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Publication numberUS1693589 A
Publication typeGrant
Publication dateDec 4, 1928
Filing dateJul 7, 1927
Publication numberUS 1693589 A, US 1693589A, US-A-1693589, US1693589 A, US1693589A
InventorsAndrew C. Bolton
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Bias-cutung machine
US 1693589 A
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Description  (OCR text may contain errors)

' Dec 4; 1928. 1,393,589

A. C. BOLI'ON B'IAS cum-1m mourns Filed July 7, 1927 2 Sheets-Sheet 1 WIT-1" I13- INYENTOR A/DRE: n/ 0,1 04 751/ A TTORNEYS Dec. 4, 1928. 1,693,589

A. C. BOLTON BIAS CUTTING MACHINE Filed July 1927 2 Sheets-Sheet 2 INVENTQR 11/0 NE 6, L804 7?) Patented Dec. 4, 1928.

ANDREW C. BOLTON,

or MIAiar, FLORIDA.

BIAS-CUTTING MACHINE.

Application filed July 7,

The invention relates to bias cutting machines designed to cut travelling webs of fabric and other material on the bias into individual bias out sections and more particularlyto cutting tacky and impregnated fabrics on the bias for use in the manufacture of rubber hose pneumatic tires and the like.

The ob ect of the invention is to provide a machine of the indicated class which is constructed in a simple manner with a minimum of parts and is arranged to operate in an accurate and reliable manner. Other objects will a pear from the description hereinafter and tiEe features of novelty will be pointed out in the claims.

In the accompanying drawings which illustrate an example of the invention without defining its limits, Fig. 1 in a side elevation of the machine; Fig. 2 is a front elevation thereof; Fig. 3 is a plan view with parts broken away for clearness, and Fig. 4 is a fragmentary view illustrating elements of the machine in detail.

As shown in the drawings, the machine comprises a supporting frame 10 of suitable form and dimensions, upon which a movable platen 11 is mounted; in the illustrated example, the platen 11 is in the form of a roll journalled upon the frame 10, as shown in Fi s. 1 and 2. The machine further includes a rum 12 having trunnions 13 at its op 0- site ends journalled in blocks 14, vertica ly slidable in guides 15 on the frame 10. The drum 12 is located above and in registry with the platen 11 and is provided with a cutting knife 16, which extends spirally aboutthe drum 12 and comprises an integral part thereof. In the referred arrangement, a flange 17 extends spirally about the drum 12 between the convolutions of the cutting knife 16 and in spaced relation thereto as shown in Fig. 3; the'fiange 17 is likewise an integral part of the drum 12 and with the knife 16 defines a spiral channel extending about and lengthwise of the drum 12. The latter, in addition, is provided with a yielding cushion which, in the illustrated example, comprises a strip of rubber tubing 18, flattened out and spirally wound about the drum 12 between the convolutions of the knife 16 and the flange 17, or, in other words, in the spiral channel formed by said knife and flange; if desired, this tubing 18 may be replaced by a cushion of solid rubher or other suitable material. The opposite ends of the cushion 18 are secured in place in any suitable manner as by means of fasten- 1927. Serial N0. 203.925.

ing screws 19, as shown in Figs. 2 and 3. For the purpose of maintaining the cutting knife 16 and its associated elements in proper operative relation to the platen 11, springs 20 are located between the blocks 14 and washers 21, controlled by adjusting screws 22, adjustably mounted upon the frame 10 at points between the guides 15, as shown in Fig. 1. Any suitable mechanism may be provided for operating the machine, the preferable arrangement being to positively drive the platen 11 and to frictionally transmit its rotative motion to the drum 12 and its associated parts. Thus, in the illustrated example, the platen 1l1-is connected to move with a gear 23, arranged 111 mesh with a pinion 24, located upon a stud-shaft 25, j ournalled on the frame 10 and carrying a pulley 26; the latter is con- 73 nected by means of a belt 27 with a source of power. In addition to the parts so far described, the machine may include a tension device, consisting of a. plurality of bars or rods 28, located in spaced relation upon a sup ort 29, secured uponthe frame of the maciiine by means of bolts 30.

In practice, power is applied to the pulley 26 to bring about a rotation of the platen 11 and to frictionally transmit this rotative movement to the drum 12 and cutting knife 16 b means of the yielding cushion 18, which at t is stage is located in surface frictional engagement with the platen 11, as shown in Fig. '2. The degree of frictional engagement developed between the yielding cushion 18 and the platen 11 ma be'varied by changing the tension of t e springs 20 through the medium, of the adjusting screws 22. In any case, the adjustment will be such that the cutting knife 16 is located in proper cutting relation to the surface of the platen 11 without, however, exerting any action on such platen, tendingto injure the latter or tointerfere with the-cutting efficiency of the cutting knife 16; it will be noted by reference to Fig. 4 that the flange 17 does not engage the surface of the platen 11. The web of fabric a to be cut on the bias is woven through or passed over and under the bars 28 of the tension device, and its end is inserted in the nip between the platen 11 and the resilient cushion 18. As the operation of the machine continues from-this point the web a will be drawn or fed between the platen 11 and the cushion 18, the latter, because of its inherent physical characteristics and be- Caus of its admstmentfuith respect to the substituting drums :the web a will of bias strips a,

