US2953316A

US2953316A - Tire yarn beam

Info

Publication number: US2953316A
Application number: US644923A
Authority: US
Inventors: William V Henry
Original assignee: American Enka Corp
Current assignee: Akzona Inc
Priority date: 1957-03-08
Filing date: 1957-03-08
Publication date: 1960-09-20
Anticipated expiration: 1977-09-20

Description

Sept. 20, 1960 w. v. HENRY TIRE YARN BEAM 'Filed March 8, 1957 FIG. ,l

E l i INVENTOR.

WILLIAM V. HENRY BY M] (HD States Patent() 2,953,316 TIRE YARN BEAM William V. Henry, Asheville, N.C., assignor to American Enka Corporation, Erika, N.C., a corporation of Delaware Filed Mar. s, 1957, ser. No. 644,923 s. Claims. (Cl. 24a-118.7)

This invention relates generally to beams, drums, spools or the like, hereinafter referred to as'beams, for receiving yarn, wire or other strip material ofiindeinite length and more particularly to tire yarn beams provided with flanges or heads, hereinafter referredto as flanges, on the respective ends thereof.

'Tire yarn beams in commercial use in the viscose rayon industry at the present generally comprisev af wooden cylindrical portion, called the barrel, onfwhich is shipped from the placevofmanufacture to the customerl for ultimate use. Upon removal of the yarn therefrom, the beam usually is returned empty to the yarn manufacturer for the Vstorage offaddi'tional yarn and lfor subsequent reshipment. Y f Y l The flanges on commercially available` tire yarn beams usually are of a diameter about "twice that of the barijel portion and therefore require considerablymore shipping space than rwouldV be required'merely for ythe barrelvprfl tions. It not being economically feasible or practical to disassemble the empty beams-for eachreturn shipment, they usually are stacked in ya staggeredvrelationship with the flanges `of adjacent beams overlapping one another.` In this manner it is possible to ship the greatest number of empty beams in the least amount Yof space.

While this method of shipment affords the `obvious advantage of a reduction in shipping cost commensurate with the reduction in shipping space per beam, a concomitant disadvantage is that the flanges of any one beam bear directly against the yarn receiving outer surface of the barrel portion of adjacent beams. Since considerable vibration and bouncing of beams inherently occurs during shipment and inasmuch as an average tire yarn beam weighs on the order of 250 lbs. even when empty, it can readily be seen that a pounding force exists continuously between the metallic rim of any one beam and the wooden barrel of adjacent beams. It has been found that repeated shipment of empty tire yarn beams according to the above described method results in chipping and roughening of the outer surface of the barrels at the remote ends thereof and in extreme cases actually results in breaking through of the barrel at these sections. Since the barrel surface must be smooth throughout in order not to injure the yarn wound thereon, it has been necessary in the past to provide a maintenance crew for continually repairing time yarn beams damaged during shipment in this manner.

A primary object of the present invention is to provide a shipping beam not subject to the aforementioned disadvantage of known beams.

n' section, showing a tirek yarn. beam 'constructed according Another object of this invention is to provide a tire yarn beam which can be used repeatedly for shipping purposes without maintenance. Y

A furthe object of this invention is to provide tire yarn beams with resilient sleeves located in stragetic sections;

along the surface of the beam barrel to bear the loadof adjacent beams when shipped empty in a conventional stacked relationship.

An additional object of the present invention is to provide a tire yarn beam having protected or reinforced barrelk end surfaces which can be used for yarn collection Without damage to the product stored thereon.

These and further objects and advantages will become apparent to those skilled in the art upon study of the following detailed description taken in conjunction with the accompanying drawings, in which Y' Figure l is anendview showing a'plurality oflempt tire yarn beams stacked in conventionaloverlappingrelal tionship for shipment; and Y Figure 2 is a longitudinal elevational View, partially in to the present invention. r

In accordance with the teachings of the present invention, a tubular sleeve of Vresilient material is mounted in the outer surface of the beambarrel closely adjacent to the beam flange.

at each end'of the barrel with the'outer surface 'thereof e Preferably, a sleeve is mounted being Ailush or coextensive with the outer surface of the barrel, so as to form an unbroken-yarn receiving surfacev extending Ithe entire length between flanges.

Referring now to the drawings, Figure lshows a plural-V ity of empty tire yarn beams 10 resting on the surface 11 of any suitable vehicle (not shown) i which might be used for tranpsort'mg these beams from-one place of use to another. As mentioned hereinabove, the accepted mode of grouping empty beams forv shipment is in a stackedrelationship with ,the flanges ofv one .beam overlapping those of adjacent beams, and so forth, in order to con servev space. As the beams generally are substantially the same in dimensions, -it can .be seenthat -one flange of l the rst beam rests against the barrel Vof the second beam,

ported by another row of beams, as shown in this ligure.v

-Withparticular attention directed to Figure 2 of the drawings, Aa preferredembodiment of the present invention will now bedescribed. v The tire yar'n beam indicated generally -by reference numeral 10 comprises i a cylindrical wooden barrel 12 and a wooden flange 13, which extends normal to the longitudinal axis of the barrel, at each end thereof. The flanges are secured in position by a plurality of tie rods 14, only two of which have been shown, and have secured to the peripheral edges thereof metallic rims 15, which protect these outer edges from damage during handling. In order to distribute the tensional force exerted on the flanges by tie rods 14, reinforcing end plates 16 may be mounted between the flanges and tie rod bolts 17, as shown, and circular webs 18 of suitable material such as wood and of a suitable diameter are inserted within the tubular barrel in order to strengthen the same against collapse due to yarn shrinkage. These wooden Webs may be secured to the barrel 12 by screws, nails or any other suitable means (not shown). A beam shaft 20 extends axially of the beam 10 and is secured in position by bolts 21. Shaft 20 passes through suitable apertures provided in webs l181, flanges 13 and end plates `16 and serves as a support for the beam during winding and unwinding and also as an expedient for lifting the same during handling.

