CN112176587A

CN112176587A - Even sizing setting device of weaving yarn

Info

Publication number: CN112176587A
Application number: CN202011052437.1A
Authority: CN
Inventors: 孙凯
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-01-05

Abstract

The invention relates to the technical field of textile machinery, in particular to a uniform sizing and shaping device for textile yarns, which solves the problems that the conventional sizing device has certain defects, firstly, the uniformity and the flatness of sizing on the surface of cloth cannot be well controlled, so that the sizing of the cloth is not uniform; secondly, the sized cloth cannot be dried in time and is inconvenient to store; the shell is hinged with the feeding door, a transmission device is arranged in the shell and connected with a driving motor, the driving motor is connected with a stirring device, a discharging device is arranged at a position corresponding to the stirring device, the discharging device is connected with the driving motor, the transmission device is connected with a screening device, the screening device is connected with a sizing device, and a scraping plate device and a shaping device are further arranged in the shell; through being provided with the sizing apparatus, the sizing shower nozzle and the rotatory transmission through the sizing apparatus combine, guarantee that the sizing is even, and the thickness degree of consistency of sizing can be guaranteed to rethread scraper means.

Description

Even sizing setting device of weaving yarn

Technical Field

The invention belongs to the technical field of textile machinery, and particularly relates to a uniform sizing and shaping device for textile yarns.

Background

The coating sizing process is an important link of cloth production, determines the softness and wear resistance of cloth, and in addition, in the traditional textile cloth dyeing and printing, an auxiliary agent and dye are mixed in the sizing agent together to form color paste which is printed on the fabric of the textile, and for some special printing, the sizing agent particles are large and have certain corrosivity, so that the sizing agent particles cannot be mixed with the dye to be sprayed out from a nozzle of a printing head, and the fabric needs to be subjected to sizing treatment in advance.

The conventional sizing device is immersed in the sizing solution through a sizing roller, the sizing solution is taken by each rotary stroke of the sizing roller and coated on the fabric, although a whole cloth can be sized by the mode, certain defects exist, firstly, the uniformity and the flatness of sizing on the surface of the cloth cannot be well controlled, the sizing on the cloth is not uniform, and large particle impurities in the sizing solution are also attached to the cloth, so that the surface of the cloth is not flat and the silkiness is influenced; secondly, the sized cloth cannot be dried in time and is inconvenient to store.

Disclosure of Invention

In order to solve the technical problems, the invention relates to the technical field of textile machinery, in particular to a uniform sizing and shaping device for textile yarns, which comprises a shell, an air outlet pipe, a supporting base, a feeding door, a transmission device, a driving motor, a stirring device, a discharging device, a screening device, a sizing device, a scraper device and a shaping device, wherein the shell is provided with a plurality of openings; one side and the outlet duct intercommunication of casing, the bottom of casing is provided with the support base, the bottom processing of casing has mud hole and blanking groove, the casing is articulated with the feeding door, the processing has the mounting groove in the casing, still process the blown down tank on the casing, be provided with transmission in the casing, transmission links to each other with driving motor, driving motor links to each other with agitating unit, agitating unit's the position that corresponds is provided with unloader, unloader links to each other with driving motor, transmission links to each other with the sieve moving device, the sieve moving device links to each other with sizing apparatus, still be provided with scraper means and setting device in the casing.

As a further optimization of the technical scheme, the invention relates to a textile yarn uniform sizing and shaping device, wherein the transmission device comprises a first transmission helical gear, a second transmission helical gear, a first transmission shaft, a first transmission belt pulley, a second transmission belt pulley, a first transmission connecting belt, a second transmission shaft, a third transmission belt pulley, a fourth transmission belt pulley, a second transmission connecting belt and a third transmission shaft; the driving motor is connected with a first transmission helical gear key, the first transmission helical gear is meshed with a second transmission helical gear, the second transmission helical gear is connected with the first transmission shaft key, a first transmission belt wheel is arranged on the first transmission shaft, the first transmission belt wheel is connected with the second transmission belt wheel through a first transmission connecting belt, the second transmission belt wheel is connected with a second transmission shaft key, a third transmission belt wheel is arranged on the second transmission shaft, the third transmission belt wheel is connected with a fourth transmission belt wheel through a second transmission connecting belt, and the fourth transmission belt wheel is connected with the third transmission shaft key.

As a further optimization of the technical scheme, the textile yarn uniform sizing and shaping device comprises a first stirring shaft, a first stirring belt wheel, a second stirring belt wheel, a first stirring connecting belt, a stirring worm, a stirring transmission handle, a stirring connecting rod, a stirring transmission slider, a stirring transmission groove rod, a first stirring clamping wheel, a second stirring shaft, a second stirring clamping wheel, a third stirring shaft, a third stirring belt wheel, a fourth stirring belt wheel, a second stirring connecting belt, a fourth stirring shaft, a feeding pipe and a stirring wheel; the driving motor is connected with the first stirring shaft through a coupler, the first stirring shaft is arranged in the stirring transmission shell, the first stirring shaft is in key connection with a first stirring belt wheel, the first stirring belt wheel is connected with a second stirring belt wheel through a first stirring connecting belt, the second stirring belt wheel is in key connection with a stirring worm, the stirring worm is fixedly connected with a stirring transmission handle, the stirring transmission handle is in socket connection with a stirring connecting rod, the stirring connecting rod is hinged with a stirring transmission slider, the stirring transmission slider is in joint connection with a stirring transmission groove rod, the stirring transmission slide rod is fixedly connected with a first stirring joint wheel, the first stirring joint wheel is in key connection with a second stirring shaft, the first stirring joint wheel is in joint connection with a second stirring joint wheel, the second stirring joint wheel is in key connection with a third stirring shaft, and the third stirring shaft is in key connection with a third stirring belt wheel, the third stirring belt wheel is connected with the fourth stirring belt wheel through a second stirring connecting band, the fourth stirring belt wheel is connected with a fourth stirring shaft key, a fourth stirring shaft is arranged in a stirring shell, the stirring shell is communicated with a feeding pipe, and a plurality of groups of stirring wheels are arranged on the fourth stirring shaft.

