This is a national stage application filed under 35 USC 371 based on International Application No. PCT/AU2006/000316 filed Mar. 2, 2006, and claims priority under 35 USC 119 of Australian Patent Application No. 2005900933 filed Mar. 2, 2005.
This invention concerns textile lapping machines.
Some machines produce non-woven continuous mat-like product direct from a carding machine in widths from 500-3000 mm.
In U.S. Pat. No. 5,955,174 a vibrating perpendicular lapper receives a carded web from a feed unit consisting of a wire grid and a guide board which direct the web on to a conveyor belt. The forming comb of the lapper is driven by a bell crank from a gearbox. The same gearbox drives another bell crank which operates a presser bar. As the web is introduced from the conveyor into the path of the lapper, the comb and presser bar alternately act on the web to impose vertical parallel pleats on the web which are then compressed to build a pleated web. The pleated web is joined face to face with a second adhesive web and a laminated composite web is created. The composite web then feeds into an oven on a conveyor belt.
The apparatus aspect of the invention provides a fibrous web pleating apparatus for a textile lapping machine comprising a reciprocable comb assembly including drive means to reciprocate the comb, a presser bar assembly including drive means to reciprocate the presser bar wherein the comb drive means and the presser bar drive means are devoid of mechanical coupling.
The drives may be driven from a common source but the drives are not linked.
The drivers may utilise a common motor but these assemblies remain capable of independent adjustment. The motor may rotate the reciprocating parts of both drives through chain transmission or belt transmission, preferably toothed belt.
The comb driver is capable of stroke adjustment in order to build material varying in thickness from 10-55 mm. The comb may be reciprocated by a pair of cranks driven by a common shaft. The comb assembly including the drive may be mounted as a unit so as to be movable toward and away from the feed path of the fibrous web.
The angle of the assembly in relation to the feed path of the fibrous web may be adjustable.
The presser bar reciprocates in a plane inclined at 70-100° to the axis of web travel to the comb. The plane may be horizontal enabling the web to be introduced from overhead to a generally upright comb. After the lapping assembly has built the web into a batt ribbon 500 mm wide, the ribbon is carried into an oven on an endless conveyor. The presser bar may have two rows of needles. These act to push fibres through the loops in known manner.
The fibrous web is presented to the lapping assembly by an apron feed device which takes the output of a card. The fibrous web may be fed to lapping zone by a slide plate which is preferably inclined to the reciprocating path of the comb.
The comb reciprocates between adjustable guides adjustable toward and away from the leading end of the comb. Part of the lapping zone may be defined by the surface of a conveyor which takes the batt into the oven.
The presser bar may be set to reciprocate above the surface of the lapping zone with a clearance of 1-4 mm allowing relatively thin batts to be built. The bar may be inclined from the vertical, lying substantially parallel to the slide plate which feeds the fibrous web. The bar may have twin rows of needles.
The initial upstream path of the lapping zone may have a toothed surface spaced from and substantially parallel to the conveyor surface. The teeth may project into the top face of the lapped batt. The width of the teeth may mimic the lap width in the batt. Accordingly the teeth may be exchanged for teeth of a width suitable to the batt which is built. The transfer zone downstream of the lapping zone in the direction of the oven may be defined by fingers disposed parallel to the feed direction of the conveyor.
The fingers may be connected to multiple transverse stabiliser rods. If a lapped product is wider than the width of the carded web, two lapping assemblies are installed side by side.
One embodiment of the invention is now described with reference to the accompanying drawings, in which:
The lapping machine in the drawings is fed with a fibrous web made by the combination of a fibre opener and blender, a cross-lapper and a finish card operating in series. The plated web proceeding from the lapping machine enters an oven usually 2-5 m maximum width where the fibres in the web bond to a greater or lesser extent depending on dwell time, temperature and the type of fibre. The oven treatment creates a springy, dimensionally stable ribbon product capable of being wound into rolls or cut into sheets of 50-2500 gsm.