'drum 12 which, in some cases platen 11, developing a firm and secure fricticnal grip-upon the web a, whereby a reliable and un form feed of the latter in the linear direction indicated by the arrow in Fig. 3 is brought about. As the web a passes over the platen 11, the spiral knife 16 will be rotate about the axis of'the drum 12 and will cut the web a on the bias as indicated by the lines I) in Fig. 3. As a result, finally becut into a plurality which are then stacked or otherwise disposed of for use at the proper time for the purpose for which they are designed. The space between successive bias cuts 6 will be absolutel uniform and equal throughout a given cuttm operation, so as to produce bias strips 00f a solute uniformity as to'dimensions and shape; the distance between bias cuts 5 is determined by the type ofthe spiral along which the cutting knife 16 is arranged on the drum 12. Thus, by

12 on which the convolutions of the spiral knives 16 are differently arranged and spaced, any desired distance between bias cuts 6 may be maintained to bias strips 0 of any predetermined The spiral flange 17 on the may be dispensed with, serves the purpose of developin a spiral. channel in combination with the knife 16 for the accommodation of the yielding cushion l8 and in addition serves to prevent upward buckling of the fabric web a as it passes over'the platen 11. During the feed'of the web a, the rods 28 develop a tension upon said web which prevents faulty feeding thereof and at the same time, said rods serve to maintain said web in a fixed path of forward movement.

The bias cutting machine is. extremely simple in construction and comprises a minimum of parts and at the sam'c'time is ab sclutciy eliable of being used for cutting fabrics produce dimensions.

in operation. The machine 7 materials capable of being cut, so as to produce bias cut sections'c. The machine is particularly adapted for cutting fabrics impre ated with rubber and utilized generally 1n t emanufacture of certain types of, rubber hose and certain classes of shoes for pneumatic tires. Because of the ar rangementpf the spiral knife 16 and spiral flange 17 incombination with the ielding cushion 18, the machine ma be e ciently utilized for cutting flimsy abrics such as silks and the like upon the bias, in a reliable and uniform manner.

Various changes in the s ecific form shown and described may be ma e' within the scope of the claims without departing from the spirit of the invention.

I claim:

1. A bias cutting machinecomprising a frame, a rotatable platen journalled on said frame for feeding the material to be cut, a

rotatable drum journalled on said frame, a cutting knife, extending spirally about said drum and comprising an integral, part thereof, mechanism for rotating'said platen, and yielding means on said drum adjacent to the convolutions of said knife arranged to frictionally transmit the'rotative movement of'said laten to said drum.

2. A ias cutting machine comprising a frame, a rotatable platen journalled on said frame for feeding the a rotatable drum journalled on said frame, a cutting knife extending spirally about said drum and comprising an integral part there- .of, a flange extending spirally about said drum between the convolutions of said knife and comprisin an inte al part of said drum, and a yie ding cush on spirally wound about said drum between the convolutions of said spiral knife and spiral flange and arranged to frictionally transmit the rotative movementof said platen to said drum.

In testimony whereof I have hereunto set m hand N y ANDREW -C. BOLTON.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2438469 *Mar 1, 1943Mar 23, 1948Pacific MillsMethod and apparatus for converting bulk filament into staples
US3472228 *Mar 15, 1965Oct 14, 1969Tanner James C JunApparatus for preparing skin grafts
US3975974 *Nov 20, 1972Aug 24, 1976Uniroyal Inc.Apparatus for producing continuous strip of uncured rubber and like raw materials
US3992967 *Oct 31, 1975Nov 23, 1976Ransburg CorporationFiber cutter
US4287799 *Jul 18, 1977Sep 8, 1981Nitto Boseki Co., Ltd.Roller apparatus for cutting glass fibers
US5915644 *Sep 4, 1997Jun 29, 1999Arpeco Engineering LimitedRetrofittable operating module for web processing machines and the like
US6289777 *Jun 8, 1998Sep 18, 2001Kongg & Bauer AktiengesellschaftPaper web for a web fed rotary printing press
US7127975Jan 21, 2004Oct 31, 2006Uni-Charm Corporation EhimeRotary cutter and method for manufacturing fibrous product using the same
US7191690 *Jan 10, 2001Mar 20, 2007Heidelberger Druckmaschinen AgHelical mechanism cutting unit and method for operating for the same
US7243585Aug 15, 2006Jul 17, 2007Unicharm CorporationRotary cutter and method for manufacturing fibrous product using the same
US8621966 *Mar 18, 2008Jan 7, 2014Kimberly-Clark Worldwide, Inc.Perforation anvil
US20090235800 *Mar 18, 2008Sep 24, 2009Andrew GermainePerforation anvil
CN101977739BFeb 2, 2009Sep 18, 2013金伯利-克拉克环球有限公司Perforation anvil
Classifications
U.S. Classification83/342, 33/36, 83/346, 492/35
International ClassificationB29D30/38, B29D30/46
Cooperative ClassificationB29D30/46
European ClassificationB29D30/46