US1777381A

US1777381A - Warp stop motion

Info

Publication number: US1777381A
Application number: US316832A
Authority: US
Inventors: Regan John
Original assignee: Crompton and Knowles Corp
Current assignee: Crompton and Knowles Corp
Priority date: 1928-11-02
Filing date: 1928-11-02
Publication date: 1930-10-07
Anticipated expiration: 1947-10-07

Description

oct. 7, 1930. MEG/1,4 1,777,381

WARP STOP MOTION Filed Nov. 2, 1928 2 ShoetQ-Sheet 1 f1 it;

aseo 277130 im M /fwdqcrrjfN-Jj /7 77'0/P/1/Eys @et 7, 1930. J. REGAN WARP STOP MOTION Filed Nov. 2, 1928 2 Sheets-Sheet /7 77E/PMX@ Patented @ct '7, A193() UNET STATES PATENT r'FIC JOHN REGAN, OF NEW BEDFORD, 'M'ASSACHUSETTS ASSIGNOR TO CROMPTON & KNOWLES LOOM WOR-KS, F WORCESTER, MASSACHUSETTS, A CORPORATON OF MASSACHUSETTS WAR? s'ror Morroiv Application led November 2, 1928. Serial No. 316,832.

rlhis inventionv relates to a stop motion for use in stopping a loom upon breakage or slackness of one or more Warp threads. This general type of stop motion is shown in my prior patent, Reissue No. 14,829, dated March It is the object of my present invention to improve and simplify the construction of the stop motion shown in my prior patent, making the same less expensive to manufacture and more reliable and effective in operation.

My invention further relates to arrangements and combinations of parts which will Y be hereinafter described and more particularly pointed out in the appended claims.

A preferred form of the invention is shown in the drawings in which Fig. l is a side elevation of parts of a loom having my improvements applied thereto;

Fig. 2 is a. plan View of the same parts;

Fig. 3 is an end view of the stop motion;

Fig. 4 is a front elevation thereof;

Fig. 5 is a detail view similar to Fig. 3, but showing the parts in a different position;

Fig. 6 is aside elevation of an actuating cam;

Fig. 7 shows one of the drop wires used with my improved stop motion; and

Figs. 8 and 9 are detail side and front elevations showing a slight modification.

Referring to the drawings, I have shown parts of a loom including a loom frame l0, a shipper handle 11 pivoted at 12, and a bottom or cam shaft 13 rotatable in bearings 14 in the loom frame.

My improved stop motion comprises end members (Figs. 3 and 4) secured on forwardly projecting rods 21, which in turn are mounted in supports 22 which are vertically adjustable in brackets 23 fixed to the loom frame.

A plurality of vibrator rods 25 (FiO'. 4) of noncircular cross section are mounted. in bushings 26 rotatable in the end members 20. Each bushing 26 has an arm 27 connected thereto, which is provided with a pivot stud 28 at its lower end. rl`hese pivot studs 28 are connected by

links

29 and 30, and the forward stud 28a is connected vto a two-piece rod 31, which may be adjusted in length by a turn-buckle 32 (Fig. 1). At is forward end, the rod 31 is supported in a bearing 32nu and is provided with an eye through which eX- tends a substantially vertical rod 33.

The shipper handle 11 has a shoulder 34 overlying the upper end of the rod 33 when the latter is in its rearward or normal position. The rod 33 is pivoted at 35 to the front end of a lever 36, having a depending arm 37 engaging a cam 38 mounted for angular adjustment on the bottom shaft 13.

As the cam rotates, the lever 36 is periodically raised to the dotted line position indicated in Fig. 1. If this upward movement occurs when the vertical rod 33 is in its rearward position, the rod 33 engages the shoulder 34 and moves the shipper handle 11 to stop the loom.

The rearmost bushing 26 (Fig. 3) is provided with an upwardly and rearwardly eX- tending arm 40 on which a depending tube or hollow sleeve 42 is pivoted at 41. A rod 43 is slidable in the sleeve 42 and has a collar 44 limiting upward movement thereof relative to said sleeve.

The lower end of the rod 43 is pivoted on a stud 46, horizontally adjustable in a slot 47 in the rear end of a cam lever 48. The

levers

36 and 48 are preferably mounted on a common pivot stud 49 (Fig. 2). The lever 48 has a depending projection 50 engaging a second cam 51 on the cam shaft 13. The y cams 38 and 51 may be formed as a single unit, as indicated in Fig. 6.

