US1647311A - Apparatus for producing fabric of nonflaccid strands - Google Patents

Description

Nov. 1 1927.

- F. B. RILEY APPARATUS FOR PRODUCING FABRIC OF" NONFLACCID STRANDS 4 Sheets-Sheet 1 Filed Nov. 22. 1924 v. 1 1,647,311 No 1927 F. B. RILEY APPARATUS FOR PRODUCING FABRIC OF NONFLACCID STRANDS Filed Nov. 22. I924 4 Sheets-Sheet 2 w an Ntw. 1 192?.

Y F. '5. RILEY RODUCING FABRIC OF NONFLACCID STRANDS APPARATUS FOR P Filed Nov. 22. 1924 fix I NOV. 1, 1927., I F B. R LEY a 9 APPARATUS FOR PRODUCING FABRIC OF NONFLACCID STRANDS Filed Nov. 22, 1924 4 Sheets-Sheet 4 4 54 4 44 152 v Patented Nov.

1- Ui r are FRANCIS- B. RILEY, F NEW'TQN "HIGHLANDS; MASSACHUSETTS, A$SIGNOR T0 'HEY Woon-Wnxnrrnnn ooMraNY; 0 MASSACHUSETTS.

F BDSTON, M SSAGEUSETTS,

APPARATUS non PRODUCING Fannie on NONELACGID STRANDS.

Application filed novemberga, 1924, Serial No. 751,519.

The present invention relates toapparatus for forming apattern of non -flaccid strands and more partlcularly to this general type various of Fig. illustrating forming mechanis of apparatus designed for, the produotionof ,ajpattern consisting of a series of longitudinal warp strand stakes.

s interlocked by spaced One object of the present invention is to provide apparatus for rapidly and efficiently producing a pattern consisting of longitudi nal strands interlocked by transverse stakes which are inserted in a plurality of planes in a manner to materiallyincrease the depth or i 7 thickness of the pattern and materially improve the appearance of the fabric.

organize and improve apparatus ofthisgeneral character in put and minimize stoppage order'to increase the out-- through breakto provide a machine for the production of stake and strand fabric which facilitates- Vmodification or varying'of the pattern produced thereby. 7 With these and ,inafter described other objects. in view the features of the invention consist in certain novel features of construction, com-- binati-ons and arrangementsof partsherecity of sets "of shed forming teeth disposed and claimed, the advan-Y at different d stances from tages of which vvill be obvious to those skilled in .thefart from the following 'desoripti on.

In the accompanying) drawings illustrat ing the preferred form ,of. the invention, Fig.1 is a front elevation of a machine embodying the features of the invention; Fig. '2is a left hand side elevation of the machineshown in Fig.1; Fig.

3 is' a detail sectional view taken upon theline 3-3 of Fig.1 and illustrating a portion of the feeding and cutting mechanism for the stake; Fig.4 is

a detail side elevation illustrating another view of the'stake feeding mechanism;

Fig. 5

is a sectionalelevation upon the line 55 tails illustrating the guiding} and shed Figs Sand 7 are dea plan "and respectively elevation partly in section. of one of the shed forming bars Figs.

8 and 9 are a plan I and elevation respectively of the cooperating shed formingbars; and Fig, lO is aijcdeta l V on of theesoperating ahed illustrate-1g, a; secti "planes. in the plurality of sets of bodiment of the on one end of the pulley .26, which formin'g'bai's in operative relation with longitudinal warp strands positioned in [the shed and across stake in the-shedfl-passage thus. formed. A l I Accord'ng to tern-consisting of [a series of longitudinal transverse stakes.

ticularly in Fig,

oonronn'rion on i entremefdepth or thickness of the fabric l The production of his. pattern is accomplishedhy'leadin'g the longitudinal strandsfrom aseries of passages in a I gulde member to'vrevolving' -'Sl1eCl fOI1'Xi1I1g members pos tloned 1n rela tiv'ely close proximity to the guide member and 'desig'nedfto engage with the longitudiform shed "passages whichnal strands and are POSltl'OIIGCl successlvely, in 7 different by cooperating shed forming members revolving about parallel axes.

illustrated embodiment of the invention, a

length'fand have interposed therebet'yv en' forming members are so" arduring the rotation of the members one" set radius cooperates with a set of teeth disposedjupon; a shorterra'dius. With this con- 1struction, the shed passa ges are formedin different planes. V 5 I shown in the illustrated eminventioncomprises; a p bars 20 and 22*,vvithif,a "Mounted I The machine.

rame having side v drive shaft 24 1ournalecllthere1n.

member and I cross feed thrott and grooved pulley 30 erges-swear;

The formation of uccessive sheds longitudlnal strands is accomplished forming member is provicledwith a plural d'rive shaft is a} drive drives the shedv forming a gettiflfid "The 1 .A further object of the invention is to reequal to the diameter of two stakes and 1 three longitudinal strands.