As a further optimization of the technical scheme, the invention relates to a uniform sizing and shaping device for textile yarns, the blanking device comprises a first blanking shaft, a rolling door, a second blanking shaft, a first blanking belt pulley, a second blanking belt pulley, a third blanking belt pulley, a fourth blanking belt pulley, a fifth blanking belt pulley, a first blanking connecting belt, a third blanking shaft, a fourth blanking shaft, a fifth blanking shaft, a sixth blanking shaft, a transmission screw nut, a blanking screw, a sixth blanking belt pulley, a seventh blanking belt pulley, a second blanking connecting belt, a path transmission screw, a first blanking gear, a first limiting rod, a path screw nut, a second blanking gear, a second limiting rod, a first steering gear, a second steering gear, a third steering gear, a first steering shaft, a steering electric telescopic rod, a fourth steering gear, a fifth steering gear, a second steering shaft and a steering turbine; the first blanking shaft is arranged in the stirring shell, the first blanking shaft is provided with a rolling door, the other side of the rolling door is fixedly connected with a second blanking shaft, the second blanking shaft is in wheel key connection with the first blanking belt, the first blanking belt wheel, the second blanking belt wheel, the third blanking belt wheel, the fourth blanking belt wheel and the fifth blanking belt wheel are connected through a first blanking connecting belt, the second blanking belt wheel, the third blanking belt wheel, the fourth blanking belt wheel and the fifth blanking belt wheel are respectively in wheel key connection with the third blanking shaft, the fourth blanking shaft, the fifth blanking shaft and the sixth blanking shaft, the second blanking shaft, the third blanking shaft and the sixth blanking shaft are all arranged in a blanking transmission shell, the blanking transmission shell is fixedly connected with a transmission screw nut, the blanking transmission screw nut is in threaded connection with a blanking screw, and the blanking screw is arranged in the stirring shell, the blanking mechanism is characterized in that a blanking worm is sleeved outside the blanking screw rod, the blanking worm is meshed with a blanking worm wheel, the blanking worm wheel is in keyed connection with a fourth blanking shaft, the blanking screw rod is in keyed connection with a sixth blanking belt wheel, the sixth blanking belt wheel is connected with a seventh blanking belt wheel through a second blanking connecting belt, the seventh blanking belt wheel is in keyed connection with a first steering connecting shaft, the first steering connecting shaft is sleeved on a distance transmission screw rod through a bearing, a first blanking gear is arranged on the first steering connecting shaft, a plurality of groups of first limiting rods are arranged on the first blanking gear, the distance transmission screw rod is in threaded connection with a distance screw nut, a plurality of groups of second limiting rods are arranged on the second blanking gear, the first limiting rods can be meshed with the second limiting rods, the second blanking gear is in keyed connection with a second steering connecting shaft, and the second steering connecting shaft is movably connected with the distance screw nut, the second turns to the connecting axle and cup joints on distance drive screw, be provided with first steering gear on the distance drive screw, first steering gear can mesh with the second steering gear mutually, first steering gear also can mesh with the third steering gear mutually, second steering gear all with first steering shaft key-type connection with the third steering gear, first steering shaft cup joints in turning to electric telescopic handle, be provided with the fourth steering gear on the first steering shaft, first steering shaft still sets up on the mounting panel, mounting panel and stirring transmission shell fixed connection, fourth steering gear meshes with the fifth steering gear mutually, the fifth steering gear is connected with the second steering shaft key, the second steering shaft is connected with the steering gear key-type connection, turn to the turbine and mesh with the worm stirring mutually.

As a further optimization of the technical scheme, the sizing device for uniformly sizing textile yarns comprises a screen body, a screening shell, a transmission rack, transmission sector teeth, a transmission clamping rod, a hinge shaft, a clamping connection block, a screen body transmission disc, a screen body transmission shaft, a first screen body transmission belt wheel, a second screen body transmission belt wheel, a first connection belt, a screen body transmission worm, a third screen body transmission belt wheel, a fourth screen body transmission belt wheel and a second connection belt; the screen body is arranged at the lower end of the blanking device, the screen body is arranged in the screen shell, transmission racks are arranged on two sides of the screen body, each group of transmission racks is meshed with the transmission sector teeth, the transmission sector teeth are fixedly connected with the transmission clamping rods, the transmission clamping rods are hinged with the stirring transmission shell through hinge shafts, the transmission clamping rods are processed with clamping grooves, clamping connecting blocks are arranged in the clamping grooves and fixedly connected with the screen body transmission discs, the screen body transmission discs are in key connection with the screen body transmission shaft, the screen body transmission shaft is in key connection with the first screen body transmission belt wheel, the first screen body transmission belt wheel is connected with the second screen body transmission belt wheel through a first connecting belt, the second screen body connection belt wheel is in key connection with the screen body transmission worm, the screen body transmission worm is in movable connection with the screen shell through a connecting frame, the screen body transmission worm is in key connection with a third screen body transmission belt wheel, the third screen body driving belt wheel is connected with the fourth screen body driving belt wheel through a second connecting belt, and the fourth screen body driving belt wheel is arranged on the first driving shaft.

