US807721A - Let-off mechanism for looms. - Google Patents

Let-off mechanism for looms. Download PDF

Info

Publication number
US807721A
US807721A US24093505A US1905240935A US807721A US 807721 A US807721 A US 807721A US 24093505 A US24093505 A US 24093505A US 1905240935 A US1905240935 A US 1905240935A US 807721 A US807721 A US 807721A
Authority
US
United States
Prior art keywords
warp
lever
roll
whip
circuit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US24093505A
Inventor
Thomas A B Carver
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US24093505A priority Critical patent/US807721A/en
Application granted granted Critical
Publication of US807721A publication Critical patent/US807721A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D49/00Details or constructional features not specially adapted for looms of a particular type
    • D03D49/04Control of the tension in warp or cloth
    • D03D49/06Warp let-off mechanisms

Definitions

  • This invention relates to let-off mechanism for looms, the object of the invention being to provide a simple mechanism for letting off the warp from the beam, so that a predetermined tension in the warp is uniformly maintained to assure the proper weaving of a fabric.
  • My loom involves, in connection with a warp-beam and a whip-roll, which may be of the usual character, an electric circuit, including a feedcontrolling device for said warp-beam, and circuit-controlling means automatically operable when the tension of the warp exceeds a certain point, whereby, as will hereinafter appear, the warp-roll can be so operated as to relieve the excessiveten- SlOIl.
  • Figure 1 is a side elevation of part of a loom involving my invention. shown in the preceding figure.
  • the framework of a loom upon which is mounted the main shaft 3, the warpbeam 4, and the whip-roll 5.
  • the warp passes from the warp-beam over the whip-roll 5, which, as will be understood, is mounted for free rocking motion upon the framing.
  • the whip-roll is represented as having lateral trunnions or gudgeons, as 6, only one of which is illustrated and which extends freely through and beyond a hub on the framework of the loom. (See Fig. 2.)
  • a lever 7 which to distinguish it from another lever hereinafter described may be termed a primary lever.
  • the primary lever 7 is rigidly united with the trunnion 6, so as Fig. 2 is a rear view of the parts 7 to constitute, in eflect, arigid part of the whiproll. This relation may be secured in any desired wayfor example, by a set-screw extending through the hub of the lever 7 at the junction of its two arms and bearing upon said trunnion. It will be seen that the lever 7 is of substantially angular form.
  • a secondary lever 8 having an enlarged or widened head of bifurcated form, the branches of which have screws 9 and 10 passing through sleeves thereon and adapted to be held in longitudinally-adjusted relation by means of checknuts.
  • the upper end of the short arm or branch of the primary lever 7 is arranged for back-and-forth motion, the inner face of said short arm having an electric contact member 11.
  • the screw 9 and the contact member 11 are insulated from the parts which directly carry them.
  • a conductor extends, a conductor, as 14, extending from the opposite terminal or pole of the motor to the contact 11, being intersected by a generator, as 14', which may be an electric battery or some equivalent means.
  • a pitman, as 15, is driven continuously from the main shaft in some suitable manner, as by means of an eccentric 16 thereon, said pitman being adjustably connected to the lower branch of the secondary lever 8, the adjustable connection being shown as the familiar pin-and-slot one.
  • a projection or offset represented as being at the extreme lower end of the lever 8) is connected one end of a sprin 16, the opposite end of said spring being a justably connected to the longer and arcuate arm of the lever 7.
  • the action of the organization is as follows: So long as the tension of the warp is course moving therewith, so as to carry the contact 11 against the screw 9, thereby closing the circuit involving the electric motor 12.
