US1147249A

US1147249A - Stop-motion for looms.

Info

Publication number: US1147249A
Application number: US36201507A
Authority: US
Inventors: Charles D Lanning
Original assignee: Individual
Current assignee: Individual
Priority date: 1907-03-12
Filing date: 1907-03-12
Publication date: 1915-07-20
Anticipated expiration: 1932-07-20

Description

C. D. LANNING.

STOP MOTION FOR LOOMS. APPLICATION FILED MAR. 12, 1907.

1 ,147,249. Patented July 20, 1915.

3 SHEETSSHEET I.

. witnesses fnventar 2M I g MM COLUMBIA PLANOORAPH c0., WASHINGTONLD. c.

. witne ases C. D. LANNING.' STQP MOTION FOR LOOMS. APPLICMION FILED M'ARPIZ. 1907.

3 SHEETS-SHEET 2.

Patented July 20, 19151 C. D. LANNING STOP MOTION FOR LOOMS.

APPLICATION FILED MAR-12,1907;

1,147,249. I Patented July 20, 1915.

3 SHEETS-SHEET 3- witnesses I [mntar A-K My {WEED warns ra'rnnr W A CHARLES n. LANNING, or noncnfns'rnn, MASSACHUSETTS.

STOP-MOTION FOR LOOMSQ To all whom it may concern:

Be it known that I, CHARLES D. LANNING, a citizen of the United States, residing at Dorchester, inv the county of Suffolk and State of Massachusetts, have invented an Improvement in Stop-Motions for Looms,

of which'the following description, in con nectionwith the accompanying drawings, is a specification, like letters on the drawings representing like parts.

.This invention relates to stop motions which, while they may be of general ap plication, are primarily intended for application to a loom to stop the same upon the occurrence of a warp fault, and preferably through mechanical agencies.

It is customary to employ detectors or drops individually supported upon the warp threads of a loom,-so that upon the breakage of a thread or undue slackness thereof the detector or drop pertaining to that thread assumes an abnormal position and is impinged upon by a feeler, resulting in stoppage of the loom. Such detectors, as generally constructed are composed of a thin strip of metal, and since they have heretofore borne the full or substantially the full strain of the feeler consequent upon the release thereby of the stopping mechanism for the loom, they quickly become bent or otherwise injured.

So far as 1 am aware, I am the first to relieve the detectors of the strain of the feeler, transferring the same to an abutment, so thatthe strain consequent upon the stopping of the loom is not only not borne by the detectors but tends to be positively relieved by the action of the stopping mech vanism.

Other features of my invention will be more readily apparent upon a detailed description thereof.

lVhile my invention may be embodied in a great variety of mechanisms widely differing in structure and operation, I have, in order that the principles of the invention may be made clear,.set forth one embodiment thereof in the accompanying drawings, wherein Y Figure 1 isa side elevation of a portion of the loom frame showing my invention applied thereto, the feeler being represented as having just impinged upon an abnormally posit1oned detector. Fig. 2 is a side elevation Oi a portionof the mechanism disclosed in Fig. 1 upon a larger scale and Specification of Letters Patent.

representing the same. position of parts;

positioned, and hence the feeler as partak ing of its normal movement; and Fig. 4 is PatentedJuly 20, 1915." Application filed March 12, 1907. Serial N 0. 362,015. i

a side elevation representing'the movement i of the various parts consequent upon the abnormal position of the; detector, whereby the 100m is stopped. I I

Referring specifically'to that single type or embodiment of my invention herein selected for illustration, the frame ofxtheloom 1s lndicated at 1, it being of any suit v able type. I If desired, my invention may be applied to the character of loom disclosed in the patent to Coldwell andGildard, No. 690,686, though. it WillbB understood" that I am in no wise to be limited to any particular type or character of loom. of the loom are represented at 22and are supported in the loom frame in any desired manner to sustain in the usual manner the warp threads 3. Preferably between 'the leasing members, detectors herein shown as.