A peripheral recess Z2 is cut or otherwise formed in each end of barrel 12. Within each recess there is Patented'Sept. 20, 1960 inserted a resilient tubular sleeve 23 of such thickness to completely fill the recess. As stated hereinbefore, the outer surfaces of the sleeves should be coextensive with the surface of the barrel so that injury to the yarn will not occur as a result of the interruptions in the barrel surface. It is preferred that the width of the sleeve be slightly greater than the Width of the recess in order that tightening of the anges by the tie rods will completely close the space between the sleeves and barrel. Moreover, in the preferred embodiment, the inner diameter of the resilient sleeve is slightly less than the diameter of the recess, whereupon the `sleeve must` be stretched to fit within the recess, which ensures a snug fit without the use of adhesive or other securing means.

As an illustration of a specific application of the present invention, a tire yarn beam having maple anges of approximately 30 diameter, on which 16 gauge sheet iron rims had been mounted, yand having a white pine barrel portion 54" in length and 111/2 in diameter, was disassembled and modied by cutting a peripheral recess in each end of the barrel. Each recess was approximately 1A" in depth and 85/16" in width. Within each of these recesses was mounted a tubular sleeve of soft rubber having a thickness of about Mi, a width of 8% and an inner diameter of approximately 101/2". These sleeves were stretched in order to fit Within the recess and protruded slightly over respective ends of the barrel. Upon reassembly of the beam and drawing in of the flanges by tightening the tie rod bolts, the sleeves completely filled the recesses, leaving no crevices into which yarn could accumulate. It has been found that `a resilient material, such as soft rubber, having a durometer hardness of between 50 and 60 on Shore scale A works very satisfactorily to overcome the problem discussed herein.

Due to the fact that, during shipment, the overlapped anges of adjacent beams rest very close to the respective barrel ends, chipping and/ or breaking has been found to occur within a range of 8 to 10" measured axially from the barrel ends. The 8%" sleeve discussed above represents a standard size resilient tube which has been found to be sufhciently Wide to accommodate the anges of three adjacent beams (see Figure 1) and protect the barrel against injury thereby. Obviously, Wider sleeves could be used if found to be desirable or necessary. Moreover, other diameter sleeves are available to accommodate barrels of different size. While a sleeve of soft rubber was used in the specific example, it is clear that other resilient material having a comparable hardness, such as neoprene or butyl, could be used if desired. Additionally, adhesive or other means could be used, if necessary, to secure the sleeves Within the recesses.

Beams modified in the manner indicated above have been used very successfully as a means for shipping tire yarn produced by the viscose rayon process. Upon return of a group of empty beams to the yarn manufacturer in stacked condition with the anges overlapped, no chipping or rough barrel surfaces were found to exist. It appears that maintenance of these beams has been substantially reduced if not entirely eliminated and that the same may be usedV repeatedly Without deleterious effects.

It is understood that the foregoing -description is for purposes of illustration only and is not intended to limit the invention except to the extent dened in the following claims.

What is claimed is:

l. A shipping beam comprising an elongated cylindrical barrel, a circular flange supported by each end of the barrel and extending radially therefrom, a metallic rim secured to the outer periphery of each of said anges, means defining `a peripheral recess at each end of said barrel, and a soft rubber sleeve mounted under tension Within each recess and compressed by a respective one of said iianges, the outer surface of said sleeves' being coextensive with the outer surface of said barrel.

2. A shipping beam as set forth in claim 1 wherein the inner diameters of said sleeves are slightly less than the inner diameter of corresponding recesses.

3. A beam comprising a cylindrical barrel, a iiange mounted at each end of the barrel and extending radially therefrom, means defining a peripheral recess in each end of the barrel, and `a sleeve of resilient material mounted within each recess, the width of each sleeve being slightly greater than the Width of ra respective recess whereby the sleeves may be secured Within the recess under compression, and the outer surface of the sleeves being coextensive with the outer surface of the barrel so as to form an unbroken yarn receiving surface.

References Cited in the-file of this patent UNITED STATES PATENTS 920,611 Mosley May 4, 1909 2,363,744 Parker Nov. 28, 1944 2,468,311 Te Grotenhuis Apr. 26, 1949 2,468,985 Krotz May 3, 1949 2,599,720 Prevost June 10, 1952 2,733,022 Grody Jan. 31, 1956 2,755,056 Hutton July 17, 1956 FOREIGN PATENTS 367,780 Great Britain Feb. 17, 1932