US749364A - Waskin - Google Patents

Description

PATENTED JAN. 12,1904. 7

v E. GUNNIFP. FILLING DETECTING MECHANISM FOR LOOMS.

APPLICATION FILED JULY 11, 1903.

2 anus-$113 1. I

I0 MODEL.

mhnme'lf PATIENTED JAN. 12, 1904'.v

" E. GUNNIFF.

FILLING DETECTING MECHANISM FOR LOOMS.

APPLICATION FILED JULY 11, 1903- H0 MODEL. 2 SHEBTS-SHEET 2.

A UNITED STATES Patented January 12, 1904.

PATENT OFFIC EDWARD CUNNIFF, OF NEW BEDFORD, MASSACHUSETTS, ASSIGNOR. TO DRAPER COMPANY, OF HOPEDALE, MASSACHUSETTS, A CORPORATION OF MAINE.

To all whom it mayconccrn:

Be it known that I, EDWARD CUNNIFF, a citizen of the United States, and a resident of New Bedford, county of Bristol, State of Mas sachusetts, have invented an Improvement in Filling Detecting Mechanism for Looms, of which the following description, in connection with the accompanying drawings, is aspecification, like characters on the drawings repre- 1o senting like parts. A

This invention relates to mechanism for detecting the failure or absence of fillingin a loom, and it is applicable either to a plain loom or to one provided with'automatic fillingi replenishing mechanism, as will be apparent .hereinafter. Ineither type of loom the filling-fork not only detects the presence or absence of filling, but it is also usually called upon to assist in the movement of the forkslide by or through the loop or tail, which latter may or may not be an integral part of the fork. The fork has to perform more work in a filling-changing loom, for when there is no filling in front of the fork on the detecting- 2 5. pick the fork-tail catches on the hook of the cam-follower or weft-hammer and is carried forward by the latter to actuate the various devices controlled by or operated from the starting-rod or operating rock-shaft viz. the .3 shuttle-feeler, latch, shipper knock-ofl, &c. In order to perform such work, the fork has secured by increased weight. A fork which A then is strong enough to perform properly the work required may not be'delicate enough in its action for certain very fine yarns nor so good as a lighter one for any yarn.

The present invention has for its object the production of means for materially reducing 4 the work which the fork must perform or-in performing which the fork is an active element, so that the fork itself may be made very light in weight and correspondingly delicate in its action.

The various-novel features of my invention will be fully described in the subjoined specifollowing claims.

to be made quite strong, andthis strength is fication and particularly pointed out in the FILLING-DETECTING MECHANISM FOR LOOMS.

SPECIFICATION forming part of Letters Patent No. 749,364, dated January 12, 1904.

Application filed July 11, 1903. Serial No. 165,095. (No model.)

Figure 1 is a transverse sectional view, on the line 1 1 Fig. 2 of a sufiicient portion of a loom with one, embodiment of. mypresent invention applied thereto. Fig. 2 is a top or plan view of the shipper side of the loom, showing the mechanism illustrated in Fig. l with the exception. of the lay. Fig. 3 .is an enlarged detail, in side elevation and partly broken out, of the weft-hammer, filling-fork, and the means whereby the weft-hammer effects movement of a slide when the fork detects absence of filling, the fork being just ready to detect. Fig. 4 is a similar view, but showing the manner in which the fork prevents movement of the slide by or through the weft-hammer when the presence of filling is detected by the fork,'-; 5 is a like view, but showing how the slide is moved when the absence of. filling is detected and without subjecting =thefork to any material strainrand Fig. 6 is a detailof the upper end of the wefthammer andthe cooperating part on the slide in the position shown in Fig. 3, but viewed from the opposite side.

Heretofore, so far as I am aware, the weft or filling fork has been mounted on a slide, and the latter is moved outward by or through the agency of the fork itself when the absence of filling is detected; butin my present invention the forkis mounted wholly independ ent of the slide andon a relatively fixed part of the loom,- The slide is provided with a dog adapted. to be engaged on the outward stroke of the actuator (by which term I mean the vibrating cam-follower or weft-hammer;) but the latter is providedwith a relatively movable controller, which under normal conditions prevents-cooperation of the dog and actuator. When, however, the fork detects the absence of filling, it renders the said controller inoperative, and the actuator engages the dog and moves theslide outward to effect the actuation of other mechanism, such as stopping means or filling changing or replenishing means. The only work which the fork is called upon presence or absence of filling and the move to perform, therefore, is the detection of the ment of the dog controller relatively to the actuator, so that the fork can be made exceedingly light and delicate in its operation to properly act with the finest or softest filling.