The leasing members drops 4 are mounted individually upon the warp threads. 7 While I am not'to be limited to the type of dropherein shown excepting when specifically so stated, preferably I employ an open drop asclearly represented,

asI have found in practice that it is pref- GIELblG'lJO position the drops after the warp drawing operation and after the threads are in the loom than to draw the warps through the drops. Furthermore an open drop is more'flexible and limber at its lower 5 end, and in the event-of the employment of an electrical stop made.

motion 'a' better contact is ed upon or straddles one of a pair of bars the path ofmovement of a feeler 6. He're-' tofore, feelers have beenemployedadapted to bereciprocated orvibrate'd in'a determined path, into which path the abnormally J 95 As clearly represented, thedrop is mount-K positioned drop moves, thereby checking or interrupting the movement of the feeler and through intermediate mechanism stopping the loom. So far as I am aware, in prior constructions the strain of stopping the loom has been borne by the drop although attempts have been .made to prevent deformation of the drop by lateral or other guides therefor.

One of the important objects of my invention is to remove from the abnormally positioned drop the strain of stopping the loom by transferring it from the drop to some suitable abutment. It is apparent that this may be accomplished by mechanisms widely varying in construction and operation but involving this fundamental idea. In practice, I have found the construction herein set forth to be efficient. If desired, a single feeler 6 may be employed to cooperate with two banks of drops as represented. WVhile the feeler may be mounted to move in any suitable manner toward and from the drops, herein I. have loosely mounted the same upon a rock shaft 7 suitably supported in the loom frame, providing such feeler with the downwardly extending por tion 8 and lateral wings 9-9. In order to rock the shaft 7, whereon, in this type of the invention, the feeler 6 is mounted, I may employ any suitable means herein shown as an actuator. 'rl erein for the purpose I employ an actuator 10 fast upon the rock shaft 7 and having a forked lower end 11 to receive between the members thereof a cam or eccentric 12 mounted upon shaft 13. In the present type of the invention, I employ the weft cam or a cam upon the shaft that operates the weft hammer. Inasmuch as this shaft usually rotates at half the speed of the main driving shaft, the rate of movement of the feeler and hence its momentum when it encounters an abnormally positioned drop or detector are much lessened, thus reducing liability of damage to such detector. lVhile the actuator and feeler may be operatively connected in any suit able manner, preferably I connect the same for relatively yielding and herein effect this bypivoting upon the actuator a pair of downwardly extending lever members 14:, which herein have a flat broadened face to receive between them a laterally extending head 15 formed upon the lower end of the member 8 of the feeler. As clearly apparent, the said head 15 projects beyond the plane of the member 8 to permit proper engagement therewith of the said faces upon the lever members 14:. The face of the actuator 10 between the adjacent edges of the lever members lt is provided with a stop 15, which when said lever members 14: are normally positioned, as in Fig. 1, engage both of said inner edges. Prefen ably a coiled or other spring 16 is employed to connect the lever members 14, thus nor mally maintaining them in parallel posi tion but permitting movement of either one of said levers with respect to the other and with respect to the actuator upon engagement of the feeler 6 with an indicating drop bar, as will be evident from a comparison of Figs. 1, Q and 3 with Fig. t. By reason of the reduced rate of speed of the feeler, the spring 16 may be of a delicate character. Whether the head of the feeler 6 be dis placed to the right or to the left upon coir tact of an indicating drop bar, one of the lever members 1 1 will be held. from movement relative to the actuator by reason of its engagement with the stop 15, and the other lever member 14% will be moved away from said stop, and thus expand the spring 16 as indicated in Fig. 4. Ihe spring 16 thus tends to restore the parts to their position with respect to the actuator that is shown in Figs. 1, 2 and 3.

As stated, if I employ a connection be tween the feeler and the actuator, it may be of any suitable type. In the present type of my invention, I employ an abutment or abutments operatively connected to and herein rigid with the feeler, which abutments are therefore, in this form of my invention, movable and in the normal op eration of the loom are confined to a certain inoperative position or to a path of movement that may be termed an inoperative path. Upon impingement of the feeler upon an abnormally positioned drop, however, an abutment of any suitable nature is rendered operative by any suitable connection and in the present instance, wherein the abutment is movable, by holding or positioning it in an operative position, so that itmay be im pinged upon by a member of any suitable character to effect the stoppage of the loom, while at the same time the abutment receives the full strain consequent upon such stopping movement.

While the abutment or abutments may be constructed in many different ways whether or not rigid with or carried by the feeler, herein I mount upon or form with the feeler 6 the lateral wings 9, which during the nor mal working of the loom traverse a determined inoperative path as indicated in Fig. 3. I-Ierein the abutments 9 extend laterally from the rock shaft 7, so that the strain received by either abutment is transferred immediately to the rock shaft 7.

