[0001] The present invention relates to a new and improved apparatus for eliminating metallic
contaminations from a fibre transporting duct in spinning preparation, within which
duct fibre flocks are transported by an air stream.
[0002] Fibre bales very often contain metallic objects which are pressed into such bales
in the form of contaminations which are undesirable during spinning preparation. In
modern spinning plants where bale opening is effected mechanically and fibre transport
to the individual opening and cleaning machines is effected pneumatically within fibre
transporting ducts, the detection and elimination of such metallic objects proves
extremely difficult. Furthermore, waste fibres, which are re-processed, also often
contain metallic contaminations. Additionally, metallic objects can enter the fibre
transporting stream due to personnel negligence.
[0003] The mentioned metallic objects or the like present a great danger for the plant inasmuch
as they can generate sparks and thus can cause fires. Also they can damage the transporting
fans or the subsequently arranged processing machines. Therefore, attempts have been
made to eliminate metallic objects from the fibre transporting ducts.
[0004] According to a device which has become known in practise two magnetic plates are
arranged in a bend of the duct. These magnetic plates are offset with respect to one
another in such a manner that metallic objects not caught by the first plate impact
the second plate and adhere thereto. The magnetic plates can be pivotably opened for
eliminating the metallic objects. This prior art device, however, presents serious
disadvantages. Thus, only magnetic metal objects are held back while all other metallic
objects such as, for instance, aluminium, are not eliminated. Furthermore, it can
happen that magnetic metal objects can be transported between the plates without being
caught.
[0005] It is a primary objective of the present invention to avoid these disadvantages and
to devise an apparatus for eliminating all types of metals down to the smallest particle
size.
[0006] This objective is achieved by means of the inventive apparatus for eliminating metallic
contaminations from a fibre transporting duct in spinning preparation, through which
duct there are transported fibre flocks by means of an air stream, characterized by
the features that at a branching point of the transporting duct leading to a waste
duct there is pivotably arranged deflecting means operatively connected with and activated
by a drive mechanism. The deflecting means are activated in response to the passage
of a metallic object or other metallic contaminations through a section of the fibre
transporting,duct surrounded by a metal detector arranged upstream of the branching
point, by means of a control device connected with a power source and the drive mechanism.
Within a short time the deflecting means can be shifted from an idle or ineffectual
position, in which the transporting duct is open and the waste duct is maintained
closed, into a working position, in which the transporting duct is closed and the
waste duct is maintained open.
[0007] According to an advantageous embodiment of the inventive apparatus a double flap
can be provided as the deflecting means and an electro-pneumatic valve can be provided
as the control device. The control device can be connected with a source of compressed
air serving as the power source and with a pneumatic cylinder serving as the drive
mechanism. The distance between the metal detector and the transporting duct branching
point can be chosen of such length that the transporting time required for transporting
the fibre flocks from the metal detector to the transporting duct branching point
exceeds the switching time of the double flap from its idle position to its working
position. At a fibre flock transporting speed of 10 m/sec the distance from the metal
detector to the branching can be in the range of 3m at the best. It can prove advantageous
to provide an air permeable waste collecting recipient at the end of the waste duct.
[0008] Some of the more notable advantages attained by the invention is that it is possible
to positively eliminate all types of metallic contaminations from the fibre transporting
duct, even down to the smallest size metallic particles or contaminants. Textile equipment
located downstream of the fibre transporting duct is therefore effectively safeguarded
against damage. Further, the system can be easily adapted to different transporting
speeds of the fibre flocks moving through the fibre transporting duct without impairing
its detection capability. With the use of extremely simple means it is possible to
effectively by-pass the metallic contaminants into a waste receptacle or the like
following detection thereof upstream of a branching point or branching portion of
the fibre transporting duct. Equally, any potential fire hazards which might be caused
by the metallic contaminations can be detected early enough to safeguard thereagainst,
and even if the metallic contaminations cause burning of the fibre flocks the same
can be eliminated from the fibre transporting duct, again safeguarding any downstream
arranged textile equipment from becoming damaged.