I have provided a pivoted guard plate 70 to prevent axial displacement of the bushings 26 and arms 27. They arrangement of parts in my improved stop motion permits this single guard plate to be used, in place of the two or more guards found necessary in my previous construction.

Having described the details of construction of my improved stop motion, the operation thereof will be easily understood. Drop wires lN are strung on the vibrator rods 25, each drop wire having an opening 'with an enlarged lower portion y and. a narrow upper portion 61. When supported on warp lit threads, the wires are raised so that the vibrator rods 25 move freely in the enlarged lower portions 60 of the drop wire openings. The actuator rod 43 is raised at every revolution ofthe cam shaft 13, which corresponds to every second pick of the loom.

The collar 44 engages the lower end of a sleeve 42 and the arm 40 is rocked from the dotted line to the full line position indicated inFig. 3, thus bringing the vibrator bars to a' .vertical position. 7h-enl the arm 40 is thus raised, the rodi-31 is drawn rearward and the vertical rod 33 is positioned under the shoulder 34, as indicated in full lines in Figa 1.

As the cam shaft 13 continuesrto rotate, the actuator rod 43 descends and ii'there are no fallen drop wires, the sleeve 42 follows the actuator rod and the arm 40 moves to the dotted line position in Fi-g. 3, causing the vertical rod 33 to move to the dotted line position shown in F ig. out of alignment with the shoulder 34.

1f a warp thread has broken, however, the corresponding drop wire grips oneof the vibrator rods 25 and' retains it in vertical position, preventing angular movement of the arms 27. The telescoping connection between the rod 43 and sleeve 42 permits the rodV 43 to move downward while the sleeve 42 remains in position, as indicated in Fig. 5`

The rod 31 is 4thus held rearward, retaining the rod 33 under the shoulder 34. The lever 36 is thereupon rocked by the cam 38 and the shipper lever is moved to stop the loom. The extent of rocking movement of the vibrator bars may be adjusted by variablv positioning the stud 46 in the slot 47.

he combined cams 38 and 51 may be angularly adjusted on the shaft 13 to vary the timing of the stop motion relative to the harness movements.

In Figs. 8 and 9, I have shown a shipper handle 80 having an abutment member or clip 81 secured thereto by a bolt 82 and adjustable vertically between guideways 83. This adjustable abutment is a convenience in accurate settingof the stopping mechamsm.

It will thus be seen that I have rovided an exceedingly simple mechanism igor stopprg the loom upon breakage of warp threads an that the stop motion operates entirely Without the use of springs and with a minimum number of moving parts.

Having thus described my invention and the advantages thereof, I do not wish to be iimited to the details herein disclosed, otherwiset-han as set forth in the claims, but what I claim is:-

1. In a loom, a shipper lever, a knock-off member :tor sai-d lever, a warp stop motion comprising vibrator rods and swinging arms consaid knock-orf member, actuating means for said stop motion effective to move said control rod in one direction to operatively position said knock-nii member, said actuating means being ireely movable in the opposite direction when return movement of said control rod is prevented by a fallen drop wire, and additional means to move said lnockoii member periodically in a different direction, such latter movementv causing loom stoppage if said knock-ofil member isoperatively positioned.

2. In a loom, a warp stop motion comprising a vibrator rod, an actuating arm connected to rock said rod, an actuating member for said arm, and atei-escoping connection between said member and arm permitting movement ofA said member in one direction independent of said" arm, said telescoping connection comprises a depending sleeve pivoted to said arm, a rod freely slidable therein, andl means to limit such sliding movement.

3'. In a loom, a warp stopmotion comprising a vibrator rod, an actuating arm connected to rock said rod, an actuating member for said arm, and a telescoping connectionebetween said member and arm permitting movement of said member in one direction independent of said arm, said telescoping connection comprises a depending sleeve pivoted to said arm, a rod freely slidahle thercim and a collar adjustably secured to said rod and engaging the lower end of said sleeve to limit such sliding movement.

4. In a loom, a shipper handle having a shoulder thereon, a rod mounted adjacent said shipper handle, a 'warp stop motion including a vibrator bar, an actuator through which said vibrator bar is regularly oscillated and through which said rod is regularly moved into and out of alignment with said shoulder, connections between said vibrator bar and said rod' through which said rod is retained in operative position by a fallen drop wi re, said actuator being freely movable in the opposite direction when said rod is thus retained in operative position, and means to move said rod periodically endwise, which endwise movement is effective to stop the loom if said rod is operatively positioned.

In testimony whereof I have hereunto affixed my signature.

JOHN REGAN.