Any suitable mechanism may be employed to be actuated and herein by the abnormal or operative positioning of an abutment to effect stoppage of the loom. Herein, I employ a movable member, though I am not to be restricted thereto save as expressly stated. While such movable member may be mounted and operated in any suitable manner, in the present type of the invention I employ a feeler actuated member 17, pivotally mounted at 18 upon the actuator 10 and operatively connected as'by means of a rod 19 with a knock-01f lever 20 (see Figs. 1 and l) pivotally mounted at 21 upon the loom frame and having two shouldered

portions

22 and 23 at opposite sides of the pivot 21. My invention may be embodied in a feeler actuated member of any desired type or embodiment. Such member, however con structed, I herein also term a secondary feeler or bunter, inasmuch as it has this function with reference to an abutment of whatever type employed, it feeling to ascerr' tain whether an abutment is operatively positioned. If such member in its feeling action finds an operatively positioned abutment, stoppage of the loom results. In the normal working of the loom, each of said shoulders is adapted, as indicated in Fig. 1, to engage the shipper lever 24, which may be retained in the usual notch to be released to stop the loom. Viewing Figs. 1 and 4, it will be apparent that movement of the knock-0E lever 20 in either direction will serve to stop the loom.

Herein the upper end of the feeler actuated member 17 is forked, each member 2-1 and 25 of such forked portion having an inturned portion 26 and27 adapted, in the normal working of the parts, to partake of a movement in a fixed path and to a fixed extent. In accordance with this type of my invention, I vary the path of movement of the feeler actuated member 17 in order to effect the stoppageof the loom, and herein this is specifically accomplished by interposing in the normal path thereof an abutment 9 to terminate or shorten the stroke of said member interposed in its path. I may, however, employ any suitable actuator and vary the path of movement thereof in other ways as, for example, by normally impartingl thereto a minimum length of stroke, which, upon the occurrence of a warp fault, is lengthened to effect in any suitable manner the actuation of the stopping mechanism.

- Viewing Fig. 8, it will be apparent that in the normal. operation of the parts the path of movement of each abutment 9 is such that the path of movement of the feeler actuated member, 'bunter, or secondary feeler 17 is not altered or afiected thereby. When, however, the feeler 6 in its feeling movement meets an abnormally positioned drop as indicated in Fig. 2, its movement is interrupted, and the abutment 9 is lifted above or displaced from its normal path of movement, as indicated in Fig. 2, bringing it into the path of movement of one of the inturned ends 26 of the feeler actuated member or hunter 17. In Fig. 2, the feeler 6 is represented as having just engaged the abnormally positioned drop, thereby abnormally positioning an abutment 9, because of the continued movement .of the actuator 10, which further movement is notrpartaken of by the feeler 6. Upon the continued movethat indicated in Fig. 41, thereby impinging the inturned end 26 upon the corresponding abutment 9. During the normal operation of the parts, the feeler actuated member 17 has moved bodily with the actuatorlO and has rocked about the point of connection X of the rod 19-and such feeler actuated memher as a center. When, however, the portion 26 engages the corresponding abutment 9, as indicated in Fig. 4, the further movement of the upper end of the feeler actuated member 17 is interrupted. Since, however, the movement of the actuator 10 toward the right, viewing Fig. 1, continues, the point of rocking movement of the feeler actuated member 17 is transferred from its lower end to the portion 26 at its upper end, and accordingly bodily movement of the lower end ensues, and hence a movement of the rod 19 to the right viewing Fig. or in the direction of the arrow therein. The knock-off lever 20 is likewise moved to the right and the shoulder 23 releases the shipper lever 24: from its notch to stop the loom. It is apparent that if an abnormally positioned drop were engaged by the feeler 6 in its opposite stroke, the inturned portion 27 of the feeler actuated member 17 would in the same manner engage its abutment 9 to ef-.

feet a movement of the rod 19 to the left viewing Fig. l, whereby the loom would be stopped through engagement of thefshoulder 22 of the knock-off lever with the shipper lever 24.

I may form the abutments 99 and the inturned portions26 and 27 in any suitable manner to facilitate proper engagement of the parts. Herein I have represented each abutment 9 as concaved, and the

parts

26 and 27 as convexed. If desired, this construction may be reversed or varied.