the axis. In the plurality of sets"of fshed forming" teeth are uniformly disposed-i upon radiij of equal j shedforming teeth disposed upon radii of shorter length,v The revolving); she'd ranged with 'relationtoone another thatstrands. as indicated more two shafts are caused to rotate in unison by intermeshing gears and 42 mounted upon the extended ends thereof at the outside of the frame. The shafts are drven intermittently and in timed relation to the cross feed by a ratchet wheel 44 mounted on the shaft 36 and engaged intermittently by a pawl. 46 pivoted at 48 upon a rocker arm 50 loosely journaled on the shaft 36. as indicated clearlvin Figs. 1 and 2. The rocker arm is oscillated at theproper time intervals through a rotating cam 52 mounted upon a counter shaft 54 and connected to the arm through a lever 56 and an adjustable link 58. As shown more particularly in Fig. 2, the lever 56 oscillates about a fixed pivot 60 and is provided with a can; roll 62 atthe end opposite the link connection 58. The cam .roll is maintained in contact with the periphery of the cam 52 through a 831111 '64 connecting the hub of the lever with a fixed portion of the frame. Yieldengagement of the; pawl with the teeth ofthe ratchet is provided by the spring 66 interposedbetween a projection on the arm 5OI-an'da tail 68 formed on the pawl above the. pivot. The counter shaft 54 is journaled in the 'sioe bars of the frame above the main shaft 24 and is continuously rotated from the main shaft through a large gear 70, which meshes with the drive pinion 28. With this constructiony it will be evident that the shed forming members are revolved intermittently and luumson during t-he continuousrotationof the cam 52.

The longitudinal strands are conveniently guided to the revolving shed formers through the provision of a stationary guide bar 72 mounted on a cross beam 74 and havmg a 'series of gulde passages 76 formed therein, which receive the longitudinal 5 It isdesirable that the longitudinal strandsbe spaced in contact with one another and-in order to secure this relatively close spacing successive strand passages in the guide memberare'disposed above and below one another, as indicated in Figs. 1 and 5 The rotation of the shed formers draws the longitudinal strands through the stationary'guide member and disposes these strands on the opposite sides of a transverse shed passage. Thereafter the rotation of the shedforming members is stopped for a sufficient time interval to permit the'insertion of a cross stake in the passage thus formed. The cross stake is inserted through particularly in an opening 80 formed in the frame opposite one end of the shed forming members and having cooperating feed rolls 82 and 84 positioned opposite the entrance thereof. The upper feed roll 82 is provided with a grooved periphery approximating the diameter of the cross stake and is continuously rotated from a pulley 86 mounted upon the opposite end of a short shaft 88. Thispuh ley is driven by a flexible belt 90 passing through. the side bar of the frame and thence diagonally to a drive pulley 92. During its passage between thedrive pulley 92 and the smaller pulley 86, the belt. is caused to pass over 96 as indicated in Fig. 3. Mounted upon the shaft with the guide pulley 92 is a smaller pulley 98 which is driven from a pulley 100 through a flexiblebelt 102. The main drive pulley .100 is mounted upon the shaft24 and is rotated therewith; it will be evident that with this construction the stake feeding member 82 is rotated at a relatively high rate of speed. Cooperating with the groovedfeed roll 82 is an underfeed 84 which is adapted to enter the groove in the upper roll and engage the strandthere in. The lower feed member is loosely journaled upon the end of'a lever 104 pivoted upon the frame at 106 and adapted to he oscillated at predetermined intervals by a path cam 108. The path cam is connected to the lever 104 through a rocker arm 110 and a link connection 112. As indicated, the rocker arm is. normally maintained in contact with the periphery of the cam by a tension spring 114. The underfeed roll 84 is caused to maintain ayielding engagement with the strand by virtue of a inata slot connection 116 between the end of the lever 104'and the link 112 and a light spring 118' connecting the lever with the link. With this construction, when therocker arm 110 reaches a predetermined point on the periphery ofthe cam 108 the underf'eed' roll is elevated into the grooved. periphery of ment, the stake is automatically severed in-' side of the frame.

This severing of the stake is accomplished by an oscillating knife blade 120pivoted on the inside of the frame at 121 and'operated at'predetermined intervals by a rotary cam 122 connected to the knife blade through a rocker arm 124 and link-126. As indlcated', the knife blade is lUU I provided with a Cutting "edge 128 which shears the strand against the edges of an 'openingtorme'd in a'cutting plate 130, all

' as indicatedinFig; 8. Both the feed cam and cutting cam are mountedupon the counter shaft 54. The rocker arms 110 a'ndp124 are. loosely. journaled upon a counter shaft 60, which also carries'a rocker member 56 at its opposite end. I l T The; revolving shed; forming inembers which are shown in assembled relation-in Fig. 1 partially broken away to indicatethe strand'guide are illustrated more-particularlyin Figs. 5 to inclusive. Each of these shed formingmembers' comprises essentially a hub portion having a plural-' ity "of bars 144 disposed v about the circumwference." Interposed between the bars 144 is asecond series'"of b'ars'146 also disposed circumferentially of the hub. Each of these bars, as indicated more particularly in'Figs.

6 to 9, isprovided with aseries'ot shed forming teeth denoted respectively by 148 the cooperating hub member.

