CN113737325A - A reason traditional thread binding putting for cotton system spinning yarn processing - Google Patents

Abstract

The invention relates to the technical field of spinning processing, in particular to a yarn arranging device for spinning processing of cotton spinning yarns, which comprises an atomizing mechanism, a rotating mechanism, a yarn arranging mechanism, a counting mechanism and a drying mechanism, wherein the atomizing mechanism is arranged on the rotating mechanism; a water tank is fixed on the wire arranging box, the atomizing group is rotatably installed on the water tank, the self-rotating group is uniformly rotatably installed on the three-rod frame, the self-rotating group is in auxiliary fit with the three-rod frame, the three thin wires are combined into a thick wire, and the atomizing group sprays water onto the thin wire shaft from the atomizing cylinder to prevent static electricity; the long bobbin rod is rotatably installed on the wire arranging box, the lifting group is rotatably installed on a wire arranging frame of the wire arranging box, and the lifting group controls the long bobbin rod to lift and wind spun yarns on the thick bobbin shaft uniformly; the first counting group and the second counting group assist in calculating the number of turns of the long rod of the spool so as to calculate the length of the wire arrangement; the drying pipe is fixedly installed on the wire arranging box, the sliding resistance wire is installed on the wire arranging box in a sliding mode, the temperature of the drying pipe is changed by adjusting the size of the sliding resistance wire through the resistance card, and the thick wires after spinning are dried.

Description

A reason traditional thread binding putting for cotton system spinning yarn processing

Technical Field

The invention relates to the technical field of spinning processing, in particular to a yarn arranging device for spinning processing of cotton spinning yarns.

Background

Spinning is the twisting of many animal and vegetable fibres together by means of a spinning machine into threads or yarns which can be used to weave into cloth. In the spinning process, impurities need to be removed firstly, namely, the raw materials are subjected to primary processing, namely, the preparation of spinning raw materials is also called, the types of the raw materials are different, the types and the properties of the impurities are different, and the processing methods and the processing processes are also different. The prior art (publication number: CN113106580A) provides a thread arranging device for spinning and processing cotton yarns, which comprises a base and a shell II, wherein the top of the base is fixedly provided with the shell II, two ends of the top of the base are rotatably provided with a wire guide roller, one end of the top of the base, close to the wire guide roller, is fixedly provided with the shell I, the inner side of the shell I is rotatably provided with an electric roller, and the top of the base, close to the shell II, is fixedly provided with a support frame II. According to the invention, the sliding groove is embedded in the outer side of the top of the first guide frame, and the first guide frame top sliding groove and the first sliding rod are arranged in a matched sliding mode, when the first sliding plate in the sliding groove extrudes a large amount of hot steam blocked in the second shell to move in the sliding groove and drive the second sliding rod to slide in the sliding groove on the outer side of the second shell, the second sliding rod slides out of the bottom of the first fixed plate, the first sliding rod slides downwards through the guide frame, and the first cutting knife contacts with cotton yarns and cuts off the cotton yarns, so that a more convenient effect is achieved.

However, the prior art has the problems of easy blockage in the yarn arranging process, easy static generation of cotton yarns in the static process and cotton wool, so the invention provides the yarn arranging device for the spinning processing of the cotton yarns.

Disclosure of Invention

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: a yarn arranging device for cotton spinning yarn processing comprises an atomizing mechanism, a rotating mechanism, a yarn arranging mechanism, a counting mechanism and a drying mechanism.

The atomizing mechanism comprises a wire arranging box and an atomizing group, the rotating mechanism, the wire arranging mechanism, the counting mechanism and the drying mechanism are respectively arranged on the wire arranging box, a water tank is fixed on the wire arranging box, the atomizing group is rotatably arranged on the water tank, and a spraying barrel is fixed at the bottom of the water tank; the rotating mechanism comprises a three-rod frame and three groups of self-rotating groups, the three-rod frame is rotatably mounted on a rotating group frame of the wire arranging box, the self-rotating groups are uniformly rotatably mounted on the three-rod frame, the fine wire shaft is rotatably mounted on the self-rotating groups, and the atomizing group sprays water in the water tank onto the fine wire shaft from the atomizing cylinder to prevent static electricity; the wire arranging mechanism comprises a long spool rod and a lifting group, the long spool rod is rotatably installed on the wire arranging box, the lifting group is rotatably installed on a wire arranging frame of the wire arranging box, a thick spool is installed on the long spool rod, and the lifting group controls the long spool rod to lift and lower so as to uniformly wind spun yarns on the thick spool; the counting mechanism comprises a first counting group and a second counting group, the first counting group is rotatably arranged on the second counting group, the second counting group is rotatably arranged on the wire arranging box, and the first counting group and the second counting group assist in calculating the number of rotation turns of the long rod of the spool; the drying mechanism comprises a drying pipe and a sliding resistance wire, the drying pipe is fixedly installed on the wire arranging box, the sliding resistance wire is installed on the wire arranging box in a sliding mode, a resistance card is fixed on the sliding resistance wire, the resistance card adjusts the size of the sliding resistance wire to change the temperature of the drying pipe, and thick wires after spinning are dried.