While in the manner indicated the strain of stopping the loom is borne by an abutment and the rock shaft from Whichthe abutment extends, preferably I so construct or proportion the parts that in the impingement of the feeler actuated member upon an abutment, the feeling portion of the feeler is removed from engagement with the abnormally positioned drop. Ihis result may also be accomplished in any desired manner in other types of my invention. In Fig. 4, I have indicated such operation of the parts in the present type of the invention. IVhile this result may be accomplished in any desired manner, herein I effect the same by making the radius of the path of movement rod 19 longer than the distance between such point of connection X with the rod 19, and the axis of the rock shaft 7. Thereby, either

inturned portion

26 or 27 engages an abutment 9 with such a direction of movement as to force the abutment upwardly and hence to move the feeling portion of the feeler rearwardly or from the abnormally positioned drop. It is apparent that were the path of movement of the

portion

26 or 27 such as to tend to move an abutment 9 downwardly, the feeling portion of the feeler would be retained in engagement with the abnormally positioned drop. In other types of my invention I may accomplish this result in other ways as will be readily apparent to those skilled in the art.

I desire it to be understood that my invention may be embodied in mechanisms differing widely from that illustrated which is selected merely as an effective means for accomplishing the results that are to be secured.

Having thus described one type or embodiment of my invention, I desire it to be understood that although I have employed specific terms, they are used in descriptive and generic sense and not for purposes of limitation, the scope of the invention being set forth in the following claims.

I claim 1. A stop mechanism comprising thread supporting detectors adapted to be abnormally positioned upon thread fault, a feeler to engage an abnormally positioned detector, an actuator for said feeler, means driven at a less speed than the main drive shaft of the machine for operating said actuator, means opcratively related to the feeler to remove from the abnormally positioned detector engaged by the feeler the strain of loom stoppage, so that the strain of loom stoppage is not borne nor shared by the abnormally positioned detector, and stopping mechanism made effective by the said last mentioned means.

2. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler to engage an abnormally positioned detector, a shaft whereon the same is mounted, said shaft being adapted to receive the strain of loom stoppage, an actuator for the feeler operatively related thereto, a rotatable member operatively related to and adapted to move said actuator, an abutment positioned in impact position upon engagement of the feeler with an abnormally positioned detector and cooperating with said shaft to transfer the strain of loom stoppage thereto, a member or bunter adapted to engage said abutment when in impact receiving position, and stopping mechanism operatively connected with said member.

3. A stop mechanism comprising thread supported detectors adapted to be normally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means driven at a less speed than the main drive shaft of the machine for operating said actuator stopping mechanism, and means to remove the strain of loom stoppage from an abnormally positioned detector intercepting the feeler, and (peratively connected to said stopping mechanism so that the strain of loom stoppage is not borne nor shared by the abnormally positioned detector.

L. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector and operative upon either stroke, an actuator for said feeler, stopping mechanism, and means operative upon either stroke of the feeler in the event of abnormal position of the detector to remove the strain of loom stoppage from such detector.

5. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path at an angle to the series of detectors and that is intercepted by engagement with an abnormally positioned detector, an actuator for said. feeler, an abutment movable with the feeler and adapted upon engagement of the feeler with an abnormally positioned detector to be held in impact position, a member or bunter adapted to cooperate with said abutment when in impact position, stopping mechanism and operative connections between said member and the stopping mechanism.

6. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, an abutment extending from the feeler transversely to the series of detectors and adapted upon engagement of the feeler with an abnormally positioned detector to behold in impact position, a member adapted to engage said abutment when in impact position, stopping mechanism and operative connections between said member and the stopping mechanism.

7 A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means driven at a less speed than the main drive shaft of the machine for operating said actuator, stopping mechanism, and means to remove, prior to loom stoppage, the strain of the feeler from an abnormally positioned detector intercepting the feeler, whereby the strain of loom stoppage is not borne nor shared by the abnormally positioned detector.

8. A stop mechanism comprising warp supported detectors adapted to be abnor mally positioned upon Warp fault, ail-oscillatory feeler adapted to move in a path that is intercepted by an abnormally positioned cletector, an actuator for said feeler, means distinct from the lay for operating said actuator, an abutment adapted upon engagement of the feeler with an abnormally positioned detector to be held, in impact position, a member relatively movable with respect to said abutment and adapted to cooperate with said abutment when the latter is in impact position, stopping mechanism, and operative connections between said member and said stopping mechanism. I v

9. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler having a to and fro path of movement, a feeler actuated member carried by the actuator and having move ment relative to the feeler, said feeler actuated member being normally movable in a determined path and adapted to have its path of movement modified upon engagement of the feeler with an abnormally positioned detector, an abutment positioned by the feeler for engagement with the feeler actuated member stopping mechanism and a stoppage actuating connection between the feeler actuated member and the stopping mechanism rendered operative when such path of movement is affected.

10. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path outside said detectors and that is intercepted by engagement with an abnormally positioned detector, an actuator for said feeler, an abutment, the abutment and feeler having a common support, stopping mechanism, and means to transfer the strain of machine stoppage from the abnormally positioned detector to said abutment.

11. .A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means distinct from the lay for operating said actuator, an abutment rigid with the feeler, and extending therefrom at an angle to the plane of the series of detectors, a moving member distinct from the lay and provisions whereby said abutment is held in the path of the moving member upon the occurrence of a thread fault.

12. A stop mechanism comprisingithread supported detectors adapted to be 'abnor-' mally positioned upon thread fault, a feeler adapted to move in a path that'is intercepted by an abnormally positioned detector, an actuator for said feeler, a plurality of abut ments carried by the feeler and normally in inoperative position, means whereby upon the occurrence of a thread fault one of said abutments is operatively positioned, and

stopping mechanism rendered operative 1 thereby.

13. A sto mechanism comprisingwarp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path thatis intercepted by an abnormally positioned detector,an

actuator for said feeler, stopping mecha nism, an abutment rigid with thefeeler andnormally inoperative, and means'operative upon either stroke of the feeler and includ ing a hunter movable with the actuator whereby the loom is stopped upon the occur rence of a warp fault. a I

14L A stop mechanism comprlsing Warp" supported detectors adapted to 'be abnor mally positioned upon warp fault; a-feeler adapted to move in a path that is intercepted by an abnormally actuator for said feeler, said actuator hav ing an unvarying movement, operating means therefor driven at a less speed than the. main drive shaft of the machine, a hunter operated independently of the lay and operatively related to the feeler to ree move from the abnormally positioned depositioned detector, an

tector intercepting the feeler the strain of loom stoppage, whereby the strain of loom stoppage is not borne nor shared by the abnormally positionedidetector, and stopping mechanism made eflective by the hunter.

15. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an

actuator for said feeler, a support for the actuator and feeler, stopping mechanism, and means operative upon the occurrence of a thread fault to transfer the strain-of loom stoppage from the feeler to said support.

16. A. stop mechanism comprising warp supported detectors adapted to be abnor mally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a shaft whereon the actuator is mounted, stopping mechanism;

and means operative upon the occurrence of a warp fault to transfer the strain ofloom stoppage directly from the'feeler to said shaft.

17. A stop mechanism comprising warp supported detectors adapted to be :abnor mally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by. an abnormally positioned detector, an actuator for said feeler, a shaft whereon the feeler is mounted, a member movable relative to the actuator, stopping mechanism, and means operative upon the occurrence of a warp fault and co-acting with said member to transfer the strain of loom stoppage to said shaft.

18. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a shaft whereon the feeler and actuator are mounted, stopping mechanism, and means operative upon the occurrence of a warp fault to transfer the strain of loom stoppage to said shaft.

19. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned uponwa-rp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, said actuator having a rock shaft, an abutment on said rock shaft operativcly associated with said feeler, stopping mechanism operatively associated with said rock shaft, and means operative upon either stroke of the feeler whereby upon the occurrence of a warp fault the strain of loom stoppage is transferred to said shaft.

20. A stop mechanism comprising warp supported detectors adapted to be abnor mally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a support for said actuator including a rock shaft whereon said actuator is mounted, stopping mechanism, and means rendered operative upon the occurrence of a warp fault to transfer the strain of loom stoppage to said support.

21. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a rock shaft whereon the feeler is loosely mounted and whereon said actuator is fixed, stopping mechanism, and means rendered operative upon the occurrence of a warp fault to transfer the strain of loom stoppage to said shaft.

22. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler to engage an abnormally positioned detector, an actuator for said feeler, rotary means for operating said actuator, an abutment operatively related to the feeler to remove from the abnormally positioned detector engaged by the feeler the strain of loom stoppage, so that the strain of loom stoppage is not borne or shared by the abnormally positioned detector, and stopping mechanism made effective by the said abutment.

23. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a member, one portion whereof has a normal path of movement, an abutment acting upon the occurrence of thread fault to interrupt the movement of such portion of said member, stopping mechanism, and connections whereby upon such interruption of movement the strain of loom stoppage is transferred from an abnormally positioned detector.

24. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means carried by the actuator and having movement relative to the feeler and adapted to be abnormally positioned upon the occurrence of a thread fault, an abutment cooperating with said feeler and said means carried by the actuator stopping mechanism, and a movable member operatively connected with the stopping mechanism, the movement of said movable member being governed by said means when abnormally positioned.

25. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in. a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a shaft about which the feeler and actuator have movement stopping mechanism, a feeler actuated member carried by said actuator and having a normal path of movement, and co-acting means consequent upon warp fault to affect the movement of said member and thereby positively to actuate the stopping mechanism.

26. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, stopping mecha nism, an abutment carried by said feeler, a member carried by the actuator, and means whereby engagement is effected of the abutment and said member upon the occurrence of warp fault to stop the loom.

27. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, actuator for said feeler, stopping mecha nism, an abutment rigid with said feeler, a member carried by the actuator, and means whereby engagement is effected of said abut ment and said member upon the occurrence of warp fault to stop the loom. I

28. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, stopping mechanism, an abutment carried by the feeler, a member operatively connected to the actuator, and means whereby engagement is effected by the abutment and member upon thread fault, thereby to stop the mechanism.

29. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, stopping mechanism, an abutment carried by the feeler, a member moved by the actuator, and means whereby the abutment and member engage upon warp fault, thereby to stop the loom.

80. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler moved independently of the lay, and co-acting means having two pathsof movement and confined to one of said paths of movement by contact of the feeler with an abnormally positioned detector thereby to separate the feeler and said abnormally positioned detector and to stop the machine.

31. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, and means rendered operative by contact of the feeler with an abnormally positioned detector upon either stroke to withdraw the feeler from said detector.

32. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, an abutment adapted upon engagement of the feeler with an abnormally positioned detector to be moved into impact position, and a movable member operatively connected to the actuator and adapted upon engagement with said abutment to have its path of movement affected to separate the feeler and abnormally positioned detector, and to stop the machine.

33. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector,

an actuator for said feeler, an abutment adapted upon engagement of the feeler with an abnormally positioned detector to be moved into impact position, and a member carried by the actuator and adapted to engage the abutment when in impact position i and thereupon to withdraw the feeler from the abnormally positioned detector.

stopping mechanism and amember operatively connected to said stopping mechanism and operated by said actuator and adapted to engage a lateral projection of said feeler when abnormally positioned.

35. A stop mechanism comprlslng Warp supported detectors adapted tobe abnor mally positioned upon warp fault, afeeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, said feeler having projections extending therefrom in the plane of movement thereof, stopping mechanism, and a memberoperatively connected to said stopping mechanism and operated by said actuator and adapted to engage a projection when abnormally positioned. j a

36. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, projections extending from said feeler, stopping mechanism,

and a member operatively connected thereto and operated by said actuator and adapted to engage a projection when abnormally positioned. i

37. A stop mechanism comprising warp supported detectors, adapted to beabno-r mally positioned upon Warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an

actuator for said feeler, a rock shaft where-- on the feeler is mounted, means permitting movement of the rock shaft Without movement of'the feeler, a feeler actuated member, stopping mechanism, connections be tween said stopping mechanism and said feeler actuated member, and means whereby upon movement of the rock shaft independent of the feeler the feeler actuated member is rendered active and the loom is stopped.

38. A stop mechanism comprising Warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by anabnormally positioned detector, an

actuator for said feeler, a rock shaft whereon the feeler and actuator are mounted, means permitting movement of the rock shaft by the actuator without movement of the feeler upon engagement of the feeler with an abnormally positioned detector, stopping mechanism, and a member operatively connected to the stopping mechanism and operated by the actuator and adapted upon such independent movement of the rock shaft to operate the stopping mechanism.

39. A stop mechanism comprisin Warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, abutments carried by said feeler, stopping mechanism, a lever pivoted upon the actuator and operatively connected to the stopping mechanism, and provisions whereby upon engagement of the feeler with an abnormally positioned detector said lever engages an abutment upon the feeler to operate the stopping mechanism.