Referring now to
The box-like lapper assembly has a horizontal base 20 on which is mounted a presser bar sub-assembly 22 and an inclined overhead sub-assembly 24 holding the reciprocating comb 26 at an angle of about 50° to a front inclined slide plate 16. The presser bar sub-assembly 22 contains a horizontal crank 28 which drives connecting rod 30. The presser bar 32 is fixed to the end of reciprocable slide 34 (see
The overhead comb sub-assembly 24 consists of a frame 36 which rises and falls on inclined bed 38. Handwheel 40 controls a screw 42 which rotates in block mounts 44, 46 which are part of the box like lapper assembly. A nut 48 projects from the frame 36 and engages screw 42 enabling the frame to be wound toward and away from the lapping zone 18. A1HP electric motor 50 drives main shaft 52 which turns first toothed wheel 54 and a second toothed wheel (not shown). The first toothed wheel 54 drives toothed wheel 52 by a toothed belt 58. The second toothed wheel drives a crank pulley (not shown) and the crank 28 actuates the presser bar.
Referring now to
The drives to the comb and presser bar are arranged to actuate the comb and bar to give a build motion in known manner.
The lapping zone is now described with reference to
The lower end of the infeed slide plate 16 supports a shark plate 84 with rows of teeth 86. These are adjustable toward and away from the surface of the oven belt in order to match the stroke of the comb. The shark plate extends for 70 mm whereafter the lapped web moves beneath a cage consisting of multiple fingers 88 joined by stabiliser bars 90 extending transversely to the direction of the conveyor feed. The cage is 130 mm long.
In another embodiment, the slide plate 16 may be replaced by a dual face to face belt system which controls the webs' introduction into the lapping zone 18 enabling the use of light web weights.
Static Comb Version
Referring now to
Accordingly in this embodiment the sub-assembly 24 is non-adjustable but the stroke of the comb remains adjustable. The comb is secured by spacer screws 118 to the push rods. A rear induced slide plate 120 is mounted on upper bracket 122 and lower bracket 124 which extend from the structural part 126 of the lapper. The web path bisects the angle between the front and rear slide plates and is substantially vertical. The comb reciprocates just behind the rear inclined slide plate 120 forming pleats as shown in
In another embodiment of the invention, the lapper assembly 20 has an independent height adjustment. By allowing the lapper assembly and shark unit to be raised or lowered and allowing the comb adjustment 36 to remain stationary quick changing of presser bars is possible.
Connecting rods 66 and the cranks 68 to be changed. This allows for the increase or decrease of the gearbox stroke and therefore allows the increase or decrease of the comb and presser bar stroke to be modified to allow both a greater or lower height of product to be achieved.
In a non-illustrated embodiment, the hot pleated web emerges from the oven into the nip of a pair of driven rolls which increase the web density. On emerging from the nip the web is cooled by passage through a zone where a fan draws air through the compressed web. This sets the synthetic fibres and the web does not reassume its former thickness.
If the comb is exchanged for one of lesser depth, the adjustment sequence is as follows:
Referring now to
In operation, the lapper is adjusted to produce the thickness, density and textile composition which is desired. A suitable blend of natural and synthetic fibre is contributed by a conventional bale breaker and blender. This mix is available to the card which delivers a fibrous web to the lapping machine at 70-100 m/min. The switchboard controls allow motor speed adjustment to match the infeed speed at the comb. The pleating reduces the feed speed which is of the order of 1 m/min. Product thickness varies between 5-55 mm and density varies between 50 gsm and 2000 gsm. The comb width may be 500-3000 mm. The comb depth may be 75-150 mm.
In a variant, the lapping zone is modified in that the pleated web is deposited onto a miniature driven conveyor which is part of the lapping unit instead of depositing onto the oven conveyor.
We have found the advantages of the above embodiment to be:
It is to be understood that the word “comprising” as used throughout the specification is to be interpreted in its inclusive form, ie. use of the word “comprising” does not exclude the addition of other elements.
It is to be understood that various modifications of and/or additions to the invention can be made without departing from the basic nature of the invention. these modifications and/or additions are therefore considered to fall within the scope of the invention.
Number | Date | Country | Kind |
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2005900983 | Mar 2005 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AU2006/000316 | 3/2/2006 | WO | 00 | 11/5/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/092029 | 9/8/2006 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5120376 | Hong | Jun 1992 | A |
5558924 | Chien et al. | Sep 1996 | A |
5955174 | Wadsworth et al. | Sep 1999 | A |
Number | Date | Country |
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1065307 | Jan 2001 | EP |
Number | Date | Country | |
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20080155787 A1 | Jul 2008 | US |