  • the shaft of the motor is illustrated as connected by worm-gearing (denoted in a general way by 17) with the warp-beam. When, therefore, the circuit is closed, the motor will be operated so as to turn the beam 4 in a direction to let off the warp, and consequently reduce the tension.
  • the spring 16 When the tension of the warp is reduced, the spring 16 will at once operate upon the lever 7 to return said lever and whip-roll to their original positions, during which motion the contact 11 is carried away from the screw 9 to break the motor-circuit, and therefore stop the motor, and the consequent motion of the warpbeam. This relation will be maintained until the tension in the Warp becomes sufficient to effect the closing, through the intervention of the agents described, of the motor-circuit, when the motor will again be 0 erated to relieve the excessive tension of t e warp.
  • the lever 8 which carries at its head the two screws 9 and 10, will be operated from the main shaft in such a way as to preserve a uniform tension in the warp during the cycle of the loomthat is to say, while the tension in the warp is being increased by the movement of the heddles or reeds the lever 8 is moved in a direction to permit the lever 7, and therefore the whip-roll 5, to rock toward the heddles, and vice versa.
  • the circuit might include a solenoid or electromagnet, the attraction'set up in which may release a bandbrake of any well-known form, or I may pass the current through an electromagnetic clutch of any well-known form geared to the warp-beam in such a way that the breakageof the current will release the clutch and allow the beam to revolve.
  • the screw 10 would be included in the circuit instead of the screw 9, for the reason that I have'described my preferred means for securing the novel results set forth and have suggested certain other modifications. Other ways of obtaining the functions desired can be readily made.
  • electric circuit including a feed-controlling device for said warp-beam, and means for controlling the circuit and automatically operable, when the pressure on the warp eX- ceeds a certain point.
  • a warp-beam a whip-roll
  • an electric circuit including a feed-controlling device, for said warp-beam, circuit-control ling means, automatically operable when the tension of the warp exceeds a certain point, and tensioning means acting against the whip-roll in opposition to the tension of the warp applied to said roll.
  • a let-off mechanism for looms the combination of a warp-beam, a whip-roll, an electric circuit, including a feed-controlling device, for said warp-beam, a lever rigidly associated with and movable with the whiproll, said lever having a circuit-closin device, and a spring connected with the ever and arranged to apply its tension to the whip-roll in opposition to that of the warp.
  • a let-off mechanism for looms the combination of a war -beam, a whip-roll, an electric circuit, inclu ing a feed-controlling device, for said warp-beam, a lever rigidly associated with the whip-roll and having a circuit-closing device, a second lever movable independently of the first lever and having a part of said circuit arranged for contact by said circuit-closer, means for vibrating the second lever from the main shaft of the loom,
  • a warp-beam a whip-roll
  • an electric circuit including a feed-controlling device, for said warp-beam, a lever rigidly associated with the whip-roll and having a circuit-closing device, a second lever provided with screws, between which said circuit-closing device is arranged to operate, one of the screws constituting part of said circuit, and said second lever being movable independently of the first lever, a spring connecting the two levers and serving to apply a tension to the whip-roll in opposition to that my hand in presence of two subscribing wit- 0 THOMAS A.
  • B. CARVER the combination of a warp-beam, a whip-roll, an electric circuit, including a feed-controlling device, for said warp-beam, a lever rigidly associated with the whip-roll and having a circuit-closing device, a second lever provided with screws, between which said circuit-closing device is arranged to operate, one of the screws constituting part of said circuit, and said second lever