L0. A stop mechanism comprising thread supporting detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path eXteriorly to the detectors that is intercepted by engagement with an abnormally positioned detector, an actuator for said feeler, a secondary feeler, means to move the same, stopping mechanism, and provisions whereby when the first feeler is intercepted by an abnormally positioned detector, the secondary feeler effects loom stoppage.

tl. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, an oscillatory feeler adapted to move in a path that is intercepted by engagement with an abnormally positioned detector, an actuator for said feeler, a secondary feeler, means to move the same in a determined path to be intercepted when the first feeler encounters an abnormally positioned detector, stopping mechanism and connections therefrom to said'secondary feeler, whereby the loom is stopped when the secondary feeler is intercepted.

42. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector and operative upon either stroke, an actuator for said feeler, and means operative upon either stroke of said feeler in the event of the abnormal positioning of a de tector to separate the feeler and said detector.

43. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercept ed by an abnormally positioned detector, an actuator for said feeler, an abutment so operatively connected to the feeler as to be positioned by an indicating drop for loom stoppage, and a bunter distinct from the lay and adapted to engage said abutment, thereby to stop the loom While removing from the abnormally positioned detector the strain of loom stoppage.

M. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a bunter operated by a going part of the loom distinct from the lay, and an abutment having a yielding connection with said actuator and adapted to be engaged by said bunter to stop the loom.

45. A stop mechanism comprising Warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, stopping mechanism, an abutment having a support common with that of said feeler, and a bunter to engage said abutment and having connections to impart thereto a normal path of movement, said bunter and said abutment being so relatively mounted as to be brought into engagement in the event of warp fault, said engagement of the bunter and abutment effecting a change in the path of movement of said bunter, thereby to actuate said stopping mechanism.

46. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector,

an actuator for said feeler, a rock shaft whereon the feeler is mounted, means permitting movement of the rock shaft without movement of the feeler, a feeler actuated member, stopping mechanism, and connections between said stopping mechanism and L said feeler actuated member.

47. A stop mechanism comprising Warp supported detectors adapted to be abnormally positioned upon Warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a rock shaft Whereon the feeler and actuator are mounted, means permitting movement of the rock shaft by the actuator without movement of the feeler upon engagement of the feeler with an abnormally positioned detector, and stopping mechanism operated upon intercepted movement of the feeler.

as. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, means distinct from the lay for so moving said feeler, a bunter operated independently of the lay and operatively related to the feeler to remove from the abnormally positioned detector the strain of loom stoppage, whereby the strain of loom stoppage is not borne nor shared by the abnormally positioned detector, and stopping mechanism made effective by the bunter and independently of the lay;

49. A loom stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, a cam upon the wefticam shaft for so moving the feeler, a bunter operated independently of the lay and operatively related to the feeler to remove from the abnormally positioned detector intercepting the feeler the strain of loom stoppage, whereby the strain of loom stoppage is not borne nor shared by the abnormally positioned detector, and stopping mechanism made effective by the bunter.

50. A loom stop mechanism, comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler to engage anv abnormally positioned detector, an actuator for said feeler, means distinct from the lay and operatively related to the feeler to remove from the abnormally positioned detector the strain of loom stoppage and stopping mechanism made effective by said means.

51. A loom stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler to engage an abnormally positioned detector, an actuator for said feeler, a hunter supported by said actuator to remove from the abnormally positioned detector the strain of loom stoppage, and stopping mechanism made effective by said bunter.

52. A loom stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, feeler to engage an abnormally positioned detector, an actuator for said feeler, means including an abutment to remove from the abnormally positioned detector the strain of loom stoppage, said actuator having a part whereon said abutment is pivoted, and stop ping means made effective by said means.

58. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a-feeler having a movable support adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means distinct from the lay for operating said actuator, an abutment independent of the lay and rigid with the feeler, a moving member and provisions whereby said abutment is held in the path of the moving member upon the occurrence of a thread fault.

54:. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a plurality of abutments normally in inoperative position, means to move the said abutments into operative position and connections including means movable with the actuator whereby movement of either of said abutments into operative position actuates the stop mechanism.

55. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, and positioned and arranged to contact with the outer surface of an abnormally positioned detector, an actuator forsaid feeler, stopping mechanism, an abutment rigid with the feeler, independent of the lay and normally inoperative, and means operative upon either stroke of the feeler and including a bunter for said abutment whereby the loom is stopped upon the occurrence of a warp fault.

