NO154555B - papermaker PATH - Google Patents

Description

The invention relates to an articulated web, and more particularly a paper machine web comprising several helical windings of a thermoplastic material arranged in a mutually cooperating position next to each other to form an articulated web.

An articulated track of this general type is described in DE-AS

24 19 751, while an improved design of such a track is described in British patent no. 2,051,154B.

Articulated webs of the above-mentioned type, where adjacent windings in the webs are usually connected to each other by means of hinge wires that cooperate with the interwoven windings, are intended to be used as support structures in connection with papermaking machines and similar machines. The extent of their use in this connection, however, seems to be limited based on the high degree of permeability of the web, the inherent permeability of the web itself significantly exceeding what is required for certain paper machine drying web applications and making the web in itself unsuitable for these applications.

It has been proposed to reduce the permeability of an articulated web by introducing yarns into the space within a given winding and between the opposite turns of the windings which occur on either side of a given winding and which are interlaced with it, but this proposal has proved unsatisfactory as difficulties have arisen when placing a sufficient mass of yarn in the space and over the full axial extent materially speaking to effect a permeability.

The purpose of the present invention is to provide

an articulated fabric track construction with a significantly lower permeability than the inherent permeability of the articulated track itself and with a weight per unit area not significantly different from that of such articulated tracks.

According to the present invention, it is provided

an articulated web of the initially mentioned type which is characterized by a strip or strips of tape-like material arranged in at least some of the respective spaces in each winding where the strips are freely movable therein.

According to a preferred feature, the windings are of a flattened shape, the smaller inner dimension being smaller than the space between opposite bends of the respective windings which cooperate with a given winding on each side.

According to a further preferred feature, the strip or each strip is designed with a width at least equal to the inner dimension of the winding measured in a direction perpendicular to the plane of the structure.

Preferably, the strip or each strip is designed with

a width approximately equal to, but less than, the distance between the opposite meanders.

According to a further preferred feature, the tape has a heat-reflecting surface on at least one side.

Typical tape-like strips include the above-mentioned reflective strip, a monofilament polyester or other flat-shaped yarn where the width/thickness ratio is on the order of 2 or more to 1, or a split film tape where the width/thickness ratio is approx. 75:1. The tape can be completely impermeable or can be of a braided form and therefore with limited permeability.

In the following, the invention will be described in more detail with help

of exemplary embodiments shown in the drawing, which show two possible embodiments. The drawing shows: Fig. 1 is a plan view of an articulated track structure according to the invention, fig. 2 a sectional view of the embodiment in fig. 1 on a larger scale,

and

fig. 3 an end view of a part of the joint track construction on

fig. 1, shown on a larger scale.

The drawing shows an articulated track comprising several individual helical windings 11 which are arranged in an interlaced position next to each other and which are connected to each other by means of respective hinge wires 12 which are threaded through the inner interlaced windings of the adjacent windings. The windings 11 are formed from a synthetic thermoplastic monofilament material, and this also applies to the hinge wires 12, and the joint web so far is manufactured in accordance with that set out in British Patent No. 2,051,154B, to which reference is made for further details.

According to the present invention, each winding i

the articulated web, as stated above, designed with a respective moisture-impermeable band-like element 13, which band-like element 13 is placed in the space 14 in a given winding that exists between the opposite meanders 15, 16 to the turns in the winding, which meanders exist on both sides of the given winding and in cooperation with this. The longitudinal edges of the articulated web are sealed to retain the strips in the respective windings.

In a typical example, the windings are made from a monofilament yarn with a diameter of 0.7 mm and the largest and smallest dimensions for the flattened inner shape of the winding are respectively 6 mm and 1 mm. The strip-like element 13 comprises a metallized plastic film strip which is approx. 3 mm wide.

