Textiles: weaving – Fabrics – Drier felts
Reexamination Certificate
1999-10-29
2001-12-11
Falik, Andy (Department: 3765)
Textiles: weaving
Fabrics
Drier felts
C442S203000, C139S413000, C139S3830AA, C297S468000, C280S801100
Reexamination Certificate
active
06328077
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a belts for use on conveyors, treadmills, and the like, and more particularly to an interwoven belt fabric for use in such belts.
2. Background Art
Endless belts are typically formed by joining opposite ends of a section of belt material and used in a number of different applications. One commonly known application for such endless belts is in physical exercise equipment such as treadmills, as well as in various material handling applications such as check-out counters in stores, and the like.
In a treadmill used for physical exercise, a motor driven belt extends over a flat running deck. The typical treadmill belt consists of woven material provided with a top layer of polyvinyl chloride or the like. Since the woven belt material forming the bottom surface of the woven belt is forced into contact with the top surface of the running deck by the weight of the person using the exercise equipment, the belt preferably has specific characteristics such that the belt has a low coefficient of friction with the deck, has a consistent stability when under load, produces a minimum noise and provides enhanced performance with the addition of lubricants between the surface of the deck and the belt.
The type of fabric used, to a very large extent, determines certain characteristics of the belt, such as the coefficient of friction, ability to dissipate heat, ability to absorb lubricants, stability, and noise generation. Typically, in prior art belts, the quieter belts have a higher coefficient of friction and belts made with a multi-filament warp yarns (i.e., yarns with long staple lengths) tend to have a lower coefficient of friction than spun warp yarns (i.e., yarns with short staple lengths). Furthermore, treadmill belts made with a typical plain weave fabric using multi-filament warp yarns and monofilament fibers in the weft generally have a relatively low coefficient of friction, but generate a relatively high level of noise.
In a typical prior art plain weave fabric, multi-filament warp yam is alternately woven over and under a series of adjacently disposed monofilament weft fibers. In one prior art belt fabric, referred to as a one-by-three whisper weave-broken twill fabric, a multi-filament warp extends over one monofilament weft and under three monofilament wefts. Another prior art belt fabric, referred to as an interwoven fabric, has a layer of upper monofilament weft yarns and a layer of lower monofilament weft yarns. The two layers are separated by a light dernier yarn and each of a plurality of multi-filament warp binder yarns extend under one of the lower monofilament weft yarns and over an adjacent upper monofilament weft yarn.
A problem with the prior art one-ply plain weave and whisper weave belts, when used in a treadmill belt or the like, is that they lack the desired stiffness required under various loads and at various speeds. When such materials are used, a two ply belt is typically required to obtain the desired stiffness. However, two ply belts are considerably more expensive to produce than single ply belts. For example, the manufacture of a two layer belt may require as many as five passes through a belt making machine, one for the inner layer, one for the cover and three for the glue layers.
Prior art interwoven fabrics are generally considered to be undesirable for use in belts, because belts made of such fabrics are relatively noisy and the fabric typically has to be saturated with a plastic material to prevent the weft yarns from migrating out of the side of the belt.
Treadmill belts typically are operated at a higher speed than standard conveyer belts used for material handling and are typically subjected to greater concentrated loads as a result of the running action of a person on the belt. Hence, treadmill belts must be relatively stiff, particularly in the lateral direction. Such stiffness is generally obtained in prior art belts by making a thicker one-ply belt or by using two-ply belts.
Prior art one-ply and two-ply belts are comprised of a single layer of fabric or a double layer of a fabric, respectively, and a top cover layer of rubber or vinyl, or the like. The majority of such belts use monofilament yarns in their weft since material of that construction typically provides a relatively stable belt that lays flat, does not bunch up, and tracks straight. Generally, thicker belts are more stable than thinner belts and two-ply belts are more stable than one-ply belts.
However, thicker belts are typically relatively heavy and stiff in the longitudinal direction, thereby presenting a relatively higher load to the electric motor used to drive the belt. The higher load to the motor requires that a larger, more expensive motor be used which typically draws more current, all of which adds to the cost of the equipment and its operation. Therefore, a light weight, highly flexible, low friction belt is clearly desirable for applications such as treadmills. Furthermore, treadmill belts are subjected to much greater speed variations than standard conveyer belts. Hence, a belt for use in a treadmill application must be stable at high speeds as well as at low speeds.
To reduce power consumption and the generation of heat, it is desirable to reduce friction between the belt and the running deck. Hence, belts with a low coefficient of friction are preferred. Additionally, lubricants are often applied between the belt and the running deck to further reduce friction. A lubricant such as paraffin wax, Teflon®, or solventless silicone is commonly used to reduce friction between the belt and the deck. In order for a lubricant to be used effectively, however, the belt must be able to absorb a certain amount of the lubricant. Certain prior art plain weave and interwoven belts having monofilament yarns in their weft, have the desirable properties that they tend to lay flat, do not bunch up, and track straight. However, such belts do not absorb or hold lubricants well.
SUMMARY OF THE INVENTION
These and other disadvantages of the prior art are overcome in accordance with this invention by a belting fabric that comprises a plurality of adjacently disposed couplets of weft yarns forming an upper layer of weft yarns and a lower layer of weft yarns. In a plurality of warp yarns, each warp yarn extends over at least one of the couplets of weft yarns in the upper layer and under at least two of the adjacently disposed couplets of weft yarns in the lower layer so that the warp yarns extend under more couplets in the lower layer than extend over couplets in the upper layer.
In one embodiment of the invention, the plurality of warp yarns comprises three separate warp yarns. In another embodiment, each of the warp yarns extends over one of the couplets of weft yarns and under two of the couplets of adjacent weft yarns. In yet another embodiment, the plurality of warp yarns comprises four separate warp yarns and each of them extends over at least one couplet of weft yarns and under at least three adjacently disposed couplets of weft yarns.
Preferably, the weft yarns are monofilament yarns having a diameter less than 0.3 mm. In another aspect, the weft yarns are monofilament yarns having a diameter less than 0.5 mm. In another aspect, the weft yarns are 1000 denier yarns. Moreover, the belting fabric can further have a standard light denier yarn extending between the upper layer and the lower layer.
In another aspect, the invention is a method of making a belting fabric by first arranging a plurality of couplets of weft yarns adjacent one another, and weaving a first warp yarn over a first couplet of weft yarns and then under second and third couplets of weft yarns, adjacent to the first couplet. In another step, a second warp yarn is woven over a second couplet of weft yarns and under third and fourth couplets adjacent to the second couplet. In yet another step, a third warp yarn is woven over a third couplet of weft yarns and under fourth and fifth couplets adjacent to the third couplet.
In another embodime
Falik Andy
MOL Belting Company
Rader, Fishman, Grauer & McGarry, An Office of Rader, Fishman &
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