Further, atomizing mechanism still includes atomizing motor, atomizing master gear, and atomizing motor fixed mounting is on the water tank, and the atomizing master gear rotates to be installed at the water tank top, and atomizing master gear fixed mounting is on the output shaft of atomizing motor, and the gear engagement is followed with the atomizing of atomizing group to the atomizing master gear, and the atomizing is followed the gear and is rotated and install at the water tank top. The atomization motor drives the atomization main gear to rotate, and the atomization main gear drives the atomization auxiliary gear to rotate when rotating.

Further, atomizing group includes lead screw, atomizing piston, and the lead screw rotates to be installed inside the water tank, and lead screw fixed mounting atomizes from the gear on, the inside gag lever post that is provided with of water tank, and atomizing piston slidable mounting is on the gag lever post, and the lead screw rotates to be installed on atomizing piston, and atomizing piston slidable mounting is inside the spray tube. When the atomization gear rotates, the screw rod is driven to rotate, the screw rod drives the atomization piston to slide on the limiting rod, and when the atomization piston slides into the atomizing cylinder, water in the atomizing cylinder is extruded to be sprayed out.

Furthermore, the rotating mechanism further comprises a double-faced gear and a speed change gear, the double-faced gear comprises a first gear and a second gear, the first gear is fixedly arranged on the second gear, the first gear and the second gear are rotatably arranged on the rotating group frame, the speed change gear comprises a first speed change wheel and a second speed change wheel, the first speed change wheel is fixedly arranged on the second speed change wheel, the first speed change wheel and the second speed change wheel are rotatably arranged on the rotating group frame, the second gear is meshed with the first speed change wheel, and the second speed change wheel is meshed with the self-rotating gear of the self-rotating group. When the first gear rotates, the second gear is driven to rotate, the second gear drives the first variable speed wheel to rotate, the second variable speed wheel drives the second variable speed wheel to rotate, and the second variable speed wheel drives the self-rotating gear to rotate.

Furthermore, slewing mechanism still includes rotating gear, gyro wheel, and rotating gear rotates and installs on rotating the group frame, gear one and rotating gear meshing, three pole frame fixed mounting on rotating gear, and fixed mounting has the three-hole frame on the three pole frame, and the gyro wheel has two sets ofly, is provided with on the reason line case and does wet baffle futilely, and two sets of gyro wheels symmetry rotation are installed at doing wet baffle both ends. When the rotating gear rotates, the three-rod frame is driven to rotate, the three-rod frame drives the three-hole frame to rotate, the rotating gear drives the first gear to rotate, the thin wires on the three groups of self-rotating groups are gathered on the roller through the three-hole frame, and the roller transports the three-folded wires to the thick wire spool on the long wire spool rod.

Furthermore, the self-rotating group further comprises a fixed shaft and spool racks, the fixed shaft is fixedly installed on the self-rotating gear, the self-rotating gear is rotatably installed on the three-rod rack, the spool racks are divided into two groups, the spool racks are symmetrically and slidably installed at two ends of the fixed shaft, a return spring is fixed between the two spool racks, a first end of the return spring is fixedly installed on the first spool rack, and a second end of the return spring is fixedly installed on the second spool rack. The rotation gear drives the fixed shaft to rotate when rotating, the fixed shaft drives the two bobbin brackets to rotate, the fine wire shaft is rotatably arranged on the two bobbin brackets, and the reset spring assists the fine wire shaft to be arranged and fixed.

Furthermore, the wire arranging mechanism further comprises a wire arranging gear and a driven gear, the wire arranging gear and the driven gear are respectively rotatably mounted on the wire arranging frame, the wire arranging gear is meshed with the driven gear, the long rod of the spool is slidably mounted inside the driven gear, a driving bevel gear is fixedly mounted on the wire arranging gear, a wire arranging motor is fixedly mounted on the wire arranging frame, the driving bevel gear is fixedly mounted on an output shaft of the wire arranging motor, and the driving bevel gear is meshed with the driven bevel gear of the lifting group. The wire arranging motor drives the driving bevel gear to rotate, the driving bevel gear drives the wire arranging gear and the driven bevel gear to rotate, the wire arranging gear drives the driven gear to rotate, and the driven gear drives the spool long rod to rotate.

