Two-for-one twister wire device for textile production
Technical Field
The invention relates to the technical field of spinning, in particular to a two-for-one twister wire device for textile production.
Background
The two-for-one twister is a textile doubling device which can bond two or more strands of single yarns into a folded yarn by twisting, thereby enhancing the performance of the original yarn, the two-for-one twister takes out the textile thread stored in the thread coil during operation, the textile thread is twisted and bonded into the folded yarn, the folded yarn is collected by the winder, the guide device is arranged below the winder, the textile thread firstly passes through the guide disc and then passes through the guide device, the existing two-for-one twister can generate a large amount of cotton batting during operation, because the textile thread can generate larger friction with the guide disc when passing through the guide disc, thereby scraping a layer of cotton batting on the outer wall of the textile thread, the textile thread vertically enters the guide disc when entering the guide disc, but the textile thread can be driven by the winder to reciprocate left and right when coming out of the guide disc, so that the textile thread rubs left and right with the outlet edge of the guide disc, the quality of the cotton batting is soft, and the textile thread can easily fly everywhere once enters air, the polluted environment just harms staff's healthy to inside cotton fibre can get into to drive guide plate pivoted actuating lever, make its inner structure the loss of certain degree appear, can directly block motionlessly when serious, make the two-for-one twister stop the fortune, consequently, we propose a textile production that prevents cotton fibre and use two-for-one twister wire device in a large number.
Disclosure of Invention
In order to achieve the purpose of preventing a large amount of cotton wool, the invention provides the following technical scheme: the utility model provides a two-for-one twister wire device for textile production, includes base, line book, fixed horizontal pole, drive assembly, wire assembly, fixed montant, winder and casing, base top and casing fixed connection, the line book is located casing right side and base top fixed connection, fixed horizontal pole is located line book top and casing right side fixed connection, drive assembly is located fixed horizontal pole top and rotates with the casing right side to be connected, fixed montant is located line book right side and base top fixed connection, wire assembly is located drive assembly top and casing right side fixed connection, the winder is located wire assembly top and casing right side fixed connection.
As optimization, drive assembly comprises actuating lever, guide disc, fixed cover, cam, elliptical trough, spin, connecting rod, toper cingulum and support cover, actuating lever outer wall and guide disc fixed connection, fixed cover is located the guide disc left side and is rotated with the actuating lever and be connected, the cam is located fixed cover inner wall and actuating lever outer wall fixed connection, the elliptical trough is seted up at the cam outer wall, elliptical trough inner wall and spin sliding connection, spin top and connecting rod swing joint, connecting rod right side and toper cingulum fixed connection, support cover bottom and fixed cover top fixed connection, utilize the actuating lever to rotate the area cam and rotate, and then take the connecting rod to form reciprocal up-and-down motion through the spin.
As the optimization, the wire subassembly comprises fixed horizontal piece, conical gear, screw rod, bar sliding sleeve, spring pull rod, fixed plate, gear, cross line roller, spliced pole, arc slider, arc spout, flexible quarter butt, flexible stock and carousel, fixed horizontal piece right side and fixed montant fixed connection, conical gear right side and screw rod fixed connection, screw rod outer wall and bar sliding sleeve inner wall threaded connection, bar sliding sleeve outer wall and fixed horizontal piece inner wall sliding connection, the bar sliding sleeve openly with spring pull rod fixed connection, spring pull rod top and fixed plate fixed connection utilize arc slider reciprocating sliding in the arc spout, the line roller motion is crossed in the area, and then makes the weaving line follow the rolling ware side-to-side motion.
Preferably, the top end of the fixing plate is rotatably connected with the connecting column, the top end of the connecting column is rotatably connected with the arc-shaped sliding block, the outer wall of the arc-shaped sliding block is slidably connected with the inner wall of the arc-shaped sliding groove, the arc-shaped sliding groove is formed in the inner wall of the fixing cross block, the bottom end of the fixing plate is rotatably connected with the wire passing roller, the bottom end of the wire passing roller is fixedly connected with the gear, and the gear is used for driving the wire passing roller to rotate.