As a further optimization of the technical scheme, the sizing device comprises a first sizing transmission belt wheel, a second sizing transmission belt wheel, a first transmission belt, a first sizing shaft, a first sizing transmission wheel, a second sizing transmission wheel, a sizing stepped wheel, a sizing loop bar, a sizing water pipe, a sizing nozzle, a second sizing shaft, a third sizing transmission belt wheel, a fourth sizing transmission belt wheel and a second transmission belt; the screen body transmission worm is provided with a first sizing transmission belt wheel, the first sizing transmission belt wheel is connected with a second sizing transmission belt wheel through a first transmission belt, the second sizing transmission belt wheel is connected with a first sizing shaft key, the first sizing shaft is provided with a first sizing transmission wheel, the first sizing transmission wheel is fixedly connected with a second sizing transmission wheel, the lower end of the second sizing transmission wheel is fixedly connected with a sizing step pulley, the sizing step pulley is clamped on a connecting frame, the connecting frame is also arranged at the lower end of the first sizing transmission wheel, the connecting frame is fixedly connected with a shell, the sizing step pulley is fixedly connected with a sizing sleeve rod, a sizing water pipe is sleeved in the sizing sleeve rod, the bottom end of the sizing water pipe is fixedly connected with a sizing sprayer, the upper end of the sizing water pipe is communicated with a stirring shell, the sizing water pipe is also provided with a supercharger and a switch valve, the utility model discloses a sizing machine, including sizing sleeve pole, starching link pole, second starching shaft, third starching driving pulley, fourth starching driving pulley and first starching shaft key-type connection, starching sleeve pole and ground contained angle are the degree, starching sleeve pole and starching link span swing joint, be connected with the second starching shaft between starching link span and the casing, the epaxial third starching driving pulley that is provided with of second starching, third starching driving pulley and fourth starching driving pulley pass through the second drive belt and are connected, fourth starching driving pulley and first starching shaft key-type connection.

As further optimization of the technical scheme, the uniform sizing and shaping device for the textile yarns comprises a scraper blade motor, a first scraper blade transmission belt wheel, a second scraper blade transmission belt wheel, a first scraper blade connection belt, a first scraper blade transmission shaft, a first transmission rod, a second transmission rod, a scraper blade shell, a third transmission rod, a motion plate, a transmission frame, a scraper blade rod, a scraper blade, a side plate, a scraper blade transmission rack, a first scraper blade transmission gear, a scraper blade transmission shaft, a second scraper blade transmission gear, a third scraper blade transmission belt wheel, a fourth scraper blade transmission belt wheel and a second scraper blade connection belt; the main shaft of the scraper motor is in key connection with a first scraper driving belt wheel, the first scraper driving belt wheel is connected with a second scraper driving belt wheel through a first scraper connecting belt, the second scraper driving belt wheel is in key connection with a first scraper driving shaft, the first scraper driving shaft is connected with a first driving rod, the first driving rod is in a transmission groove of a second driving rod in a clamping manner, one side of the second driving rod is hinged with a scraper shell, the other side of the second driving rod is hinged with a third driving rod, the third driving rod is hinged with a moving plate, the moving plate is in sliding connection with a moving frame, the moving frame is fixedly connected with the scraper shell, the moving plate is fixedly connected with the transmission frame, the lower end of the transmission frame is fixedly connected with a scraper rod, the scraper rod is fixedly connected with a scraper, the two sides of the scraper are fixedly connected with side plates, and the upper end of the scraper driving frame is provided with a scraper driving rack, the upper end of scraper blade driving rack is provided with reset spring, the both ends of scraper blade driving rack mesh mutually with first scraper blade drive gear, every group first scraper blade drive gear all with scraper blade transmission shaft key-type connection, every group all be provided with second scraper blade drive gear on the scraper blade transmission shaft, two sets of scraper blade drive gear mesh mutually, it is a set of be provided with third scraper blade driving pulley on the scraper blade transmission shaft, third scraper blade driving pulley links to each other through second scraper blade connecting band with fourth scraper blade driving pulley, fourth scraper blade driving pulley and articulated shaft key-type connection.

As the further optimization of the technical scheme, the invention relates to a uniform sizing and shaping device for textile yarns, which comprises a shaping hot air blower and a shaping pipe; the shaping air heater is fixedly arranged in the shell, and an air outlet pipe of the shaping air heater is communicated with the plurality of groups of shaping pipes.