Further, the lifting group includes driven pulley, carriage, and driven bevel gear rotates and installs on the line frame, and drive pulley fixed mounting is on driven bevel gear, and driven pulley rotates and installs on the line frame, and driven pulley rotates with drive pulley and goes up the rotation and install the belt, and fixed mounting has the pendulum rod on the driven pulley, and carriage slidable mounting is on the slip square rail of line frame, and pendulum rod slidable mounting is on the carriage, and the spool stock rotates and installs on the carriage. When the driven bevel gear rotates, the driving belt pulley is driven to rotate, the driving belt pulley drives the driven belt pulley to rotate through a belt, the driven belt pulley drives the swing rod to rotate, the swing rod drives the sliding frame to slide on the sliding square rail, and the sliding frame drives the spool long rod to slide on the driven gear and the wire arranging box.

Furthermore, the counting mechanism also comprises a counting long gear and a counting short gear, the counting long gear is fixedly arranged at the bottom of the long bobbin rod, the counting short gear is rotatably arranged at the bottom of the wire arranging box, the counting long gear is engaged with the counting short gear, a first driving rod is fixedly arranged below the counting short gear, the first counting group comprises a first gear and a first rotary disc, the second counting group comprises a second gear and a second rotary disc, the first rotary disc is rotatably arranged on the second rotary disc, a first driven rod is fixedly arranged above the first rotary disc, the first driving rod and the first driven rod are respectively engaged with the first gear, the first gear is rotatably arranged on the wire arranging box, the second rotary disc is rotatably arranged on the wire arranging box, a second driving rod is fixedly arranged below the first rotary disc, a second driven rod is fixedly arranged on the second rotary disc, the second driving rod and the second driven rod are respectively engaged with the second gear, the second gear wheel is rotatably mounted on the wire arranging box. The spool stock drives the rotation of count long gear, count long gear drives the rotation of count short gear, it rotates to drive first initiative pole when count short gear rotates, first initiative pole drives first gear revolve, first gear drives first driven lever and rotates, calculate thick spool pivoted number of turns tentatively, it rotates to drive the second initiative pole through first carousel during first driven lever rotates, the second initiative pole drives the rotation of second gear, it rotates to drive the rotation of second driven lever during the rotation of second gear, further calculate thick spool pivoted number of turns.

Furthermore, the drying mechanism further comprises a rack and a drying gear, the rack is slidably mounted on the wire arranging box, the drying gear is rotatably mounted on the wire arranging box, the drying gear is meshed with the rack, the resistor disc is fixedly mounted on the rack, a drying motor is fixed on the wire arranging box, the drying gear is fixedly mounted on an output shaft of the drying motor, and the sliding resistance wire is electrically connected with the drying motor. The drying motor drives the drying gear to rotate, the drying gear drives the rack to slide on the wire arranging box when rotating, the rack drives the resistance card to slide, the resistance card adjusts the length of the sliding resistance wire, and the temperature of the drying tube is adjusted by changing the resistance size of the sliding resistance wire.

Compared with the prior art, the invention has the beneficial effects that: (1) the autorotation group is matched with the three-rod frame in an auxiliary way, three thin wires can be combined into one, cotton wool is scraped by the three-hole frame, so that blockage is prevented, and the thick wires are ensured to be synthesized; (2) the atomization group carries out atomization treatment on the fine wire, so that static electricity is avoided; (3) the wire arrangement mechanism can uniformly wind the thick wires on the thick wire shaft under the action of the lifting group to finish the collection of the thick wires; (4) the counting mechanism calculates the length of the thick wire on the thick wire shaft according to the rotation of the thick wire shaft to finish wire arrangement; (5) the fine rule is more moist through the atomizing, dries the thick line through stoving mechanism, is convenient for directly deposit.

Drawings

FIG. 1 is a schematic view of the overall structure and the interior of the wire management box of the present invention.

Fig. 2 is a schematic view of the exterior of the atomizing mechanism of the present invention.

Fig. 3 is a schematic view of the inside of the atomizing mechanism of the present invention.

Fig. 4 is a schematic view of the rotating mechanism of the present invention.

Fig. 5 is a schematic view of a portion of the rotating mechanism and self-rotating group of the present invention.

FIG. 6 is a schematic view of the wire management mechanism of the present invention.

FIG. 7 is a schematic view of the counting mechanism of the present invention.

Fig. 8 is a schematic view of the drying mechanism of the present invention.