As the optimization, bar sliding sleeve right side is rotated with the carousel and is connected, carousel top and flexible stock fixed connection, flexible stock right side and gear fixed connection, flexible quarter butt is located flexible stock below and rotates with the carousel top to be connected, flexible quarter butt right side and gear fixed connection, the carousel rotates and uses the area gear rotation through the cooperation of flexible quarter butt and flexible stock.
As optimization, the right side of the strip-shaped sliding sleeve is fixedly provided with a fixed lug, and the top end of the inner wall of the fixed lug is rotatably connected with the rotary table.
Preferably, the two turntables are symmetrically arranged about the vertical center line of the telescopic short rod, the turntable on the right side is rotatably connected with the top end of the inner wall of the gear, and the turntable on the left side is internally provided with a driving motor, so that the turntables can rotate.
Preferably, the number of the spring pull rods and the number of the gears are two, the spring pull rods and the gears are symmetrically arranged about a vertical center line of the strip-shaped sliding sleeve, and the two gears are meshed with each other to rotate, so that the wire passing roller on the left side rotates anticlockwise, and the wire passing roller on the right side rotates clockwise.
As optimization, the left side of the conical gear is meshed with the conical toothed belt, the bottom end of the fixed transverse block is fixedly connected with the support sleeve, and the conical toothed belt moves up and down to drive the conical gear to rotate.
Preferably, the two thread passing rollers are symmetrically arranged about the vertical center line of the fixing plate, and the thread passing rollers rotate to minimize friction between the textile threads and the textile threads.
As optimization, the outer wall of the driving rod is located on the right side of the guide disc and is connected with the fixed vertical rod in a rotating mode, a driving motor is arranged in the driving rod, and the driving rod is operated by the aid of the built-in motor, so that the driving rod rotates to drive the whole equipment to operate.
The invention has the beneficial effects that: the driving rod drives the cam to rotate, the cam drives the rolling ball to reciprocate up and down through the elliptical groove, the rolling ball drives the conical toothed belt to move through the connecting rod, the conical toothed belt drives the screw rod to rotate through the conical gear, the screw rod drives the spring pull rod to move through the strip-shaped sliding sleeve, the spring pull rod drives the connecting column to move through the fixing plate, the connecting column drives the arc-shaped sliding block to move, the arc-shaped sliding block slides in the arc-shaped sliding groove, meanwhile, the rotating disc, the telescopic short rod and the telescopic long rod are matched to drive the gear to rotate, the gear drives the thread passing roller to rotate, when the spinning thread comes out of the guide disc, the spinning thread passes through the circular roller and then passes through the two thread passing rollers, the spinning thread passing rollers move along with the left and right reciprocating movement of the arc-shaped sliding block, so that the spinning thread always vertically leaves the guide, so that the outer wall of the textile line can not be scraped by one layer of cotton wool, the internal structure of the equipment is protected, and the service life of the equipment is prolonged.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of a driving assembly and a lead assembly according to the present invention;
FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;
FIG. 4 is a schematic top view of a fixing plate according to the present invention;
FIG. 5 is a schematic structural view of a telescopic short rod and a telescopic long rod of the present invention;
FIG. 6 is a schematic view of the cam structure of the present invention;
FIG. 7 is a schematic view of the structure of the conical toothed belt and the conical gear of the present invention.
In the figure: 100. a base; 200. coiling the wire; 300. fixing the cross bar; 400. a drive assembly; 401. a drive rod; 402. a guide disc; 403. fixing a sleeve; 404. a cam; 405. an elliptical trough; 406. rolling a ball; 407. A connecting rod; 408. a conical toothed belt; 409. a support sleeve; 500. a wire assembly; 501. fixing the transverse block; 502. a bevel gear; 503. a screw; 504. a strip-shaped sliding sleeve; 505. a spring pull rod; 506. a fixing plate; 507. a gear; 508. a wire passing roller; 509. connecting columns; 510. an arc-shaped sliding block; 511. an arc-shaped chute; 512. a telescopic short rod; 513. a telescopic long rod; 514. a turntable; 600. fixing the vertical rod; 700. a winder; 800. a housing.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-7, a two-for-one twister wire guiding device for textile production includes a base 100, a wire coil 200, a fixed cross bar 300, a driving component 400, a wire guiding component 500, a fixed vertical bar 600, a winder 700 and a housing 800, wherein the top end of the base 100 is fixedly connected with the housing 800, the wire coil 200 is located on the right side of the housing 800 and fixedly connected with the top end of the base 100, the fixed cross bar 300 is located above the wire coil 200 and fixedly connected with the right side of the housing 800, the driving component 400 is located above the fixed cross bar 300 and rotatably connected with the right side of the housing 800, the fixed vertical bar 600 is located on the right side of the wire coil 200 and fixedly connected with the top end of the base 100, the wire guiding component 500 is located above the driving component 400 and fixedly connected with the right side of the housing.
