art are eliminated or at least minimized.
A further object of the present invention is to provide the effect of fast acceleration and the effect of reliable adhesive applying in which the supply of adhesive between nozzles is changeable such that only one nozzle is supplying adhesive at a time.
In view of achieving the objects stated above and those that will come out later the device for applying adhesive in a slitter-winder of a fiber web machine in accordance with the invention has two adhesive nozzles that are attached to the same moving element such that the nozzles are spaced apart in the cross-direction in relation to the running direction of the web.
In the device according to the invention there are two adhesive nozzles that are attached to the same moving element such that the nozzles are spaced apart. The moving element is movable along the support structure that extends over the partial webs in the cross-direction in relation to the running direction of the web. Advantageously the nozzles are attached symmetrically in respect to the middle line of the moving element and extending to opposite directions such that they are spaced apart.
According to an advantageous embodiment, the distance between the spaced apart nozzles in the cross-direction is calculated by the formula D=2(A+B−C), in which:
In home position, i.e. in the position where the device is located for beginning to apply the adhesive, one nozzle extends to the opposite direction in relation to the
movement direction of the moving element a distance, that provides the time needed to accelerate the speed to adhesive applying speed before the start point of adhesive applying, if the distance is enough for accelerating the device to the desired adhesive applying speed or, if the distance is too short, the adhesive applying may be started during the accelerating phase. At least at the end of applying the adhesive the second nozzle is used since the first nozzle does not reach all the way to the end.
The adhesive supply for each nozzle is controlled advantageously such that the supply is provided mainly for the nozzle that is in use. The change of using the other nozzle instead of the one used can be at any location before the end length of adhesive applying that is not reachable by the first nozzle. Advantageously the change point is located in the middle part of the adhesive applying length. During the change phase adhesive is supplied to both nozzles for the time corresponding to that of the distance between the nozzles or the supply is alternated between the nozzles during the change phase, for example for the time corresponding to that of the distance between the nozzles. The adhesive supply can be continuous or discontinuous.
By the invention the space needed for the device for applying adhesive in a slitter-winder of a fiber web machine is reduced and only one support structure is needed.
In the device of the invention is a new technical effect achieved by the new construction of nozzle arrangement which provides for a movement length for accelerating the nozzle in to the adhesive applying speed without extending the support structure for providing further movement space for the movement element of the nozzle. By the inventive arrangement extra movement space is created without needing more space for the actual device. The device according to the invention is suitable for use both in situations when the adhesive is applied while the web is moving and in situations when the adhesive is applied while the web run is stopped.
In the following the invention is discussed in more detail by reference to figures of the accompanying drawings.
In the following description the same reference signs designate similar components unless otherwise mentioned. It should be understood, moreover, that the examples are susceptible of modification in order to adapt to different usages and conditions within the frames of the invention. In the following example the invention is explained in reference to a slitter-winder with a two-drum winder but it should be understood that the invention is as well applicable in connection with slitter-winders with a different type of winder for example with a center wind-up or a multistation winder.
As shown in
Advantageously the nozzle heads 33N, 34N are attached by the nozzle arms 33A, 34A symmetrically in respect to the middle line of the moving element 32 and extending to opposite directions such that they are spaced apart. The distance (also
D is the distance between the nozzles
A is the distance from the center line of moving element to maximum trim (=maximum location of the edge of the outer most partial web)
B is the acceleration distance from 0 speed to adhesive applying speed
C is the distance of non adhesive area at the edge of the web.
In home position, i.e., in the position where the nozzles 33, 34 of the device 30 are located for beginning to apply the adhesive, one nozzle, nozzle 34 in the example of
speed of the moving element 32 to adhesive applying speed before the start point of adhesive applying, at the edge of the outermost partial web. The moving element 32 moves the nozzles 33, 34 across the partial webs WP in the cross direction and adhesive is applied by the nozzles on the partial webs. At least at the end of applying the adhesive the second nozzle 33 is used since the first nozzle 34 does not reach all the way to the end. The adhesive applying to one nozzle 34 to the other nozzle is changed at a desired point of the movement of the nozzles 33, 34 in the cross-direction of the partial webs. The change to using the second nozzle instead of the first one used can be at any location before the end length of adhesive applying that is not reachable by the first nozzle 34. The adhesive supply 29 for each nozzle 33, 34 is controlled by a controller 36 advantageously such that the supply is provided mainly for the nozzle 33, 34 that is in use or adhesive is supplied during the change phase to both nozzles for the time corresponding to that of the distance between the nozzles or the supply is alternated between the nozzles during the change phase for example for the time corresponding to that of the distance between the nozzles. Advantageously the change point is located in the middle part of the adhesive applying length. The adhesive supply 29 can be continuous or discontinuous.
In
In
D is the distance between the nozzles 33, 34
A is the distance from the center line of the moving element 32 to maximum trim of the web W (=maximum location of the edge of the outermost partial web)
B is the acceleration distance from 0 speed to adhesive applying speed
C is the distance of no adhesive area at the edge of the web W.
Above the invention has been described with reference to some preferred exemplifying embodiments of the same only, and the invention is, however, by no means to be strictly confined to the details of said embodiments and many modifications and variations are possible.
Number | Date | Country | Kind |
---|---|---|---|
11165406 | May 2011 | EP | regional |