The uniform sizing and shaping device for the textile yarns has the beneficial effects that:

the invention relates to the technical field of textile machinery, in particular to a uniform sizing and shaping device for textile yarns;

1) by arranging the blanking device, the blanking device can enable the slurry stirred in the stirring device to automatically fall, so that the automation is completed, and the labor is saved;

2) by arranging the sieving device; the screening device can filter out large-particle slurry blocks, and can wash the large-particle slurry blocks into small blocks through newly falling slurry without manual secondary work;

3) by being provided with a sizing device; the sizing device can rotate the sizing pipe to ensure uniform sizing;

4) by arranging the scraper device; the slurry scraper can scrape redundant slurry and can supplement the slurry to the part lacking the slurry, so that the slurry is uniform;

5) by arranging the shaping device; the cloth after sizing can be ensured to be convenient to store.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the transmission device of the present invention.

Fig. 3 is a schematic structural view of the stirring device of the present invention.

Fig. 4 is a first structural schematic diagram of the blanking device of the present invention.

Fig. 5 is a structural schematic diagram of a blanking device of the invention.

Fig. 6 is a schematic structural view of the sieving device of the present invention.

FIG. 7 is a schematic structural view of a sizing apparatus of the present invention.

Fig. 8 is a schematic view of the squeegee assembly of the present invention.

Fig. 9 is a schematic structural view of the setting device of the present invention.

In the figure: a housing 1; an air outlet pipe 2; a support base 3; a feeding gate 4; a transmission device 5; a drive motor 6; a stirring device 7; a blanking device 8; a sifting device 9; a sizing device 10; a squeegee device 11; a shaping device 12; a first transmission bevel gear 5-1; a second transmission bevel gear 5-2; 5-3 of a first transmission shaft; a first drive pulley 5-4; a second drive pulley 5-5; a first transmission connecting belt 5-6; a second transmission shaft 5-7; 5-8 parts of a third transmission belt wheel; a fourth driving pulley 5-9; 5-10 parts of a second transmission connecting belt; a third transmission shaft 5-11; a first stirring shaft 7-1; a first stirring belt wheel 7-2; a second stirring belt wheel 7-3; a first stirring connecting belt 7-4; 7-5 parts of a stirring worm; 7-6 of a stirring transmission handle; 7-7 parts of a stirring connecting rod; 7-8 parts of a stirring transmission slide block; 7-9 parts of a stirring transmission groove rod; 7-10 parts of a first stirring clamping wheel; a second stirring shaft 7-11; 7-12 parts of a second stirring clamping wheel; a third stirring shaft 7-13; a third stirring belt wheel 7-14; a fourth stirring belt wheel 7-15; 7-16 parts of a second stirring connecting belt; a fourth stirring shaft 7-17; a feeding pipe 7-18; 7-19 parts of a stirring wheel; a first blanking shaft 8-1; 8-2 of a roller shutter door; a second blanking shaft 8-3; a first blanking belt wheel 8-4; a second discharging belt wheel 8-5; a third blanking belt wheel 8-6; a fourth discharging belt wheel 8-7; a fifth discharging belt wheel 8-8; 8-9 parts of a first blanking connecting belt; 8-10 parts of a third blanking shaft; a fourth blanking shaft 8-11; a fifth blanking shaft 8-12; a sixth blanking shaft 8-13; 8-14 parts of a transmission screw nut; 8-15 parts of a blanking screw rod; a sixth feeding belt wheel 8-16; a seventh blanking belt wheel 8-17; the second blanking connecting belt is 8-18; a path transmission lead screw 8-19; 8-20 parts of a first blanking gear; a first stop lever 8-21; distance screw nut 8-22; distance transmission sleeve shafts 8-23; a second blanking gear 8-23; 8-24 parts of a second limiting rod; a first steering gear 8-25; a second steering gear 8-26; a third steering gear 8-27; a first steering shaft 8-28; steering electric telescopic rods 8-29; a fourth steering gear 8-30; a fifth steering gear 8-31; a second steering shaft 8-32; a diverting turbine 8-33; a screen body 9-1; a screening shell 9-2; a transmission rack 9-3; 9-4 parts of transmission sector gear; 9-5 of a transmission clamping rod; 9-6 parts of a hinged shaft; clamping a connecting block 9-7; a screen body transmission disc 9-8; a screen body transmission shaft 9-9; a first screen body transmission belt wheel 9-10; a second screen body transmission belt wheel 9-11; first connecting belts 9-12; a screen body transmission worm 9-13; a third screen body transmission belt wheel 9-14; a fourth screen body transmission belt wheel 9-15; second connecting straps 9-16; a first sizing transmission belt wheel 10-1; a second sizing transmission belt wheel 10-2; a first drive belt 10-3; a first sizing shaft 10-4; a first sizing transmission wheel 10-5; a second sizing transmission wheel 10-6; 10-7 of sizing ladder wheels; 10-8 of sizing loop bar; 10-9 parts of a sizing water pipe; 10-10 of a sizing spray head; a second sizing shaft 10-11; a third sizing transmission belt wheel 10-12; a fourth sizing transmission belt wheel 10-13; a second belt 10-14; a scraper motor 11-1; a first scraper driving pulley 11-2; a second scraper driving belt wheel 11-3; a first scraper connecting belt 11-4; a first scraper drive shaft 11-5; a first driving lever 11-6; a second transmission rod 11-7; 11-8 parts of a scraper shell; a third transmission rod 11-9; a motion plate 11-10; a transmission frame 11-11; a screed bar 11-12; scrapers 11-13; side plates 11-14; scraper transmission racks 11-15; first flight drive gears 11-16; a scraper transmission shaft 11-17; second flight drive gears 11-18; third scraper driving belt wheels 11-19; a fourth scraper driving belt wheel 11-20; second scraper connecting belts 11-21; return springs 11-22; a shaping air heater 12-1; a sizing tube 12-2.