[0009] The invention will be described in greater detail hereinafter with reference to an
exemplary embodiment illustrated in the single figure of the drawing. This figure
schematically shows a fibre transporting duct equipped with the metal eliminating
apparatus constructed according to the teachings of the present invention.
[0010] Describing now the drawing, a fibre transporting duct 1 contains a branching element
or branch portion 2 at a branching point of the duct 1 and which is connected with
the continuation of such duct 1 and with a waste duct 3. The waste duct 3 leads via
an air-mover 4 to a waste recipient or container 5 which is provided with small openings
6 at least in its upper portion. In the branching element 2, the cross-section of
which preferably is rectangular, there is arranged a double flap defining deflecting
means and which contains two plates 7 which are essentially parallel to the upper
and lower duct,wall. The double flap composed of the two plates 7 is pivotable about
hinges 8 or equivalent pivot means. These plates 7 are interconnected by means of
a rod 10 which, in turn, is supported on hinges 9. At the upper hinge 9 there is provided
a tension spring 11, whereas the lower hinge 9 is connected via a piston rod 12 with
a fluid operated, for instance, compressed air cylinder 13.
[0011] Upstream of the branching element 2 defining a branching point of the system there
is arranged a metal detector 14 on the duct 1. A control means or part 15 of the metal
detector 14 is connected via a circuit 16 with an electro-pneumatic valve 17. The
valve 17, which is connected via a duct 18 with a suitable source of compressed air
19, is connected via a duct 20 and a branching duct or branch line 21 with the compressed
air cylinder 13 and by means of a branching duct or branch line 22 is connected with
the air-mover 4. The compressed air cylinder 13 is pivotably hinged on a hinge 23.
[0012] During operation an air-stream which transports fibre flocks is sucked through the
duct 1 in the direction of the arrows 24, for instance by means of a fan which has
not been particularly shown.
[0013] The extension (not shown) of the duct 1 can lead to any spinning preparatory machine.
In the normal operating state, the spring 11 holds the plates 7 of the double flap
in such a manner that the access to the waste duct 3 is kept closed and the fibres
are transported without disturbance through the duct 1. The flow connection between
the compressed air ducts 18 and 20 is maintained interrupted by the electro-pneumatic
valve 17.
[0014] Now if a metal object passes through the duct section surrounded by the metal detector
14, then a current is induced in the metal detector 14. The control part 15 simultaneously,
transmits an electrical signal via the circuit 16 to the electro-pneumatic valve 17.
The valve 17 immediately switches and provides a flow connection between the compressed
air ducts 18 and 20 in such a manner that compressed air passes through the branching
duct 22 to the air-mover 4 and by means of the branching duct 21 into the compressed
air cylinder 13. The piston rod 12 now is pulled into the cylinder 13, and thus, pivots
the double flap- plates 7 against the force of the tension spring 11 until the duct
1 is sealed or blocked by the upper plate 7 and the waste duct 3 is freed or uncovered
by the lower plate 7.
[0015] Since the compressed air flows axially in the direction toward the waste recipient
5 into the air-mover 4, a suction action is generated, owing to the injector action,
within the connecting member or portion of the waste duct 3 connected to the branching
element 2. Consequently, the fibre and air mixture is sucked from the fibre transporting
duct 1 into the waste duct 3 and is transported into the waste recipient or container
5. At this location the transporting air escapes via the openings 6, whereas the entrained
fibre flocks are deposited. As the time lag between the detection of a metal particle
and the switching of the double flap structure is shorter than the time required for
transporting the metal particle to the region of the branching element 2, the metal
particle together with the fibre flocks are guided via the waste duct 3 into the waste
recipient or container 5.
[0016] After there has elapsed a time lag, which can be pre-set on a key 25 or equivalent
structure of the control means or part 15, and during which time lag the metal particle
has been positively eliminated into the waste duct 3, the control part 15 transmits
a further electric signal which immediately causes interruption of the previously
established flow connection with the source of compressed air 19 by the valve 17.