Referring to fig. 2-7, the driving assembly 400 includes a driving rod 401, a guide disc 402, a fixing sleeve 403, a cam 404, an elliptical groove 405, a ball 406, a connecting rod 407, a tapered toothed belt 408 and a supporting sleeve 409, wherein an outer wall of the driving rod 401 is fixedly connected to the guide disc 402, the fixing sleeve 403 is positioned on a left side of the guide disc 402 and rotatably connected to the driving rod 401, the cam 404 is positioned on an inner wall of the fixing sleeve 403 and fixedly connected to an outer wall of the driving rod 401, the elliptical groove 405 is formed in an outer wall of the cam 404, an inner wall of the elliptical groove 405 is slidably connected to the ball 406, a top end of the ball 406 is movably connected to the connecting rod 407, a right side of the connecting rod 407 is fixedly connected to the tapered toothed belt 408, a bottom end of the supporting sleeve 409 is fixedly connected to.
Referring to fig. 2-7, the thread guiding assembly 500 comprises a fixed horizontal block 501, a bevel gear 502, a screw 503, a bar-shaped sliding sleeve 504, a spring pull rod 505, a fixed plate 506, a gear 507, a thread passing roller 508, a connecting column 509, an arc-shaped sliding block 510, an arc-shaped sliding groove 511, a short telescopic rod 512, a long telescopic rod 513 and a rotary table 514, wherein the right side of the fixed horizontal block 501 is fixedly connected with the fixed vertical rod 600, the right side of the bevel gear 502 is fixedly connected with the screw 503, the outer wall of the screw 503 is in threaded connection with the inner wall of the bar-shaped sliding sleeve 504, the outer wall of the bar-shaped sliding sleeve 504 is in sliding connection with the inner wall of the fixed horizontal block 501, the front side of the bar-shaped sliding sleeve 504 is fixedly connected with the spring pull rod 505, the top end of the spring pull rod 505 is fixedly connected with the fixed.
Referring to fig. 4-7, the top end of the fixing plate 506 is rotatably connected to the connecting column 509, the top end of the connecting column 509 is rotatably connected to the arc-shaped slider 510, the outer wall of the arc-shaped slider 510 is slidably connected to the inner wall of the arc-shaped chute 511, the arc-shaped chute 511 is disposed on the inner wall of the fixing cross block 501, the bottom end of the fixing plate 506 is rotatably connected to the wire passing roller 508, the bottom end of the wire passing roller 508 is fixedly connected to the gear 507, and the gear 507 rotates to drive the wire passing.
Referring to fig. 5-7, the right side of the sliding bar 504 is rotatably connected to the rotary plate 514, the top end of the rotary plate 514 is fixedly connected to the long telescopic rod 513, the right side of the long telescopic rod 513 is fixedly connected to the gear 507, the short telescopic rod 512 is positioned below the long telescopic rod 513 and rotatably connected to the top end of the rotary plate 514, the right side of the short telescopic rod 512 is fixedly connected to the gear 507, and the rotary plate 514 rotates to drive the gear 507 to rotate by the cooperation of the short telescopic rod 512 and the long telescopic rod 513.
Referring to fig. 5-7, the right side of the sliding bar 504 is fixedly installed with a fixing protrusion, and the top end of the inner wall of the fixing protrusion is rotatably connected with the rotating disc 514.
Referring to fig. 5 to 7, two rotation discs 514 are symmetrically disposed about a vertical center line of the short telescopic rod 512, the rotation disc 514 on the right side is rotatably connected to the top end of the inner wall of the gear 507, and a driving motor is disposed inside the rotation disc 514 on the left side to rotate the rotation disc 514.