In Figs. 1 and 2 the breast-beam A, the shipper N, its notched holding-plate N Fig. 2, the knock-off lever 72 n, and the rock-shaft or controlling-rod d, having an upturned arm.

- N o. 529,940-when the rock-shaft is turned in the direction of arrow 50, Fig. 1, as will be described. A vibrating actuator or weft-hammer (shown as a cam-follower W in Fig. 1) is fulcrumed at VV on the loom side and is vibrated toward and from the front of the loom by a cam W on the usual cam shaft C in usual manner. A stand or guide M is rigidly secured to the breast-beam and transverse thereto for a slide 1 having a downturned lug n at its front end to limit rearward movement of the slide, the arm (Z and the arm n of the knock-off lever n n being located in front of the outer end of the slide, as clearly shown in Fig. 2. This slidable member corresponds in function essentially to the usual so-called fork-slide in a loom in so far that its outward movement (which is effected by or through the actuator W) causes the operation of some mechanism, such as a loom-stopping instrumentality or a filling-replen ishing mechanism; but it widely differs fromthe usual slide in that it does not support and is wholly independent of the filling detector 'or fork. The guide is herein shown as prolonged at its rear end to form two laterally-separated extensions 171 connected at their extremities by a pin m on which the filling detector or fork f is fulcrumed, said detector having a forwardly-extended loop or tail f substantially of well-known construction, except that the fork andtail may be made light enough to operate properly with very delicate yarn. A cross-bar m connects the lower portions of the extensions m forming a support for the hook w", connected with the weft-hammer or actuator W in a novel manner, to be described, the upper end of the latter vibrating between said extensions, and, referring to Fig. 2, they have upright shoulders on at their inner ends,

which form stops to limit rearward movement of the slide N the latter being cut away at its inner end at n. The spring s normally holds the slide against the shoulders. Upturned ears a on the slide receive between them the prolonged end of a dog n fulcrumed on said ears by a transverse pin 02, a lateral lug 02/ on the dog near its fulcrum normally resting on the top of the slide, Figs. 1, 3, and 5.

Referring to Fig. 6, one side of the dog has an upright groove 5 formed in it to receive a block a, having its lower end shouldered at a and held in vertically-adjusted position by a set-screw 6, passed through a slot 7 in the block and into the bottom of the groove. The lower edge of the dog at the side of the block is convexed, as at a, Figs. 3, 4, and 5, and when the loom is running properly this curved edge will be engaged intermittingly and the dog 01. lifted by the rounded upper end 0 of a controller 0, fulcrumed on the side of the actuator W at c and having an offset hooked arm 0 A spring 8 attached at one end to the hooked arm and at its other extremity secured to a pin 10 on theactuator, serves to hold the controller in the position shown in Figs. 3 and 4, with its rounded end 0 above a bunter w on the actuator, the bunter being laterally extended at w to form a stop for the controller. The spring is only strong enough to hold the controller in operative position with sufficient force to lift the dog, as shown in Fig. 4, on the forward stroke of the actuator, and the hook w is fulcrumed at c on the side of the controller. The block a is so adjusted in the dog that its shoulder a will be in the path of and will be engaged by the bunter w on its forward stroke if the dog is not lifted, and when such engagement is effected the slide 1 3 will be moved outward, as shown in Fig. 5, to operate a stopping instrumentality or through the rock-shaft (1' cause the operation of a filling-replenishing mechanism.

