Textiles: knitting – United needle machines – Straight
Reexamination Certificate
2000-08-16
2001-04-10
Worrell, Danny (Department: 3741)
Textiles: knitting
United needle machines
Straight
C066S209000
Reexamination Certificate
active
06212915
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a warp knitting machine having a flexible thread sheet turning arrangement upstream of the guides in which a turning element stretching across the entire working width is carried by springs, one end of which is attached to the machine frame.
2. Description of Related Art
The purpose of the springs holding the turning element is to maintain the tension of the threads in the thread sheet during stitch formation notwithstanding changes in the thread input speed. In particular, in the knockover of stitches, a sudden freeing of a thread segment occurs. This leads, in particular at higher input speeds and/or under higher operating speeds, a marking in the finished goods known as “water spots”. The known springs are made of steel. They are made as leaf springs or as leg springs with many windings between the legs.
An object of the present invention is to provide a warp knitting machine of the known art, which can operate at high operating speeds and/or higher thread input speeds to produce goods without errors. This task is solved by the present invention in that the springs are formed as leaf, packages comprising at least two super-imposed leaf springs affixed at one end thereof.
SUMMARY OF THE INVENTION
In accordance with the illustrative embodiments demonstrating features and advantages of the present invention, there is provided in a warp knitting machine having a machine frame and at least one plurality of guides, a flexible sheet turning arrangement located in a thread path upstream of the guides. The arrangement includes a set of springs having proximal ends supported on the machine frame, and free distal ends. The set of springs has a package with at least two leaf springs placed on top of each other and joined at their proximal ends. Also included is a turning element running the full width of the machine and attached to the free distal ends of the set of springs.
In accordance with another aspect of the present invention, another flexible sheet turning arrangement is again provided in the thread path upstream of the guides in a warp knitting machine having a machine frame and at least one plurality of guides. The arrangement has a set of springs with proximal ends supported on the machine frame, and free distal ends. At least one of the springs is made of a material having a greater internal coefficient of friction than steel. Again, a turning element runs the full width of the machine and is attached to the free distal ends of the set of springs.
According to yet another aspect of the present invention, another flexible sheet turning arrangement is again provided in the thread path upstream of the guides in a warp knitting machine having a machine frame and at least one plurality of guides. The arrangement has a set of springs with proximal ends supported on the machine frame, and free distal ends. The springs are laid to provide such a level of damping that the damping coefficient &dgr; is
δ
=
1
T
d
·
(
ln
y
^
i
y
^
i
+
1
)
>
2
wherein T
d
is the period and ŷ ;
i
, ŷ ;
i+1
are the neighboring amplitudes of damped oscillations. Again, a turning element runs the full width of the machine and is attached to the free distal ends of the set of springs.
With such arrangements the springs can be made so that during the swinging step, an outer friction action occurs between the superimposed leaf springs, which has a damping effect. The damping of the mass inhibited spring system impedes excessively strong swing amplitudes. The system is thus able to follow rapid changes in the thread tension. By an appropriates selection of the damping one may ensure that the thread tension is never too small, or never reaches null point. This effect is particularly apparent when during the stitch knockover, a particular thread segment is suddenly freed.
Optimally the packet comprises three superimposed leaf springs.
In the preferred embodiment it is provided that one leaf spring in the package is connected to the turning element and is supported by at least one leaf spring of shorter length. This gives rise to extraordinarily strong damping.
Another solution for the specified task, which can be used at the same time as the previously described solution, comprises a structure wherein the springs are made of a material having a higher internal friction factor than steel. The spring material itself can therefore, be utilized for increased damping.
Desirably the springs are made of a material comprising fibers bound by synthetic material The deformations occurring during the swinging motion cause an inner friction between the fibers, that is to say, between the fibers and the synthetic material Additionally the material is lighter than steel and thus, accelerates and decelerates a smaller mass, which equally simplifies the correlation with the thread tension.
It has been found useful to extend the fibers in the axial direction (longitudinal or lengthwise) of the spring. These threads are all subject to deformation and thus, on the one hand, operate as springs and on the other hand, as dampers.
There is no limitation on the materials that may be used as fibers as long as the mechanical requirements are sufficient. Included in this group are glass fibers. Particularly desirable however, are carbon fibers which are both stable and are also grown in a rough operation.
It is further advantageous that the springs are made of a prepreg material (fibers impregnated with a material which will heat cure) which is baked in a mold. Such springs may be provided with the desired conditions by selection of the appropriated mold. By heating the prepreg materials in a baking process the synthetic material cures and so achieves the desired state. Further solutions of the posed tasks resulting therefrom that the springs are provided with such a strong damping that their damping coefficients for &dgr; may be:
δ
=
1
T
d
·
(
ln
y
^
i
y
^
i
+
1
)
>
2
wherein T
d
is the time of swing and ŷ ;
i
and Y
i+1
are neighboring amplitudes of the dampened swinging.
The best results are achieved with relatively high damping values. Thus, it is desirable that the damping coefficient should be at least 20, preferably at least 30, and optimally between 35 and 40.
As further measures, it is desirable that the resonant frequency of the springs be at least 100 Hz. Such a frequency lies substantially outside the range of operational frequencies under present consideration so that there is no danger of resonant swinging.
It is advantageous to provide the turning element as an open walled pipe through a side of which the free ends of the springs are introduced into the inner surface of the pipe. Such a pipe, in particular when it has a circular cross-section, can provide the desired stiffness with relatively small mass. Because of the small mass, the tubular turning element can react more rapidly to the tension changes in the thread sheet. One is thus able to operate at higher working speeds, or higher thread feed speeds, or both. The wall opening need only be as large as the cross-section of the springs since during operation when the thread sheet presses against the springs, comparatively small clamping and locking forces are required to obtain a secure combination. Equally, such a combination may be readily taken apart, In this connection is desirable that the free end of the spring comprises a canted and partially somewhat cylindrical support piece, which matches the internal curvature of the pipe. This gives rise to a secure, but nevertheless a loosenable combination.
It is particularly desirable that the diameter of the pipe be about 8 mm and the wall thickness be about 2 mm. Such a pipe is sufficiently stable, but also of low mass.
REFERENCES:
patent: 2667772 (1954-02-01), Hepp
patent: 2699051 (1955-01-01), Noe
patent: 2844950 (1958-07-01), Trumpio
patent: 3412583 (1968-11-01), Hachnel
patent: 3828586 (1974-08-01), Kohl
patent: 2061908 (1972-
Behr Omri M.
Karl Mayer Textilmaschinenfabrik GmbH
Worrell Danny
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