In the particular example shown, at least one side of the strip is metallized, but the surface properties of the strip

will be determined based on the special requirements for the use of the joint track structure, i.e. for the special joint track as well as the belt-like elements, be it in the area of paper machine cloths or otherwise. The thickness of the strip is not believed to be critical in any way, provided the strip is given a strength that is suitable

to enable satisfactory introduction of the strip into the room, e.g. when pulling a length of e.g. 10 meters in the longitudinal direction of the winding.

Experiments have shown that by means of the tape-like elements proposed here, one is able to reduce the permeability of an articulated web, as measured on a "Frazier Standard Air Permeability Testing Machine" from e.g. 16,000 m<3> per square meters per hour at 100 pascal pressure difference to e.g. 3,200 m<3> per square meters per hour by the same difference, thereby providing a structure with a permeability suitable for that of a drying web for a high speed newsprint machine.

Appropriately, the band-like element has a width in excess of the smaller dimension for the winding and approximately to the separation between the bends 15,16 and the band is introduced flat, as shown in fig. 3, and extends in continuous form throughout the axial extent of the winding. While generally the width of the strip will be at least 1.25 times the smallest inner diameter of the winding, it may seem appropriate in some cases that the strip has a width that roughly corresponds to the smaller inner diameter of the winding and that the strip is easily twisted around the longitudinal axis. If desired, strips can be arranged next to each other in each room. As an alternative to having the strip(s) extend continuously throughout the entire axial extent of each winding, short strips having a length substantially less than the full axial extent of the winding may be arranged in spaced end-to-end placement in the winding , or the strips (or several strips) may be arranged in connection with only some of the windings.

The invention is not limited to the application to windings with a flattened shape, as shown in fig. 3, and can also be used in connection with windings with a circular or oval cross-sectional shape, the strips suitably having a width that extends in contact with the inner surface of the winding with the longitudinal edges in contact with the surface of the respective bends where these cross the inner surface of the winding.

It has been observed that by placing the strip in the form of a colored element, so as to give color to the fabric, a color-coded permeability property can be introduced. In an alternative arrangement, the strip has such a cross-sectional dimension that it is able to move either as a translational movement or a rotational movement in the direction of the smaller inner dimension of the windings, such a movement being used to control the flow of air through the fabric .

Claims (11)

1. Paper machine web comprising several helical windings (11) of a thermoplastic material arranged in mutually cooperating position next to each other to form an articulated web, characterized by a strip (13) or strips of strip-like material arranged in at least some of the respective spaces ( 14) in each winding (11) where the strips (13) are freely movable therein. 2. Paper machine web according to claim 1, characterized in that the windings (11) are of a flat shape, the smallest inner dimension for these being smaller than the distance between opposite bends (15,16) in the respective windings which interact with a given winding on each side of this. 3. Paper machine web according to claim 1 or 2, characterized in that the strip (13) or strips have a width at least equal to the inner dimension of the winding (11) measured in a direction normal to the plane of the web. 4. Paper machine web according to claim 3, characterized in that the strip (13) or strips have a width corresponding to at least 1.25 times the mentioned inner dimension of the winding (11). 5. Paper machine web according to one or more of the preceding claims, characterized in that the strip (13) or strips have a width approximately equal to the distance between the opposite meanders (15,16). 6. Paper machine web according to one or more of the preceding claims, characterized in that only a single strip (13) is arranged in a respective winding (11). 7. Paper machine web according to one or more of the preceding claims, characterized in that at least one strip (13) is arranged in each respective winding (11). 8. Paper machine web according to one or more of the preceding claims, characterized in that the strip (13) or strips arranged in a respective winding (11) runs or collectively runs through the entire longitudinal length of this winding. 9. Paper machine web according to one or more of the preceding claims, characterized in that each strip (13) is impermeable to moisture. 10. Paper machine web according to one or more of the preceding claims, characterized in that each strip (13) is metallized to provide a reflective property. 11. Paper machine web according to one or more of the preceding claims, characterized in that the ratio between width and thickness for each strip (13) is in the range between 2:1 and 75:1.