Supposing that in Fig. 3 the lay is on its forward beat and the actuator W is moving forward, as it does on alternate picks, then if the filling is present the fork will be tilted and the movement of the actuator will draw the hook w forward, the tail f" thereafter dropping, as shown in Fig. 4. The controller 0 is in'position to lift the dog a into inoperative position, and the shoulder a is raised above the path of the bunter w, and the slide N will not be moved. If, however, the filling is absent, the fork will not be tilted and its tail will remain in engagement with the hook wa and when the actuator moves forward the controller 0 will be moved on its fulcrum 0 relatively to the actuator against the pull of the spring .9 as in Fig. 5, and the dog will not be moved into inoperative position. Thereupon the shoulder n and the bunter engage and the slide is moved outward, as described, the bunter being notched to prevent disengagement of the shoulder therefrom. On the backward stroke of the actuator the parts are restored to the position shown in Fig. 3, and if filling-replenishment has been effected and the new filling is properly laid the fork will be tilted on the next detecting-pick and on succeeding detecting-pick until another fault occurs. It will be manifest that the only work the fork must perform is to detect presence or absence of filling and to move the controller 0 into inoperative position when the filling is absent, and in the latter case the only strain upon the fork is that requiredto stretch the spring a which can be made veryweak,

so that a fork of very light weight can be employe d. The stop-lug n prevents the dog 92 it from dropping down below its proper position when the actuator moves back.

My invention is not restricted to the precise construction and arrangement herein shown and described, for, so far as I am aware, ii ts broadly new to mount the filling fork or detector independently, of the movable member a weft-hammer, upon the detection of absence of filling, and accordingly various changes or inodifications may be made by those skilled in l 1 the art without departing from the spirit and i scope of my invention.

A f Having fullydescribedmy invention, what I claim as new, and desire to secure by Letters a Patent, is- 1. In a loom, means, including an actuator I and a slide, to efi ect the operation of a fillingreplenishing mechanism or a loom-stopping instrumentality, a fixed stand in which the slide moves, a filling-detector mounted independent of the actuator and the slide, and means controlled by the detector to prevent cooperation of the slide and actuator when presence of filling is detected. 1 l t 2. In a loom, means, including an actuator [and a slide, to effect theoperation of a fillingreplenishing mechanism or a loom-stopping instrumentality, a dog pivotally mounted on theslide, to be engaged at times bythe actuator, a filling-detector, a stationary support therefor and means controlled by said detector J and actuator when presence of filling is detected. p U 3. In aloom, means, including a vibrating r 1 1 actuator and a slide, to efiect the operation of a loom-stopping instrumentality or a filling- ,replenishing mechanism, and a membermovably mounted on and supported wholly by the slide to be operatively engaged by the actuator and move the slide, a filling-fork mounted means controlled by the detector to move the said member into inoperative position when presence of filling is detected.

4:. In a loom, a slidable member adapted by p its movement to cause the operation of a filling-replenishing mechanism or a loom-stopping instrumentality, a dog mounted thereon, an actuator, and means automatically operative when the filling is present to prevent, and q when the filling is absent to permit, cooperation of the actuator and dog, such cooperation eluding a tilting filling-detector mounted independent of the actuator and the slide.

, 5. In a loom, a slidable member adapted by its movement to cause the operation of a fill- C ing-replenishing mechanism or a loom-stopping instrumentality, a dog pivotally mountor slide to be operated by an actuator, such as to prevent operative engagement of said dog independent of the slide and actuator, and

causing movement of the slide, said means in- V pendently of the slide and operative when the filling is present to prevent, and when the filling is absent to permit, cooperation of the actuator and dog, said means including a filling-detector mounted on a stationary support.

6. In a loom, a slidable member adapted by its movement to cause the operation of a filling-replenishing mechanism or a loom-stopping instrumentality, a dog mounted thereon, an actuator, and means mounted wholly independent of the slide and including a part mounted on the actuator, and operative when the filling is present to prevent, and when the filling is absent to permit, cooperation of the actuator and dog. i i

7. In a loom, a vibrating actuator, a member moved by cooperation therewith to cause the operation of a filling-replenishing mechanism or a loom-stopping instrumentality, and means mounted wholly independent of said member and operative when the filling is present to prevent such cooperation of said member and the actuator, said means including a filling-fork pivotally mounted on a stationary support.