56. A stop mechanism comprising thread supported detectors adapted to be abnor-v mally positioned upon thread fault, a feeler adapted to movecin a path that is intercepted by an abnormally positioned, detector, an actuator for said feeler, cooperating means having two curved paths of pivotal movement about two centers and confined to one of said paths of movement by contact of the I feeler with an abnormally positioned detector, thereby to separate the feeler and said abnormally positioned detector and to stop the machine.

57. A stop mechanism comprising thread supporting detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a feeler actuated member normally movable in a deter-mined path and constructed and arranged upon engagement of the feeler with an abnormally positioned detector to engage said feeler and to have such path of movement thereby affected, stopping mechanism, and a stoppage actuating connection between the feeler actuated member and the stopping mechanism rendered operative when such pathof movement is affected.

58. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a plurality of abutments in proximity to said feeler and normally in inoperative position, said abutment being constructed and arranged whereby upon the occurrence of a thread fault one of said abutments is operatively positioned, and stopping mechanism rendered operative thereby and including means adapted to contact with the operatively positioned abutment.

59. A stop mechanism comprising warp supported detectors adapted to be abnor mally positioned upon warp fault, a feeler adapted to move in a path that is intercept ed by an abnormally positioned detector, an actuator for said feeler, stopping mechanism, a plurality of abutments independent of the lay and carried by the feeler and normally inoperative, and means operative upon either stroke of the feeler and including a hunter, and a feeler actuated member normally movable in a determined path and adapted upon engagement of the feeler with an abnormally positioned detector to have such path of movement thereby affected, whereby the loom is stopped upon the oc currence of a warp fault.

60. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, and having an abutment portion, an actuator for said feeler, means carried by the actuator and extending into proximity to the feeler and adapted to be abnormally positioned upon the occurrence of a thread fault and to engage the abutment portion of said feeler, stopping mechanism, and a movable member operatively connected with the stopping mechanism, the movement of said movable member being governed by said means when abnormally positioned.

61. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to movein a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, a plurality of abutments carried by the feeler and normally in inoperative position, said abutments being constructed and arranged to move into operative position and connections whereby movement of either of said abutments into operative position actuates the stop mechanism and including means adapted to contact with the operativcly positioned abutment.

62. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned on thread fault, a feeler to engage an abnormally positioned detector,

an actuator for said feeler, means having a continuous movement in one direction for operating said actuator, an abutment operatively related to the feeler to remove from the abnormally positioned detector'engaged by the feeler the strain of loom stoppage, so that the strain of loom stoppage is not borne or shared by the abnormally positioned detector, and stopping mechanism made effective by and operatively associated with said abutment.

6. A stop mechanism comprising thread supported detectors adapted to be abnor mally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means driven at a less speed than the main drive shaft of the machine for operating said actuator, stopping mechanism, and an abutment operatively related to the feeler to remove the strain of loom stoppage from an abnormally positioned detector intercepting the feeler and operatively connected to said stopping mechanism, so that the strain of loom stoppage is not borne or shared by the abnormally positioned detector.

64-. A stop mechanism comprising warp supported detectors adapted to be abnormally positioned upon warp fault and a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator for said feeler, means driven at a less speed than the main drive shaft of the machine for operating said actuator, stopping mechanism, and an abutment to remove, prior to loom stoppage, the strain of the feeler from an" abnormally positioned detector intercepting the feeler, whereby the strain of loom stoppage is not borne nor shared by the abnormally positioned detector.

(35. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an actuator lever for said feeler, a feeler actuated member carried by the actuator lever and having movement relative to the feeler, said feeler actuated member being normally movable in a determined path and adapted to have its path of movement modified upon engagement of the feeler with an abnormally positioned detector, stopping mechanism and a stoppage actuating connection between the feeler actuated member and the stopping mechanism rendered operative when such path of movement is affected.

G6. A stop mechanism comprising thread supported detectors adapted to be abnormally positioned upon thread fault, a feeler adapted to move in a path that is intercepted by an abnormally positioned detector, an acmeans to move the said abutments into optuator for said feeler, a plurality of abut- In testimony whereof, I have signed my ments normally in inoperative position,

name to this specification, in the presence of 10 two subscribing witnesses.

'erative position and connections including means movable with and also relatively to CHARLES LANNING' the actuator, whereby movement of either of Witnesses:

said abutments into operative position ac- "IRVING U. TowNsEnD, tuates the stop mechanism. ROBERT H. KAMMLER.

Copies of'this' patent may be obtained for five cents each, by addressing th Commissioner of latents, Washington, D. G. l I