Reference numerals: 1-an atomization mechanism; 101-wire arranging box; 102-a water tank; 103-a spray cylinder; 104-an atomizing motor; 105-atomizing a main gear; 106-nebulization group; 10601-atomizing slave gear; 10602-a stop lever; 10603-lead screw; 10604-atomizing piston; 10101-wet and dry separators; 10102-rotating the assembled frame; 10103-wire arrangement frame; 10104-sliding square rail; 10201-atomizing motor mount; 2-a rotation mechanism; 201-rotating the motor; 202-a rotating gear; 203-double sided gear; 204-speed change gear; 205-three bar frame; 206-autoregressive group; 207-three-hole frame; 208-a roller; 20301 — gear one; 20302-gear two; 20401-change wheel one; 20402-change gear two; 20601-rotation gear; 20602-fixed axis; 20603-creel; 20604-a return spring; 3-a wire arranging mechanism; 301-a wire management motor; 302-drive bevel gear; 303-a wire arranging gear; 304-a driven gear; 305-a lifting group; 306-a spool long rod; 30501-driven bevel gear; 30502-drive pulley; 30503-a driven pulley; 30504-oscillating bar; 30505-carriage; 30506-leather belt; 4-a counting mechanism; 401-count long gear; 402-counting short gears; 403-a first count group; 404-a second count group; 40301-a first active bar; 40302-first gear; 40303-first driven lever; 40304-first carousel; 40401-a second active bar; 40402-a second gear; 40403-a second driven rod; 40404-a second carousel; 5-a drying mechanism; 501-drying tube; 502-sliding resistance wire; 503-rack; 504-drying the gear; 505-a drying motor; 506-resistive sheet.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, the yarn arranging device for spinning cotton yarns comprises an atomizing mechanism 1, a rotating mechanism 2, a yarn arranging mechanism 3, a counting mechanism 4 and a drying mechanism 5.

The atomization mechanism 1 comprises a water tank 102 fixedly arranged at the top of an wire arranging tank 101, an atomization motor rack 10201 is arranged on the water tank 102, an atomization motor 104 is fixedly arranged on the water tank 102, an atomization main gear 105 is rotatably arranged at the top of the water tank 102, the atomization main gear 105 is fixedly arranged on an output shaft of the atomization motor 104, the atomization motor 104 drives the atomization main gear 105 to rotate, an atomization group 106 comprises an atomization slave gear 10601, a limiting rod 10602, a lead screw 10603 and an atomization piston 10604, the atomization main gear 105 is meshed with the atomization slave gear 10601, the atomization main gear 105 drives the atomization slave gear 10601 to rotate, the atomization slave gear 10601 is rotatably arranged at the top of the water tank 102, the lead screw 10603 is fixedly arranged on the atomization slave gear 10601, the lead screw 10603 is rotatably arranged on the atomization piston 10604, the limiting rod 10602 is fixedly arranged in the water tank 102, the atomization piston 10604 is slidably arranged on the limiting rod 10602, and the atomization slave gear 10601 rotates, the lead screw 10603 drives the atomizing piston 10604 to slide on the limiting rod 10602, the atomizing piston 10604 is slidably mounted inside the spraying cylinder 103, when the atomizing piston 10604 slides in the spraying cylinder 103, water in the spraying cylinder 103 is extruded out, the wire arranging box 101 is internally provided with a dry-wet partition 10101, a rotating group frame 10102 and a wire arranging frame 10103, and the wire arranging frame 10103 is provided with a sliding square rail 10104.

The rotating mechanism 2, the rotating motor 201 is fixedly installed on the rotating group frame 10102, the rotating gear 202 is rotatably installed on the rotating group frame 10102, the rotating gear 202 is fixedly installed on the output shaft of the rotating motor 201, the rotating motor 201 drives the rotating gear 202 to rotate, the three-bar frame 205 is fixedly installed on the rotating gear 202, the rotating gear 202 drives the three-bar frame 205 to rotate when rotating, the three-hole frame 207 is fixedly installed on the three-bar frame 205, the three-hole frame 207 is driven to rotate when rotating, the double-faced gear 203 comprises a first gear 20301 and a second gear 20302, the first gear 20301 is fixedly installed on the second gear 20302, the first gear 20301 and the second gear 20302 are rotatably installed on the rotating group frame 10102, the change gear 204 comprises a first change gear 20401 and a second change gear 20402, the first change gear 20401 and the second change gear 20402 are rotatably installed on the rotating group frame 10102, and the first gear 20301 is meshed with the rotating gear 202, when the rotating gear 202 rotates, the first gear 20301 is driven to rotate, the first gear 20301 drives the second gear 20302 to rotate, the second gear 20302 is meshed with the first gear 20401, the second gear 20302 drives the first gear 20401 to rotate, the first gear 20401 drives the second gear 20402 to rotate, the second gear 20402 is meshed with the rotation gear 20601, and the second gear 20402 drives the rotation gear 20601 to rotate.