Detailed Description

The first embodiment is as follows:

the invention relates to the technical field of textile machinery, in order to solve the technical problems, and in combination with fig. 1-9, in particular to a uniform sizing and shaping device for textile yarns, which comprises a shell 1, an air outlet pipe 2, a supporting base 3, a feeding door 4, a transmission device 5, a driving motor 6, a stirring device 7, a discharging device 8, a screening device 9, a sizing device 10, a scraping plate device 11 and a shaping device 12; one side of the shell 1 is communicated with an air outlet pipe 2, a supporting base 3 is arranged at the bottom end of the shell 1, a slurry falling hole and a blanking groove are processed at the bottom end of the shell 1, the shell 1 is hinged with a feeding door 4, a mounting groove is processed in the shell 1, a discharge groove is further processed on the shell 1, a transmission device 5 is arranged in the shell 1, the transmission device 5 is connected with a driving motor 6, the driving motor 6 is connected with a stirring device 7, a blanking device 8 is arranged at a corresponding position of the stirring device 7, the blanking device 8 is connected with the driving motor 6, the transmission device 5 is connected with a sieving device 9, the sieving device 9 is connected with a sizing device 10, and a scraping plate device 11 and a shaping device 12 are further arranged in the shell 1;

driving motor 6 drives agitating unit 7's motion, can be with thick liquid raw and other materials misce bene through agitating unit 7, rethread unloader 8, fall into the thick liquid and sieve and move device 9, sieve and move device 9 and pass through unloader 8 with exquisite thick liquid and fall onto the weaving yarn on, the weaving yarn is through going into bin gate 4 and putting into transmission 5, through transmission 5 with the weaving yarn transmission, thereby through the starching of sizing apparatus 10, scraper means 11 strikes off unnecessary thick liquid, guarantee the homogeneity of starching, rethread setting device 12 is stereotyped the weaving yarn after starching, the position deviation that outlet duct 2 set up is gone into bin gate 4, because be close to the door, hot air can expel cold air to outlet duct 2 on, prevent thermal loss.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 9, and the present embodiment further describes the first embodiment, where the transmission device 5 includes a first transmission bevel gear 5-1, a second transmission bevel gear 5-2, a first transmission shaft 5-3, a first transmission pulley 5-4, a second transmission pulley 5-5, a first transmission connecting belt 5-6, a second transmission shaft 5-7, a third transmission pulley 5-8, a fourth transmission pulley 5-9, a second transmission connecting belt 5-10, and a third transmission shaft 5-11; the driving motor 6 is connected with a first transmission bevel gear 5-1 key, the first transmission bevel gear 5-1 is meshed with a second transmission bevel gear 5-2, the second transmission bevel gear 5-2 is connected with a first transmission shaft 5-3 in a key way, a first transmission belt wheel 5-4 is arranged on the first transmission shaft 5-3, the first transmission belt wheel 5-4 is connected with the second transmission belt wheel 5-5 through a first transmission connecting belt 5-6, the second transmission belt wheel 5-5 is connected with a second transmission shaft 5-7 key, a third transmission belt wheel 5-8 is arranged on the second transmission shaft 5-7, the third transmission belt wheel 5-8 is connected with the fourth transmission belt wheel 5-9 through a second transmission connecting belt 5-10, and the fourth transmission belt wheel 5-9 is in key connection with the third transmission shaft 5-11;

the driving motor 6 drives the first transmission bevel gear 5-1 to rotate, further drives the second transmission bevel gear 5-2 to rotate, so that the first transmission shaft 5-3 rotates, the first transmission shaft 5-3 drives the first transmission belt wheel 5-4 to rotate, the second transmission belt wheel 5-5 rotates along with the first transmission connecting belt 5-6, the second transmission shaft 5-7 drives the third transmission belt wheel 5-8 to rotate, the fourth transmission belt wheel 5-9 rotates under the driving of the second transmission belt 10-14, the fourth transmission belt wheel 5-9 can drive the third transmission shaft 5-11 to rotate, the second transmission belt 10-14 can perform circular transmission, the textile yarns can be driven to move through the movement of the second transmission belt 10-14, and the textile yarns can be driven to move through the sizing device 10-11, The scraper device 11 and the shaping device 12 are a series of devices for sizing and shaping textile yarns, and the scraper device 11 scrapes off the slurry on the textile yarns to enable the textile yarns to be uniformly and smoothly sized.