The tension spring 11 now pulls back the plates 7 of the double flap into their initial
position in such a manner that the waste duct 3 again is sealed and the transporting
duct 1 again is open. The air displaced out of the compressed air cylinder 13 during
this process escapes via the branch lines or branching ducts 21 and 22 into the air-mover
4. In the fibre transporting duct 1 there now again prevails normal operation until
a further metal particle transported through the duct 1 again activates the sequence
of operations described above.
[0017] Inductively functioning metal detectors are commercially available. By using such
devices there can be detected the smallest metal particles down to a linear dimension
of 0.25 mm. By incorporating a device of this type into the apparatus described above,
all metal particles constituting any danger for any downstream arranged machine are
detected and eliminated. In order to ensure reliable functioning of the metal detector,
the duct section on which the detector is mounted should be fabricated from a non-metallic
material, for instance a plastic material.
[0018] For reliable functioning of the described apparatus, the metal detector 14 should
be mounted sufficiently far upstream of the branching element 2. If this condition
is not fulfilled, it could happen that the metal particle already has moved past the
branching element 2 before the double flap composed of the plates 7 has been switched.
Experiments have proven that the time lag between the detection of a -metal particle
and the complete opening of the access to the waste duct 3 by the double flap is in
the order of 0.2 seconds. At a transporting speed of the air and fibre mixture in
the transporting duct 1 in the order of 10 m/sec. the distance between the metal detector
14 and the branching element 2 thus should be chosen to be greater than 2 meters.
If there is provided a suitable safety margin then a distance of 3 meters has been
found to be favourable.
[0019] Furthermore, since larger metal particles tend to move through the fibre transporting
duct 1 at lower speeds than the air and fibre mixture, the waste duct 3 also should
not be again sealed or blocked too early. Otherwise it could happen that the metal
particle passes the branching element '2 only after the waste duct 3 has again been
sealed, and thus, is carried on through the extension of the transporting duct 1.
Experiments have proven that at a speed of 10 m/sec. of the fibre and air mixture
in the transporting duct 1 and if the distance of the metal detector 14 from the branching
element 2 is 3 meters, then keeping the waste duct 3 open during 1 second is sufficient
for eliminating any metal particle with certitude. This time lag can be pre-set in
the control part 15 of the metal detector 14, and it can be of course altered if other
transporting speeds are chosen to prevail in the transporting duct 1.
[0020] If the very unlikely case should occur that two metal particles pass through the
transporting duct 1 at a very short interval, the metal detector 14 transmits a second
signal for maintaining open the waste duct 3 during such time as the second metal
particle passes the metal detector. The waste duct 3, which is already opened in this
case, remains open until the pre-set time lag has elapsed after the second metal particle
has passed the metal detector 14 such that both metal particles are eliminated.
[0021] Incorporation of an air-mover 4 in the waste duct 3 is required as the fibre flocks
are sucked through the transporting duct 1 under the influence of a vacuum. If the
transporting duct 1 is sealed off in such a manner that there no longer prevails any
suction action, then the air-mover 4, which works according to the injector principle,
generates the suction action required in the waste duct 3. Further transport of the
fibre flocks downstream of the air-mover 4 into the waste recipient 5 is effected
under above- atmospheric pressure as the compressed air enters in axial direction
over the circumference of the air-mover 4. Air- movers or equivalent structure also
are available commercially. Instead of a waste recipient or container 5 made from
perforated sheet metal there also could be used a waste bag or sack made from textile
fabrics. Sufficient bag fabric porosity or air permeability, however, is required,
so that the transporting air can escape and the fibre flocks containing the metal
particle are separated in the bag.
[0022] Additionally, a fire detector 26 arranged upstream of the metal detector 14 can be
connected in parallel with the control part 15 of the metal detector 14 in such a
manner that if smoke particles are detected by the fire detector 26, then the "burning
fibre flock stream" also can be switched or by-passed to the waste recipient or container
5, in which case the re-setting of the switching or control device is interrupted.