The three rotation groups 206 are three groups, the three rotation groups 206 are uniformly distributed around the three-bar frame 205, each rotation group 206 comprises two rotation gears 20601, fixing shafts 20602, spool frames 20603 and return springs 20604, the rotation gears 20601 are rotatably mounted on the three-bar frame 205, the fixing shafts 20602 are fixedly mounted on the rotation gears 20601, the fixing shafts 20602 are rotatably mounted on the three-bar frame 205, the spool frames 20603 are provided with two groups, the spool frames 20603 are symmetrically and slidably mounted at two ends of the fixing shafts 20602, the return springs 20604 are arranged between the two spool frames 20603, the return springs 20604 are fixedly mounted at a first end on the first spool frame 20603 and at a second end on the second spool frame 20603, the rotation gears 20601 drive the fixing shafts 20602 to rotate, the two spool frames 20603 are driven by the fixing shafts 20602 to rotate, the fine wires are rotatably mounted on the two spool frames 20603, the return springs 20604 assist the fine wires to be mounted and fixed, the rollers 208 are provided with two groups, the wire arranging box 101 is provided with a dry-wet partition 10101, two groups of rollers 208 are symmetrically and rotatably arranged at two ends of the dry-wet partition 10101, thin wires on the three groups of rotating groups 206 are gathered on the rollers 208 through the three-hole frame 207, and the rollers 208 transport the three strands of wires to thick spools on the long spool rod 306.

The wire arranging mechanism 3 is characterized in that a wire arranging motor 301 is fixedly arranged on a wire arranging frame 10103, a driving bevel gear 302 is fixedly arranged on a wire arranging gear 303, the driving bevel gear 302 is fixedly arranged on an output shaft of the wire arranging motor 301, the wire arranging motor 301 drives the driving bevel gear 302 to rotate, the driving bevel gear 302 drives the wire arranging gear 303 to rotate, the wire arranging gear 303 is rotatably arranged on the wire arranging frame 10103, a driven gear 304 is rotatably arranged on the wire arranging frame 10103, the wire arranging gear 303 is meshed with the driven gear 304, the wire arranging gear 303 drives the driven gear 304 to rotate, a long spool rod 306 is slidably arranged inside the driven gear 304, the long spool rod 306 is rotatably arranged inside the wire arranging box 101, the driven gear 304 drives the long spool rod 306 to rotate when rotating, a lifting group 305 comprises a driven bevel gear 30501, a driving pulley 30502, a driven pulley 30503, a swing rod 30504, a sliding frame 05 and a belt 30506, the driven bevel gear 30501 is rotatably arranged on the wire arranging frame 10103, the driving pulley 30502 is rotatably mounted on the wire trimming frame 10103, the driving pulley 30502 is fixedly mounted on the driven bevel gear 30501, the driving bevel gear 302 is engaged with the driven bevel gear 30501, the driving bevel gear 302 drives the driven bevel gear 30501 to rotate when rotating, the driven bevel gear 30501 drives the driving pulley 30502 to rotate, the driven pulley 30503 is rotatably mounted on the wire trimming frame 10103, the belt 30506 is rotatably mounted on the driving pulley 30502 and the driven pulley 30503, the driving pulley 30502 drives the driven pulley 30503 to rotate through the belt 30506 when rotating, the swing rod 30504 is fixedly mounted on the driven pulley 30503, the driven pulley 30503 drives the swing rod 30504 to rotate when rotating, the swing rod 30504 is slidably mounted on the sliding frame 30505, the sliding frame 30505 is slidably mounted on the sliding square rail 10104, the bobbin long rod 306 is rotatably mounted on the sliding frame 30505, the sliding frame 30505 drives the bobbin 30505 to slide on the sliding square rail 10104 when rotating, the sliding frame 30505 drives the bobbin 306 to slide on the driven gear 304 and the wire trimming box 101, the thick spool is rotatably installed on the long spool rod 306, and when the long spool rod 306 slides up and down, the thick spool is driven to move up and down, so that the thick wire is uniformly wound on the thick spool when the thick spool rotates.