The third concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 9, which further illustrate the first embodiment, the stirring device 7 comprises a first stirring shaft 7-1, a first stirring belt wheel 7-2, a second stirring belt wheel 7-3, a first stirring connecting belt 7-4, a stirring worm 7-5, a stirring transmission handle 7-6, a stirring connecting rod 7-7, a stirring transmission slide block 7-8, a stirring transmission groove rod 7-9, a first stirring clamping wheel 7-10, a second stirring shaft 7-11, a second stirring clamping wheel 7-12, a third stirring shaft 7-13, a third stirring belt wheel 7-14, a fourth stirring belt wheel 7-15, a second stirring connecting belt 7-16, a fourth stirring shaft 7-17, a feeding pipe 7-18 and a stirring wheel 7-19; the stirring mechanism is characterized in that the driving motor 6 is connected with a first stirring shaft 7-1 through a coupler, the first stirring shaft 7-1 is arranged in a stirring transmission shell, the first stirring shaft 7-1 is connected with a first stirring belt wheel 7-2 in a key mode, the first stirring belt wheel 7-2 is connected with a second stirring belt wheel 7-3 through a first stirring connecting belt 7-4, the second stirring belt wheel 7-3 is connected with a stirring worm 7-5 in a key mode, the stirring worm 7-5 is fixedly connected with a stirring transmission handle 7-6, the stirring transmission handle 7-6 is sleeved with a stirring connecting rod 7-7, the stirring connecting rod 7-7 is hinged with a stirring transmission slide block 7-8, the stirring transmission slide block 7-8 is clamped on a stirring transmission groove rod 7-9, and the stirring transmission slide rod is fixedly connected with a first stirring clamping wheel 7-10, the first stirring clamping wheel 7-10 is in key connection with the second stirring shaft 7-11, the first stirring clamping wheel 7-10 is in clamping connection with the second stirring clamping wheel 7-12, the second stirring clamping wheel 7-12 is in key connection with the third stirring shaft 7-13, the third stirring shaft 7-13 is in key connection with the third stirring belt wheel 7-14, the third stirring belt wheel 7-14 is connected with the fourth stirring belt wheel 7-15 through the second stirring connecting belt 7-16, the fourth stirring belt wheel 7-15 is in key connection with the fourth stirring shaft 7-17, the fourth stirring shaft 7-17 is arranged in a stirring shell, the stirring shell is communicated with the feeding pipe 7-18, and a plurality of groups of stirring wheels 7-19 are arranged on the fourth stirring shaft 7-17;

raw materials are added into a feeding pipe 7-18 through the feeding pipe 7-18, a main shaft of a driving motor 6 drives a first stirring shaft 7-1 to rotate, the first stirring shaft 7-1 drives a first stirring belt wheel 7-2 to rotate, a first stirring connecting belt 7-4 can drive a second stirring belt wheel 7-3 to rotate, further a stirring worm 7-5 is driven to rotate, a stirring transmission handle 7-6 can be driven to rotate, one end of the stirring transmission handle 7-6 is fixedly connected with the stirring worm 7-5 to drive the stirring worm 7-5 to rotate, the other end of the stirring transmission handle 7-6 is sleeved with the stirring connecting rod 7-7, the stirring transmission handle 7-6 can rotate on the stirring connecting rod 7-7, the stirring transmission handle 7-6 drives the stirring connecting rod 7-7 to move, as the stirring transmission slide block 7-8 is clamped in the stirring transmission groove rod 7-9, the stirring transmission slide block 7-8 is driven to move in the stirring transmission groove rod 7-9, and the effect of the force applied to the stirring transmission slide block 7-8 is exerted to drive the stirring transmission groove rod 7-9 to swing back and forth, so as to drive the first stirring clamping wheel 7-10 to rotate back and forth, so as to drive the second stirring clamping wheel 7-12 to rotate back and forth, so as to drive the fourth stirring shaft 7-17 to drive the third stirring belt wheel 7-14 to rotate, so as to drive the fourth stirring belt wheel 7-15 to rotate back and forth through the second stirring connection belt 7-16, so as to drive the stirring wheels 7-19 to rotate back and forth, all the raw materials can be uniformly stirred under the back-and-forth rotation of the stirring wheels 7-19, the stirring speed is accelerated under the circulation forward and backward rotation of the stirring wheels 7-19, and the stirred slurry is stored in the stirring shell.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-9, and the third embodiment is further described with reference to the first embodiment, in which the blanking device 8 includes a first blanking shaft 8-1, a rolling door 8-2, a second blanking shaft 8-3, a first blanking pulley 8-4, a second blanking pulley 8-5, a third blanking pulley 8-6, a fourth blanking pulley 8-7, a fifth blanking pulley 8-8, a first blanking connecting belt 8-9, a third blanking shaft 8-10, a fourth blanking shaft 8-11, a fifth blanking shaft 8-12, a sixth blanking shaft 8-13, a driving screw nut 8-14, a blanking screw 8-15, a sixth blanking pulley 8-16, a seventh blanking pulley 8-17, a second blanking connecting belt 8-18, a path driving screw 8-19, The device comprises a first blanking gear 8-20, a first limiting rod 8-21, a distance lead screw nut 8-22, a distance transmission sleeve shaft 8-23, a second blanking gear 8-23, a second limiting rod 8-24, a first steering gear 8-25, a second steering gear 8-26, a third steering gear 8-27, a first steering shaft 8-28, a steering electric telescopic rod 8-29, a fourth steering gear 8-30, a fifth steering gear 8-31, a second steering shaft 8-32 and a steering turbine 8-33; the first blanking shaft 8-1 is arranged in the stirring shell, the first blanking shaft 8-1 is provided with a rolling door 8-2, the other side of the rolling door 8-2 is also fixedly connected with a second blanking shaft 8-3, the second blanking shaft 8-3 is in key connection with a first blanking belt wheel 8-4, the first blanking belt wheel 8-4, a second blanking belt wheel 8-5, a third blanking belt wheel 8-6, a fourth blanking belt wheel 8-7 and a fifth blanking belt wheel 8-8 are connected through a first blanking connecting belt 8-9, the second blanking belt wheel 8-5, the third blanking belt wheel 8-6, the fourth blanking belt wheel 8-7 and the fifth blanking belt wheel 8-8 are in key connection with a third blanking shaft 8-10, a fourth blanking shaft 8-11, a fifth blanking shaft 8-12 and a sixth blanking shaft 8-13 respectively, the second blanking shaft 8-3, the third blanking shaft 8-10 and the sixth blanking shaft 8-13 are all arranged in a blanking transmission shell, the blanking transmission shell is fixedly connected with a transmission lead screw nut 8-14, the blanking transmission lead screw nut 8-14 is in threaded connection with a blanking lead screw 8-15, the blanking lead screw 8-15 is arranged in a stirring transmission shell, a blanking worm is sleeved outside the blanking lead screw 8-15 and meshed with a blanking turbine, the blanking turbine is in key connection with a fourth blanking shaft 8-11, the blanking lead screw 8-15 is in key connection with a sixth blanking belt wheel 8-16, the sixth blanking belt wheel 8-16 is connected with a seventh blanking belt wheel 8-17 through a second blanking connecting belt 8-18, and the seventh blanking belt wheel 8-17 is in key connection with a first steering wheel, the first steering connecting shaft is sleeved on a distance transmission screw rod 8-19 through a bearing, a first blanking gear 8-20 is arranged on the first steering connecting shaft, a plurality of groups of first limiting rods 8-21 are arranged on the first blanking gear 8-20, the distance transmission screw rod 8-19 is in threaded connection with a distance screw rod nut 8-22, a plurality of groups of second limiting rods 8-24 are arranged on a second blanking gear 8-23, the first limiting rods 8-21 and the second limiting rods 8-24 can be meshed, the second blanking gear 8-23 is in key connection with a second steering connecting shaft, the second steering connecting shaft is movably connected with the distance screw rod nut 8-22, the second steering connecting shaft is sleeved on the distance transmission screw rod 8-19, and the distance transmission screw rod 8-19 is provided with a first steering gear 8-25, the first steering gear 8-25 can be meshed with the second steering gear 8-26, the first steering gear 8-25 can also be meshed with the third steering gear 8-27, the second steering gear 8-26 and the third steering gear 8-27 are both in key connection with the first steering shaft 8-28, the first steering shaft 8-28 is sleeved in the steering electric telescopic rod 8-29, the first steering shaft 8-28 is provided with the fourth steering gear 8-30, the first steering shaft 8-28 is also arranged on the mounting plate, the mounting plate is fixedly connected with the stirring transmission shell, the fourth steering gear 8-30 is meshed with the fifth steering gear 8-31, the fifth steering gear 8-31 is in key connection with the second steering shaft 8-32, the second steering shaft 8-32 is in key connection with the steering turbine 8-33, the steering worm wheel 8-33 is meshed with the stirring worm 7-5;