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)

Description

No. 807,721. PATENTED DEC. 19, 1905. T. A. B. CARVER. LET-OFF MECHANISM FOR LOOMS.
APPLICATION FILED JAN.13, 1905.
THOMAS A. B. CARVER, OF GLASGOW, SCOTLAND.
LET-OFF MECHANISM FOR LOOMS.
Specification of Letters Patent.
Patented Dec. 19, 1905.
Application filed January 13,1905. Serial No. 240,935.
To a whom it may concern:
Be it known that I, THOMAS A. B. CAR ER, a subject of the Kin of Great Britain, residing at Glasgow, Scot and, have invented new and useful Improvements inLet-Off Mechanism for Looms, of which the following is a specification.
This invention relates to let-off mechanism for looms, the object of the invention being to provide a simple mechanism for letting off the warp from the beam, so that a predetermined tension in the warp is uniformly maintained to assure the proper weaving of a fabric.
My loom involves, in connection with a warp-beam and a whip-roll, which may be of the usual character, an electric circuit, including a feedcontrolling device for said warp-beam, and circuit-controlling means automatically operable when the tension of the warp exceeds a certain point, whereby, as will hereinafter appear, the warp-roll can be so operated as to relieve the excessiveten- SlOIl.
In the drawings accompanying and forming a part of this specification I illustrate an advantageous organization which can be very well employed for maintaining a uniform degree of tension of the warp, and I will describe in detail hereinafter the said organization.
Referring to the drawings, Figure 1 is a side elevation of part of a loom involving my invention. shown in the preceding figure.
Like characters refer to like parts throughout the views.
In the drawings I have represented by the numeral 2 the framework of a loom, upon which is mounted the main shaft 3, the warpbeam 4, and the whip-roll 5. These parts may be of the usual or ordinary construction. The warp passes from the warp-beam over the whip-roll 5, which, as will be understood, is mounted for free rocking motion upon the framing. The whip-roll is represented as having lateral trunnions or gudgeons, as 6, only one of which is illustrated and which extends freely through and beyond a hub on the framework of the loom. (See Fig. 2.)
, Upon the trunnion 6 is a lever 7, which to distinguish it from another lever hereinafter described may be termed a primary lever. In the present instance the primary lever 7 is rigidly united with the trunnion 6, so as Fig. 2 is a rear view of the parts 7 to constitute, in eflect, arigid part of the whiproll. This relation may be secured in any desired wayfor example, by a set-screw extending through the hub of the lever 7 at the junction of its two arms and bearing upon said trunnion. It will be seen that the lever 7 is of substantially angular form.
Loosely carried by the trunnion 6 is a secondary lever 8, having an enlarged or widened head of bifurcated form, the branches of which have screws 9 and 10 passing through sleeves thereon and adapted to be held in longitudinally-adjusted relation by means of checknuts. The screw 9, as will hereinafter appear, constitutes part of an electric circuit, including a feed-controlling device for the Warp-beam. Between what might be considered the points or opposite inner ends of the two screws 9 and 10 the upper end of the short arm or branch of the primary lever 7 is arranged for back-and-forth motion, the inner face of said short arm having an electric contact member 11. The screw 9 and the contact member 11 are insulated from the parts which directly carry them.
From the screw 9 to one terminal of the electric motor 12 a conductor, as 13, extends, a conductor, as 14, extending from the opposite terminal or pole of the motor to the contact 11, being intersected by a generator, as 14', which may be an electric battery or some equivalent means.
A pitman, as 15, is driven continuously from the main shaft in some suitable manner, as by means of an eccentric 16 thereon, said pitman being adjustably connected to the lower branch of the secondary lever 8, the adjustable connection being shown as the familiar pin-and-slot one. To a projection or offset (represented as being at the extreme lower end of the lever 8) is connected one end of a sprin 16, the opposite end of said spring being a justably connected to the longer and arcuate arm of the lever 7. It
will be understood that the tension of the spring 16 acts against that of the warp.
The action of the organization is as follows: So long as the tension of the warp is course moving therewith, so as to carry the contact 11 against the screw 9, thereby closing the circuit involving the electric motor 12. The shaft of the motor is illustrated as connected by worm-gearing (denoted in a general way by 17) with the warp-beam. When, therefore, the circuit is closed, the motor will be operated so as to turn the beam 4 in a direction to let off the warp, and consequently reduce the tension. When the tension of the warp is reduced, the spring 16 will at once operate upon the lever 7 to return said lever and whip-roll to their original positions, during which motion the contact 11 is carried away from the screw 9 to break the motor-circuit, and therefore stop the motor, and the consequent motion of the warpbeam. This relation will be maintained until the tension in the Warp becomes sufficient to effect the closing, through the intervention of the agents described, of the motor-circuit, when the motor will again be 0 erated to relieve the excessive tension of t e warp.