8. In a loom, a vibrating actuator, a member moved by cooperation therewith to cause the operation of a filling-replenishing mechanism or a loom-stopping instrumentality, and means mounted wholly independent of said movable member and including a part mounted on the actuator, to effect cooperation of the latter with the actuator when the filling is absent and to prevent such eooperation when the filling is present.

9. In a loom, a vibrating actuator, a me1nber moved by cooperation therewith to cause the operation of afilling-replenishing mechanism or a loom-stopping instrumentality, and means, including a part mounted on the actuator and a filling-detector mounted independently of the actuator and said movable member, to effect cooperation of the latter with the actuator when absence of filling is detected by thefilling-detector.

10. Ina loom, a vibratingactuator, a member moved by cooperation therewith to cause the operation of a filling-replenishing mechanism or a'loom-stopping instrumentality, and means, including a part mounted on and movable relatively to the actuator, and a filling-detector controlling such part and mounted independently of the actuator and said movable member, to effect cooperation of the latter when absence of filling is detected and to prevent such cooperation when the filling is present.

11. In a loom, a movable member to cause by its movement the operation of a loom-stopping instrumentality or a filling-replenishing mechanism, a dog on said member, a vibrating actuator to at times cooperate with the dog and effect movement of said member, a

controller on and movable relatively to said actuator, to normally render the dog inoperative, and a filling-detector independent of said member and governing the relative movement of the controller, said detector upon detection of the absence of filling rendering the controller inoperative and permitting cooperation of the dog and actuator.

12. In a loom, a slide, a dog mounted thereon, an actuator having a bunter to cooperate with the dog and move the slide, a dog-controller on and also movable relatively to the actuator, and a filling-detector to cause relative movement of the controller into inoperative position when absence of filling is detected, to thereby effect cooperation of the dog and actuator.

13. In a loom, a slide, a dog mounted thereon, an actuator having a bunter to cooperate with the dog and move the slide, a controller pivotally mounted on the actuator and having a hook, said controller normally engaging the dog and moving it out of the path of the bunter, and a filling-fork pivotally mounted independently of the slide and having a tail to engage the hook when the filling is absent, such engagement rocking the controller and permitting the dog to be engaged by the bunter.

14. In a loom, a slide, a dog mounted thereon, a weft-hammer having a bunter to cooperate with the dog and move the slide, a controller pivoted on the weft-hammer andhaving a hook, a spring to retain the controller in position to move the dog out of the path of the bunter, and a filling-fork mounted independently of the slide and having a tail to engage the hook when the filling is absent,such engagement rocking the controller against its spring relatively to the weft-hammer and permitting the dog to be engaged by the bunter.

15. In a loom, a slide having a dog, a stationary guide for the slide, a filling-fork mounted on said guide, a Weft-hammer having a bunter to cooperate with the dog and move the slide, a controller on and movable relatively to said weft-hammer, to normally move the dog out of the path of the bunter, and a hook on the controller to be engaged by the fork upon detection of filling failure, such engagement moving the controller into inoperative position andpermitting the bunter to cooperate with the dog.

16. In a loom, a slidable member adapted by its movement to cause the operation of a loom-stopping instrumentality or a filling-"1- plenishing mechanism, a fixed stand in which said member is slidably mounted, an actuator to move said member, and means operative automatically upon absence of filling, and including a filling-detector mounted on a fixed support and independent of said member and actuator, to effect their cooperation and con sequent movement of said member.

17. In a loom, a slide, a vibrating actuator to effect its movement by cooperation therewith, and means, including a filling-fork mounted independentof the slide and actuator, to effect their cooperation upon detection of absence of filling.

18. In a loom, a slide, a guide therefor, a vibrating actuator to move the slide when in engagement therewith, a filling-fork mounted on the guide, and means governed by the fork to eifect engagement of the slide and actuator upon detection of the absence of filling.

19. In a loom, a slide, a vibrating actuator to move the slide when in cooperative engagement therewith, means to prevent such engagement when the filling is properly laid, and a device mounted independently of the slide and actuator, to render. said means inoperative when the continuity of the filling is interrupted.

In testimony whereof I have, signed my name to this specification in the presence of two subscribing witnesses.

EDWARD CUNNIFF.

Witnesses:

FREDERICK DA TERRA, MANARD C. CRUZ.

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