, shed passage. The spacing between the bot' and 150'. The "shed forming teeth 150 formed upon the bars 144 are deeper than the teeth formed upon the bars 146. On

the other hand, the teeth formed on the bars 146 are disposed at a greater distance from the axis ot-rotation' thanthe adjacent teeth on the bars 144. Each bar is providedwith a longitudinal slot 150 and 154 respectively which forms the shed passage in conjunction with the cooperating shed forming member.

'As indicated clearly in Fig. 5, the two revolving shed forming members are so located with respect to one another thatthe h shed forming teeth upon the b'ar146 mesh with the teeth on the bar 144 mounted upon With this construction, shed passages are formed successively above and below a given plane, which in the present instance may be considered the plane of the straight longitudi- -nal strands. 'At the same time longitudinal ing 'therethrough' so that the cooperating high and low teeth deflect the longitudinal strands into positions where they project only slightly, if at all,'into the transverse 1 tom of one set of teeth and the tops of the 00- operating teeth is suflicient to permit inserw tion of a longitudinal strand without injury but engages the strand sufficiently to.

feed the finished patternlongitudinally as 'the shed forming members are revolved. It

will be evident from this construction that by replacing any given set of shed forming successively inclinedin opposite directions It will be evident from Figs. 5.

bars with bars jot different character the character. of the pattern may be varied: 'As

width'of the machine, it will be evident that the pattern may be varied throughout its width by employing shed forming-bars having teeth of adi'tlere'nt character 'or widthv the bars do uotextend completely across the As indicated, the she diorming bars aref'se "cured to the hub through threaded fast-one i .ings156.-

As the -meeting (plane of the"re'volv iiig shedforming members is varied between the formation of successive shed passages, it-is important-"that means be providedifon -acf curately' guiding the cross "stake into," the shed passage thus formed. To this "eiid,co'

ope'r'ating guide disks and 162 "are mounted'upon the shafts. adjacent'the ends 1 of tlie shed forming membersf; ZSEachT of the guide disksis provided with asetlof inclined guiding! grooves 164 and' 166,wliich, as indicated more par'ticularly in' 'Eig. 1.1,;-

"cooperate to provide a strand guiding These strandguidinggrooves-are .90

groove.

to provide a series of. guideopenings having entrance points positioned-in the same plane and exit points posit oned successively above I and below suchav plane. With thiskcon struction, the cross stakelinserted through the cooperating feed rolls is properly guided, intothe end of the shed passage. y

While it is. preferred to employ the specific construction and arrangement of parts shown and described, itwill be understood that this construction and arrangement is, not essential except so far as specified in the claims and may be changed or modified without departing from the broader tea-t tures ofthe invention. f

. The invention having been described, what is claimed is: i i i v .1. Apparatus for producing a shed forming members, means for revolving the members in timed relation, a plurallty of sets of shed forming teeth disposed circum-' ferentiallyabout each of the members, successive sets of teeth on the two members cooperating to form shed passages in difler- I cut vertical positions, means for guiding aseries'of parallel strandsto the shed formers,

and means for guiding cross strands to the shed passages thus formed.

non-flaccid strands comprising cooperating shed forming memb'ers,' a plurality of sets of shedf forming teeth disposed circumfer- 2. Apparatus for producing a fabric of i00 I f fabric of -non-flacc1d strands comprisingcooperating Ill), 1

'soj" entially about each member at'diiiere'nt dis- 7 tances from the axis otrotatiom means for I intermittently revolving :the members in timed relation, means "for guiding parallel Z: formed. 7

strands to the members, and means for guid inoa cross strand into the shed passage thus no 3. Apparatus for producinga fabric of non-flaccid strands comprising a stationary guide member having a series of parallel guide passages, revolving shed formers positioned in proximity thereto, a series of cooperating shed forming teeth mounted upon the members and designed to deflect predetermined parallel strands a-ndto malntain predetermined strands against deflection to form a shed passage therethrough, means for intermittently revolving the members,

and means for guiding cross strands'to the shed passages thus formed.

4. Apparatus for producing a fabric of non-flaccid strands comprising two-revolvingflmem bers, a plurality of sets of shed forming teeth disposed circumterentially' about each of the members, successive sets ofteeth being disposed upon radii of different lengths, means for intermittently revolv- 111g" the members, means for guiding a series,

of parallel strands between the members,

and means for guiding cross strands to the shed passages formed by the members.

5. Apparatus for producing a fabric of non-flaccid strands comprising revolving shed forming members having a plurality of sets of cooperating shed forming teeth, the meeting planes of successive sets of teeth being-spaced radially, means for intermittently revolving the "members, means for guiding a series of parallel strands'between strands in the shed passages thus formed;

,7, Apparatus for producing a fabric of non-flaccid strands comprising a stationary guide member for guiding a series ofparallel strands, revolving shed forming members positioned in proximity thereto, each havin a plurality 01. shed forming teethdesigned to deflect predetermined parallel.

strands and form shed passages therebetween, guide members revolving with the shed formers, each having a series of guide grooves cooperating to form oppositely inclined guidepassages, and means for periodicallyfeeding cross strands into the guide passages so formed.

In testimony whereof I have signed my name to thisspecification.

FRANCIS B. RILEY.

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