The counting mechanism 4 is characterized in that a counting long gear 401 is fixedly arranged at the bottom of a long spool rod 306, the long spool rod 306 drives the counting long gear 401 to rotate when rotating, a counting short gear 402 is rotatably arranged at the bottom of the wire arranging box 101, the counting long gear 401 is meshed with the counting short gear 402, the counting long gear 401 drives the counting short gear 402 to rotate when rotating, and a first counting group 403 and a second counting group 404 assist in calculating the number of rotation turns of a thick spool on the long spool rod 306; the first metering group 403 comprises a first driving rod 40301, a first gear 40302, a first driven rod 40303 and a first turntable 40304, the second metering group 404 comprises a second driving rod 40401, a second gear 40402, a second driven rod 40403 and a second turntable 40404, the first driving rod 40301 is fixedly installed below the counting short gear 402, the first turntable 40304 is rotatably installed on the second turntable 40404, the first driven rod 40303 is fixedly installed above the first turntable 40304, the first driving rod 40301 and the first driven rod 40303 are respectively meshed with the first gear 40302, the first gear 40302 is rotatably installed on the wire arranging box 101, the counting short gear 402 drives the first driving rod 40301 to move when rotating, the first driving rod 40301 drives the first gear 40302 to rotate, the first gear 40302 drives the first driven rod 40303 to move, and the number of turns of the coarse spool 40303 are preliminarily calculated; when the first driven rod 40303 moves, the first rotating disc 40304 is driven to rotate, the second rotating disc 40404 is rotatably mounted on the wire trimming box 101, the second driving rod 40401 is fixedly mounted below the first rotating disc 40304, the second driven rod 40403 is fixedly mounted on the second rotating disc 40404, the second driving rod 40401 and the second driven rod 40403 are respectively meshed with the second gear 40402, the second gear 40402 is rotatably mounted on the wire trimming box 101, when the first rotating disc 40304 rotates, the second driving rod 40401 is driven to move, the second driving rod 40401 drives the second gear 40402 to move, when the second gear 40402 rotates, the second driven rod 40403 is driven to move, when the second driven rod 40403 moves, the second rotating disc 40404 is driven to rotate, and the number of rotation turns of the coarse bobbin is further calculated.

In the drying mechanism 5, a drying pipe 501 is fixedly installed on the wire arranging box 101, a sliding resistance wire 502 is slidably installed on the wire arranging box 101, a drying motor 505 is fixedly installed on the wire arranging box 101, a drying gear 504 is rotatably installed on the wire arranging box 101, the drying motor 505 drives the drying gear 504 to rotate, a rack 503 is slidably installed on the wire arranging box 101, the drying gear 504 is meshed with the rack 503, the rack 503 is driven to slide on the wire arranging box 101 when the drying gear 504 rotates, a first end of a resistance sheet 506 is fixedly installed on the rack 503, a second end of the resistance sheet 506 is fixedly installed on the sliding resistance wire 502, the length of the sliding resistance wire 502 is adjusted when the rack 503 drives the resistance sheet 506 to slide, the temperature of the drying pipe 501 is adjusted by changing the resistance size of the sliding resistance wire 502, and thick wires after spinning are dried.

The working principle is as follows: the cotton spinning yarn arranging process needs to twist a plurality of fine wires into a thick wire, firstly, water is injected into a water tank 102, two fixed shafts 20602 on each spinning unit 206 are opened, a return spring 20604 is extended, the fine wire shafts wound with the fine wires are rotatably installed on two spool frames 20603, the return spring 20604 is contracted, the fine wires on the three fine wire shafts are collected on a roller 208 through a three-hole frame 207, an atomizing motor 104 is started, the atomizing motor 104 drives an atomizing main gear 105 to rotate, the atomizing main gear 105 drives an atomizing slave gear 10601 to rotate, the atomizing slave gear 10601 drives a screw 10603 to rotate when the atomizing slave gear 10601 rotates, the screw 10603 drives an atomizing piston 10604 to slide on a limiting rod 10602, when the atomizing piston 10604 is above the atomizing cylinder 103, the water in the water tank 102 enters the atomizing cylinder 103, when the atomizing piston 10604 slides in the atomizing cylinder 103, the water in the atomizing cylinder 103 is extruded, and the atomizing treatment is carried out, the generation of static electricity is avoided.

The rotating motor 201 is started, the rotating motor 201 drives the rotating gear 202 to rotate, the rotating gear 202 drives the gear I20301 to rotate when rotating, the gear I20301 drives the gear II 20302 to rotate, the gear II 20302 drives the gear I20401 to rotate, the gear I20401 drives the gear II 20402 to rotate, the gear II 20402 drives the rotation gear 20601 to rotate, the thin wire shaft on the spinning group 206 rotates, each strand of thin wire rotates, the rotating gear 202 drives the three-rod frame 205 to rotate when rotating, the three-rod frame 205 drives the three-hole frame 207 to rotate when rotating, the three strands of thin wires on the three-hole frame 207 are condensed into a strand of thick wire, and the strand of thick wire is conveyed to the thick wire shaft on the long bobbin 306 through the two groups of rollers 208.