The lever 8, which carries at its head the two screws 9 and 10, will be operated from the main shaft in such a way as to preserve a uniform tension in the warp during the cycle of the loomthat is to say, while the tension in the warp is being increased by the movement of the heddles or reeds the lever 8 is moved in a direction to permit the lever 7, and therefore the whip-roll 5, to rock toward the heddles, and vice versa.
Although I prefer to operate the lever 8 in the manner described, I may in some instances accomplish the same results without such movement by mounting the two screws 9 and 10 and connecting the spring 16 with the frame of the machine.
Although I have described the beam as being revolved by a motor when the tension in the warp becomes greater than that previously determined upon, I may use other means for causing the closing or opening of an electric circuit to govern the action of the beam. For instance, the circuit might include a solenoid or electromagnet, the attraction'set up in which may release a bandbrake of any well-known form, or I may pass the current through an electromagnetic clutch of any well-known form geared to the warp-beam in such a way that the breakageof the current will release the clutch and allow the beam to revolve. In the latter case the screw 10 would be included in the circuit instead of the screw 9, for the reason that I have'described my preferred means for securing the novel results set forth and have suggested certain other modifications. Other ways of obtaining the functions desired can be readily made.
Instead of employing a spring, as 16, hereinbefore described, I might use its equivalent-a weight suspended from the long arm of the lever 7.
Having thus described my invention, what I claim, and desire to secure by Letters Patent, is
1. In a let-off mechanism for looms, the combination of a warp-beam, a whip-roll, an
electric circuit including a feed-controlling device for said warp-beam, and means for controlling the circuit and automatically operable, when the pressure on the warp eX- ceeds a certain point.
2. In a let-oil mechanism for looms, the combination of a warpbeam, a whip-roll, an electric circuit including a feed-controlling device for said warp-beam, and circuit-controlling means operative with the whip-roll.
3. In a let-ofi' mechanism for looms the combination of a warp-beam, a whip-roll, an electric circuit, including a motor, operatively connected with the warp-beam, and circuit-controlling means operative with the whip-roll.
4. In a let-off mechanism for looms, the combination of a warp-beam, a whip-roll, an electric circuit, including a feed-controlling device, for said warp-beam, circuit-control ling means, automatically operable when the tension of the warp exceeds a certain point, and tensioning means acting against the whip-roll in opposition to the tension of the warp applied to said roll.
5. In a let-off mechanism for looms, the combination of a warp-beam, a whip-roll, an
electric circuit, including a feed-controlling device, for said warp-beam, means for closing the circuit when the tension of the warp exceeds a certain point, and a spring, operatively associated with the whip-roll and serving to apply a tension to said roll in op position to that of the warp.
6. In a let-off mechanism for looms, the combination of a warp-beam, a whip-roll, an electric circuit, including a feed-controlling device, for said warp-beam, a lever rigidly associated with and movable with the whiproll, said lever having a circuit-closin device, and a spring connected with the ever and arranged to apply its tension to the whip-roll in opposition to that of the warp.
7. In a let-off mechanism for looms, the combination of a war -beam, a whip-roll, an electric circuit, inclu ing a feed-controlling device, for said warp-beam, a lever rigidly associated with the whip-roll and having a circuit-closing device, a second lever movable independently of the first lever and having a part of said circuit arranged for contact by said circuit-closer, means for vibrating the second lever from the main shaft of the loom,
and tensioning means acting against the first lever, and thereby the whip-roll, in opposition to the tension of the warp.
8. In a let-off mechanism for looms, the combination of a warp-beam, a whip-roll, an electric circuit, including a feed-controlling device, for said warp-beam, a lever rigidly associated with the whip-roll and having a circuit-closing device, a second lever provided with screws, between which said circuit-closing device is arranged to operate, one of the screws constituting part of said circuit, and said second lever being movable independently of the first lever, a spring connecting the two levers and serving to apply a tension to the whip-roll in opposition to that my hand in presence of two subscribing wit- 0 THOMAS A. B. CARVER.
Witnesses ARTHUR W. J OYOE, CLAUDE 0. BALL.
US24093505A 1905-01-13 1905-01-13 Let-off mechanism for looms. Expired - Lifetime US807721A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US24093505A US807721A (en) 1905-01-13 1905-01-13 Let-off mechanism for looms.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US24093505A US807721A (en) 1905-01-13 1905-01-13 Let-off mechanism for looms.