the stirring worm 7-5 drives the turning worm wheel 8-33 to rotate, and further drives the second turning shaft 8-32 to rotate, the fifth turning gear 8-31 drives the fourth turning gear 8-30, so that the first turning shaft 8-28 rotates along with the fourth turning gear, and further drives the second turning gear 8-26 and the third turning gear 8-27 to rotate, the second turning gear 8-26 drives a half of the first turning gear 8-25 to rotate, at the moment, the third turning gear 8-27 is not meshed with the first turning gear 8-25, when the turning electric telescopic rod 8-29 drives the first turning shaft 8-28 to stretch until the second turning gear 8-26 is not meshed with the first turning gear 8-25, the third turning gear 8-27 is meshed with the first turning gear 8-25, the third steering gear 8-27 drives the other half of the first steering gear 8-25 to rotate, the rotating directions of the second steering gear 8-26 and the third steering gear 8-27 are the same, and the meshing position of the second steering gear 8-26 and the first steering gear 8-25 is different, so that the directions of the second steering gear 8-26 and the third steering gear 8-27 driving the first steering gear 8-25 are opposite, and the first steering gear 8-25 realizes forward and reverse rotation; when the first steering gear 8-25 rotates forwards, the first steering gear 8-25 drives the path transmission screw 8-19 to rotate, further drives the blanking transmission screw nut 8-14 to move along the path transmission screw 8-19, the second steering connecting shaft rotates along with the rotation of the path transmission screw 8-19, so that the second blanking gear 8-23 rotates along with the second steering connecting shaft, when the second limiting rod 8-24 moving to the second blanking gear 8-23 is engaged with the first limiting rod 8-21, the first limiting rod 8-21 drives the first blanking gear 8-20 to rotate, and further drives the first steering connecting shaft to rotate, so as to drive the seventh blanking belt wheel 8-17 to rotate, and the sixth blanking belt wheel 8-16 can be driven to rotate through the second blanking connecting belt 8-18, the blanking screw 8-15 is rotated along with the rotation of the blanking screw, the blanking drive screw nut 8-14 is moved along the blanking screw 8-15 to drive the rotation of the blanking drive shell, at the same time, the blanking screw 8-15 can drive the rotation of the blanking worm and the rotation of the blanking turbine to drive the rotation of the fourth blanking shaft 8-11, the third blanking pulley 8-6 is rotated along with the rotation of the first blanking connecting belt 8-9 to drive the rotation of the first blanking pulley 8-4, the second blanking pulley 8-5, the fourth blanking pulley 8-7 and the fifth blanking pulley 8-8, thereby driving the connected second blanking shaft 8-3, the third blanking shaft 8-10, the fourth blanking shaft 8-11, The fifth blanking shaft 8-12 and the sixth blanking shaft 8-13 rotate to ensure smooth rotation, because the distance screw nuts 8-22 are fixedly connected with the blanking transmission shell, the second blanking shaft 8-3 rotates along the stirring shell and moves linearly, and even if the blanking transmission shell moves along the distance screw nuts 8-22, because the length of the first blanking connecting belt 8-9 is unchanged, the first blanking connecting belt 8-9 can also continue to drive each blanking belt wheel to transmit, and the first blanking shaft 8-1 drives one side of the rolling door 8-2 to be fixed, the rotation of the second blanking shaft 8-3 can drive the rolling door 8-2 to rotate at the rolling door 8-2 along with the rotation of the second blanking shaft 8-3, the door is opened, so that the stirred grout falls in the sieving device 9, the slurry is screened, so that slurry blocks are prevented from entering the sizing device 10 and falling on the cloth, the cloth is hardened, and the sizing quality of the cloth is reduced;