Referring to fig. 3-7, there are two spring rods 505 and two gears 507, and they are symmetrically disposed about the vertical center line of the bar-shaped sliding sleeve 504, and the two gears 507 are engaged with each other to rotate, so that the wire-passing roller 508 located at the left side rotates counterclockwise and the wire-passing roller 508 located at the right side rotates clockwise.
Referring to fig. 1-7, the left side of the conical gear 502 is engaged with the conical toothed belt 408, and the bottom end of the fixed cross block 501 is fixedly connected with the support sleeve 409, so that the conical toothed belt 502 moves up and down to drive the conical gear 408 to rotate.
Referring to fig. 4-7, two thread rollers 508 are symmetrically disposed about the vertical center line of the fixing plate 506, and the thread rollers 508 rotate to minimize friction between the spun thread and the spun thread.
Referring to fig. 1-7, the outer wall of the driving rod 401 is located on the right side of the guide disc 402 and is rotatably connected to the fixed vertical rod 600, a driving motor is disposed in the driving rod 401, and the driving rod 401 is driven by the built-in motor to rotate, so that the driving rod 401 rotates to drive the whole device to operate.
In use, referring to fig. 1-7, when the two-for-one twister is operated, the textile thread enters the winder 700 from the thread roll 200, the driving rod 401 drives the guide disc 402 to rotate, the driving rod 401 drives the cam 404 to rotate, the cam 404 drives the elliptical groove 405 to rotate, the elliptical groove 405 rotates and simultaneously the ball 406 slides on the inner wall of the elliptical groove, so that the ball 406 reciprocates up and down, the ball 406 drives the connecting rod 407 to move, the connecting rod 407 drives the conical toothed belt 408 to move, the conical toothed belt 408 drives the conical gear 502 to rotate, the conical gear 502 drives the screw 503 to rotate, the screw 503 drives the strip sliding sleeve 504 to move, the strip sliding sleeve 504 drives the spring pull rod 505 to move, the spring pull rod 505 drives the fixing plate 506 to move, the fixing plate 506 drives the connecting post 509 to move, the connecting post 509 drives the arc-shaped sliding block 510 to slide in the arc-, meanwhile, a motor arranged in the rotary disc 514 operates, so that the rotary disc 514 rotates to drive the telescopic short rod 512 and the telescopic long rod 513 to rotate, the gear 507 is driven to rotate, the gear 507 drives the thread passing roller 508 to rotate, the top end of the fixed cross block 501 is fixedly provided with two round rollers which are symmetrically arranged about the vertical center line of the guide disc 402, when the textile thread comes out of the guide disc 402, the textile thread passes through the round rollers and then passes through the two thread passing rollers 508, and the textile thread enters the winding device vertically all the time through the left-right reciprocating motion of the thread passing rollers 508 along with the arc-shaped sliding block 510.
In summary, the driving rod 401 drives the cam 404 to rotate, the cam 404 drives the rolling ball 406 to reciprocate up and down through the oval slot 405, the rolling ball 406 drives the conical toothed belt 408 through the connecting rod 407, the conical toothed belt 408 drives the screw rod 503 to rotate through the conical gear 502, the screw rod 503 drives the spring pull rod 505 through the strip sliding sleeve 504, the spring pull rod 505 drives the connecting rod 509 through the fixing plate 506, the connecting rod 509 drives the arc sliding block 510 to move, the arc sliding block 510 slides in the arc sliding slot 511, meanwhile, the rotating disk 514, the short telescopic rod 512 and the long telescopic rod 513 are used to drive the gear 507 to rotate, the gear 507 drives the thread passing roller 508 to rotate, when the thread comes out of the guide plate 402, the thread passing roller passes through the two thread passing rollers 508, the textile thread passes through the thread passing roller 508 to reciprocate left and right along with the arc sliding block 510, so that the textile thread always vertically leaves the guide plate 402 and vertically enters the, thereby let the braided wire with the bottom friction of the edge of guide disc 402 and coiler 700 disappear for the braided wire outer wall can not scraped one deck cotton fibre, and then has protected the inner structure of equipment, promotes its life.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.