The wire arranging motor 301 is started, the wire arranging motor 301 drives the driving bevel gear 302 to rotate, the driving bevel gear 302 drives the wire arranging gear 303 to rotate, the wire arranging gear 303 drives the driven gear 304 to rotate, the driven gear 304 drives the wire spool long rod 306 to rotate when rotating, and the wire spool long rod 306 drives the thick wire spool to rotate, so that the thick wire is wound on the thick wire spool; drive driven bevel gear 30501 and rotate when drive bevel gear 302 rotates, driven bevel gear 30501 drives drive pulley 30502 and rotates, drive pulley 30502 drives driven pulley 30503 through belt 30506 and rotates, driven pulley 30503 drives pendulum rod 30504 and rotates when rotating, drive carriage 30505 when rotating and slide on slip square rail 10104, carriage 30505 drives spool stock 306 and slides on driven gear 304 and reason line case 101, it installs the thick spool to rotate on spool stock 306, when spool stock 306 slides from top to bottom, drive thick spool and reciprocate, even winding of thick line is on thick spool when making thick spool rotate.

The drying motor 505 is started, the drying motor 505 drives the drying gear 504 to rotate, the drying gear 504 drives the rack 503 to slide on the wire arranging box 101 when rotating, the rack 503 drives the resistance sheet 506 to slide, the length of the sliding resistance wire 502 is adjusted, the temperature of the drying tube 501 is adjusted by changing the resistance of the sliding resistance wire 502, and the thick wires after spinning are dried.

When the long spool rod 306 rotates, the long counting gear 401 is driven to rotate, the long counting gear 401 drives the short counting gear 402 to rotate, when the short counting gear 402 rotates, the first driving rod 40301 is driven to move, the first driving rod 40301 drives the first gear 40302 to rotate, the first gear 40302 drives the first driven rod 40303 to move, and the number of rotating turns of the thick spool is preliminarily calculated; when the first driven rod 40303 moves, the first rotating disc 40304 is driven to rotate, when the first rotating disc 40304 rotates, the second driving rod 40401 is driven to move, the second driving rod 40401 drives the second gear 40402 to move, when the second gear 40402 rotates, the second driven rod 40403 is driven to move, when the second driven rod 40403 moves, the second rotating disc 40404 is driven to rotate, the number of rotating circles of the thick spool is further calculated, and the length of the wire is calculated by calculating the number of rotating circles of the thick spool.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (10)

1. A yarn arranging device for spinning and processing cotton spinning yarns comprises an atomizing mechanism, a rotating mechanism, a yarn arranging mechanism, a counting mechanism and a drying mechanism; the method is characterized in that: the atomizing mechanism comprises a wire arranging box and an atomizing group, the rotating mechanism, the wire arranging mechanism, the counting mechanism and the drying mechanism are respectively arranged on the wire arranging box, a water tank is fixed on the wire arranging box, the atomizing group is rotatably arranged on the water tank, and a spraying barrel is fixed at the bottom of the water tank; the rotating mechanism comprises a three-rod frame and three groups of self-rotating groups, the three-rod frame is rotatably mounted on a rotating group frame of the wire arranging box, the self-rotating groups are uniformly rotatably mounted on the three-rod frame, the fine wire shaft is rotatably mounted on the self-rotating groups, and the atomizing group sprays water in the water tank onto the fine wire shaft from the atomizing cylinder to prevent static electricity; the wire arranging mechanism comprises a long spool rod and a lifting group, the long spool rod is rotatably installed on the wire arranging box, the lifting group is rotatably installed on a wire arranging frame of the wire arranging box, a thick spool is installed on the long spool rod, and the lifting group controls the long spool rod to lift and lower so as to uniformly wind spun yarns on the thick spool; the counting mechanism comprises a first counting group and a second counting group, the first counting group is rotatably arranged on the second counting group, the second counting group is rotatably arranged on the wire arranging box, and the first counting group and the second counting group assist in calculating the number of rotation turns of the long rod of the spool; the drying mechanism comprises a drying pipe and a sliding resistance wire, the drying pipe is fixedly installed on the wire arranging box, the sliding resistance wire is installed on the wire arranging box in a sliding mode, a resistance card is fixed on the sliding resistance wire, the resistance card adjusts the size of the sliding resistance wire to change the temperature of the drying pipe, and thick wires after spinning are dried.

2. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: the atomizing mechanism still includes atomizing motor, atomizing master gear, and atomizing motor fixed mounting is on the water tank, and the atomizing master gear rotates to be installed at the water tank top, and atomizing master gear fixed mounting is on the output shaft of atomizing motor, and the gear engagement is followed with the atomizing of atomizing group to the atomizing master gear, and the atomizing is followed the gear and is rotated and install at the water tank top.

3. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: atomizing group includes lead screw, atomizing piston, and the lead screw rotates to be installed inside the water tank, and lead screw fixed mounting is atomized from the gear on, the inside gag lever post that is provided with of water tank, atomizing piston slidable mounting on the gag lever post, the lead screw rotates to be installed on atomizing piston, and atomizing piston slidable mounting is inside at the spray tube.

4. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: the rotating mechanism further comprises a double-faced gear and a speed change gear, the double-faced gear comprises a first gear and a second gear, the first gear is fixedly installed on the second gear, the first gear and the second gear are rotatably installed on the rotating group frame, the speed change gear comprises a first speed change wheel and a second speed change wheel, the first speed change wheel is fixedly installed on the second speed change wheel, the first speed change wheel and the second speed change wheel are rotatably installed on the rotating group frame, the second gear is meshed with the first speed change wheel, and the second speed change wheel is meshed with the self-rotating gear of the self-rotating group.

5. The yarn arranging device for cotton spinning yarn processing according to claim 4, wherein: the rotating mechanism further comprises rotating gears and idler wheels, the rotating gears are rotatably mounted on a rotating assembly frame, a first gear is meshed with the rotating gears, three rod frames are fixedly mounted on the rotating gears, three hole frames are fixedly mounted on the three rod frames, the idler wheels are two groups, dry and wet partition plates are arranged on the wire arranging box, and the two groups of idler wheels are symmetrically rotatably mounted at two ends of the dry and wet partition plates.

6. The yarn arranging device for cotton spinning yarn processing according to claim 4, wherein: the automatic rotating group further comprises a fixed shaft and two groups of bobbin racks, the fixed shaft is fixedly installed on the rotation gear, the rotation gear is rotatably installed on the three-rod rack, the bobbin racks are symmetrically and slidably installed at two ends of the fixed shaft, a reset spring is fixed between the two bobbin racks, the first end of the reset spring is fixedly installed on the first bobbin rack, and the second end of the reset spring is fixedly installed on the second bobbin rack.

7. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: the wire arranging mechanism further comprises a wire arranging gear and a driven gear, the wire arranging gear and the driven gear are respectively rotatably mounted on the wire arranging frame, the wire arranging gear is meshed with the driven gear, the spool long rod is slidably mounted inside the driven gear, a driving bevel gear is fixedly mounted on the wire arranging gear, a wire arranging motor is fixedly mounted on the wire arranging frame, the driving bevel gear is fixedly mounted on an output shaft of the wire arranging motor, and the driving bevel gear is meshed with the driven bevel gear of the lifting group.

8. The yarn arranging device for cotton spinning yarn processing according to claim 7, wherein: the lifting unit comprises a driven belt pulley and a sliding frame, the driven bevel gear is rotatably installed on the wire trimming frame, a driving belt pulley is fixedly installed on the driven bevel gear, the driven belt pulley is rotatably installed on the wire trimming frame, a belt is rotatably installed on the driven belt pulley and the driving belt pulley, a swing rod is fixedly installed on the driven belt pulley, the sliding frame is slidably installed on a sliding square rail of the wire trimming frame, the swing rod is slidably installed on the sliding frame, and a long rod of a spool is rotatably installed on the sliding frame.

9. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: the counting mechanism also comprises a counting long gear and a counting short gear, the counting long gear is fixedly arranged at the bottom of the long bobbin rod, the counting short gear is rotatably arranged at the bottom of the wire arranging box, the counting long gear is meshed with the counting short gear, a first driving rod is fixedly arranged below the counting short gear, the first counting group comprises a first gear and a first turntable, the second counting group comprises a second gear, the first driving rod and the first driven rod are respectively meshed with the first gear, the first gear is rotatably installed on the wire arranging box, the second rotary disk is rotatably installed on the wire arranging box, the second driving rod is fixedly installed below the first rotary disk, the second driven rod is fixedly installed on the second rotary disk, the second driving rod and the second driven rod are respectively meshed with the second gear, and the second gear is rotatably installed on the wire arranging box.

10. The yarn arranging device for cotton spinning yarn processing according to claim 1, wherein: the drying mechanism further comprises a rack and a drying gear, the rack is slidably mounted on the wire arranging box, the drying gear is rotatably mounted on the wire arranging box, the drying gear is meshed with the rack, the resistance card is fixedly mounted on the rack, a drying motor is fixed on the wire arranging box, the drying gear is fixedly mounted on an output shaft of the drying motor, and the sliding resistance wire is electrically connected with the drying motor.

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