Publications (1)

Publication Number Publication Date
US807721A true US807721A (en) 1905-12-19

Family

ID=2876203

Family Applications (1)

Application Number Title Priority Date Filing Date
US24093505A Expired - Lifetime US807721A (en) 1905-01-13 1905-01-13 Let-off mechanism for looms.

Country Status (1)

Country Link
US (1) US807721A (en)

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2430022A (en) * 1945-01-04 1947-11-04 Lambach Fritz Warp yarn feeding means for warp knitting machines
US2430639A (en) * 1944-10-12 1947-11-11 Uxbridge Worsted Co Inc Means for controlling the tension on the warp in looms
US2450485A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Control means for motor-driven letoffs
US2450488A (en) * 1945-06-30 1948-10-05 Crompton & Knowles Loom Works Two-speed motor drive for loom letoffs
US2450484A (en) * 1948-10-05 Letoff foe looms
US2450489A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Letoff for looms
US2450470A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Electronically controlled motordriven loom letoff
US2465071A (en) * 1946-07-26 1949-03-22 Crompton & Knowles Loom Works Motor-driven letoff for looms
US2487450A (en) * 1947-04-19 1949-11-08 Crompton & Knowles Loom Works Letoff mechanism for looms
US2565386A (en) * 1949-04-20 1951-08-21 Steel And Alloy Tank Company Letoff motion
US2597136A (en) * 1947-02-21 1952-05-20 Westinghouse Electric Corp Electronic motor control
US2665715A (en) * 1949-03-04 1954-01-12 West Point Mfg Co Set mark eliminator

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2450484A (en) * 1948-10-05 Letoff foe looms
US2430639A (en) * 1944-10-12 1947-11-11 Uxbridge Worsted Co Inc Means for controlling the tension on the warp in looms
US2430022A (en) * 1945-01-04 1947-11-04 Lambach Fritz Warp yarn feeding means for warp knitting machines
US2450488A (en) * 1945-06-30 1948-10-05 Crompton & Knowles Loom Works Two-speed motor drive for loom letoffs
US2450485A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Control means for motor-driven letoffs
US2450489A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Letoff for looms
US2450470A (en) * 1946-07-26 1948-10-05 Crompton & Knowles Loom Works Electronically controlled motordriven loom letoff
US2465071A (en) * 1946-07-26 1949-03-22 Crompton & Knowles Loom Works Motor-driven letoff for looms
US2597136A (en) * 1947-02-21 1952-05-20 Westinghouse Electric Corp Electronic motor control
US2487450A (en) * 1947-04-19 1949-11-08 Crompton & Knowles Loom Works Letoff mechanism for looms
US2665715A (en) * 1949-03-04 1954-01-12 West Point Mfg Co Set mark eliminator
US2565386A (en) * 1949-04-20 1951-08-21 Steel And Alloy Tank Company Letoff motion

Similar Documents

Publication Publication Date Title
US807721A (en) Let-off mechanism for looms.
US2441680A (en) Adjustable letoff for looms
US2453145A (en) Whip roll stop motion
US813833A (en) Means for regulating the tension upon warp-threads of looms.
US27136A (en) Thomas lovelidge
US3156267A (en) hooper
US743674A (en) Center-selvage motion.
US468133A (en) Francis j
US1739232A (en) Let-off for looms
US2589498A (en) Warp tension compensator
US1463207A (en) Let-off mechanism for looms
US1288926A (en) Picker-staff connection for looms.
US2240646A (en) Whip roll counterbalance
US785595A (en) Terry-loom.
US1659236A (en) Let-off for looms
US2147602A (en) Loom
US741661A (en) Let-off mechanism for looms.
US811373A (en) Warp stop-motion.
US2398925A (en) Letoff for looms
US2170762A (en) Let-off mechanism for looms
US757085A (en) Leno-motion for loom-dobbies.
US2521650A (en) First pick warp stop motion connection
US653456A (en) Loom.
US501585A (en) young
US19073A (en) Island