In this manner the expensive machine connected to the transporting duct can be protected
against fire damage.
1. An apparatus for eliminating metallic contaminations from a fibre transporting
duct in spinning preparation, wherein an air stream transports fibre flocks through
the fibre transporting duct, characterized by the features of:
a fibre transporting duct (1);
a waste duct (3) operatively connected with the fibre transporting duct at a branching
point (2) thereof; deflecting means (7,7) for the fibre flocks; means (8,9,10,11)
for pivotably mounting the deflecting means at the branching point (2) of the fibre
transporting duct (1);
a drive mechanism (13) for activating the deflecting means (7,7);
a metal detector (14) arranged upstream of the branching point (2) with respect to
the direction of movement of the fibre flocks through the fibre transporting duct
(1) and surrounding at least a portion of the fibre transporting duct (1);
means (19) defining a power source for operating the drive mechanism (13);
control means (17) for operatively communicating the power source (19) with the drive
mechanism (13) for selectively activating said deflecting means;
the metal detector (14) being operatively connected with the control means (17) for
activating said deflecting means (7,7) in response to the passage of a metallic object
through said portion of the fibre transporting duct at least partially surrounded
by said metal detector (14), in order to shift within a short time the deflecting
means (7,7) from an idle position, in which the fibre transporting duct (1) is open
and the waste duct (3) is maintained closed, into a working position, in which the
fibre transporting duct (1) is closed and the waste duct (3) is maintained open.
2. The apparatus according to claim 1, wherein:
the deflecting means (7,7) comprises a double flap structure (7,7);
the control means (17) comprises an electro-pneumatic valve (17);
the power source (19) comprises a source of compressed air (19) with which there is
connected the electro-pneumatic valve (17); and
the drive mechanism (13) comprises a pneumatic cylinder (13) operatively connected
by means of the electro-pneumatic valve (17) with the source of compressed air (19).
3. The apparatus according to claim 2, wherein:
the metal detector (14) incorporates a control part (15) for activating switching
of the double flap structure (7,7) by opening the electro-pneumatic valve (17); and
means (25) for setting a time lag to retain the electro-pneumatic valve (17) in an
open position for a predetermined period of time.
4. The apparatus according to claim 2, wherein:
the distance between the metal detector (14) and the branching point (2) of the fibre
transporting duct (1) is chosen sufficiently large such that the time required for
transporting the fibre flocks from the region of the metal detector (14) to the branching
point (2) of the fibre transporting duct (1) exceeds the time required for shifting
the double flap structure (7,7) from its idle position into its working position.
5. The apparatus according to claim 4, wherein:
the distance between the metal detector (14) and the branching point (2) of the fibre
transporting duct (1) is in the order of about 3 meters when there is employed a fibre
transporting speed of approximately 10 m/sec.
6. The apparatus according to claim 1, further including:
an air permeable waste recipient means (5) arranged at an end of said waste duct.
7. The apparatus according to claim 6, wherein:
said air permeable waste recipient means (5) is formed of perforated sheet metal.
8. The apparatus according to claim 6., wherein:
said air permeable waste recipient means (5) comprises a bag formed of a textile fabric
material.
9. The apparatus according to claim 1, further including:
means (4) for creating a vacuum.action for sucking the fibre flocks through the fibre
transporting duct (1).
10. The apparatus according to claim 9, wherein:
the means (4) for creating a vacuum action comprises an air-mover (4); and
branch duct means (22) for operatively connecting the air-mover with'said control
means (17).
11. The apparatus according to claim 10, wherein:
the control means (17) comprises an electro-pneumatic valve (17).
12. The apparatus according to claim 1, further including:
fire detector means (26) connected in parallel with the metal detector (14) and mounted
at the fibre transporting duct (1) upstream of the metal detector (14).