when the first steering gear 8-25 is reversed, the shutter door 8-2 is moved in reverse, the door is closed, and the raw material is further put in, and the slurry is stirred.

The fifth concrete implementation mode:

the second embodiment is further described with reference to fig. 1-9, where the screen moving device 9 includes a screen body 9-1, a screen moving shell 9-2, a transmission rack 9-3, a transmission sector gear 9-4, a transmission clamping rod 9-5, a hinge shaft 9-6, a clamping connection block 9-7, a screen body transmission disk 9-8, a screen body transmission shaft 9-9, a first screen body transmission pulley 9-10, a second screen body transmission pulley 9-11, a first connection belt 9-12, a screen body transmission worm 9-13, a third screen body transmission pulley 9-14, a fourth screen body transmission pulley 9-15, and a second connection belt 9-16; the screen body 9-1 is arranged at the lower end of the blanking device 8, the screen body 9-1 is arranged in a screen movable shell 9-2, transmission racks 9-3 are arranged on two sides of the screen body 9-1, each transmission rack 9-3 is meshed with a transmission sector gear 9-4, the transmission sector gear 9-4 is fixedly connected with a transmission clamping rod 9-5, the transmission clamping rod 9-5 is hinged with the stirring transmission shell through a hinge shaft 9-6, a clamping groove is processed on the transmission clamping rod 9-5, a clamping connecting block 9-7 is arranged in the clamping groove, the clamping connecting block 9-7 is fixedly connected with a screen body transmission disc 9-8, the screen body transmission disc 9-8 is connected with a screen body transmission shaft 9-9 key, the screen body transmission shaft 9-9 is connected with a first screen body belt wheel 9-10 key, the first screen body transmission belt wheel 9-10 is connected with the second screen body transmission belt wheel 9-11 through a first connecting belt 9-12, the second screen body 9-1 is connected with a belt wheel which is in key connection with a screen body transmission worm 9-13, the screen body transmission worm 9-13 is movably connected with the screen shell 9-2 through a connecting frame, the screen body transmission worm 9-13 is in key connection with a third screen body transmission belt wheel 9-14, the third screen body transmission belt wheel 9-14 is connected with a fourth screen body transmission belt wheel 9-15 through a second connecting belt 9-16, and the fourth screen body transmission belt wheel 9-15 is arranged on the first transmission shaft 5-3;

the rotation of the first transmission shaft 5-3 can drive the rotation of a fourth screen transmission belt wheel 9-15, the rotation of a third screen transmission belt wheel 9-14 can be driven through a second connecting belt 9-16, so as to drive the rotation of a screen transmission worm 9-13, the screen transmission worm 9-13 can be clamped with the screen shell 9-2 and can also rotate in the screen shell 9-2, the screen transmission worm 9-13 drives the rotation of a second screen 9-1 connecting belt wheel, the first connecting belt 9-12 can drive the rotation of a first screen 9-1 connecting belt wheel and further drive the rotation of a screen transmission shaft 9-9, the rotation of a group of screen transmission discs 9-8 can be driven under the rotation of the group of screen transmission shafts 9-9, and as the screen transmission discs 9-8 are fixedly connected with a clamping connecting block 9-7, the clamping connecting block 9-7 is eccentrically connected to the screen body transmission disc 9-8, in the rotating process of the screen body transmission disc 9-8, the clamping connecting block 9-7 rotates along with the screen body 9-1 to realize transverse and longitudinal distance transmission, as the clamping connecting block 9-7 is clamped with the transmission clamping rod 9-5, in the transmission process of the clamping connecting block 9-7, the transmission of clamping groove force is given, the back-and-forth swing of the transmission clamping rod 9-5 is further driven, the back-and-forth transmission of the transmission sector gear 9-4 is further driven, as the transmission clamping rod 9-5 is hinged in the stirring transmission shell, the longitudinal movement of the clamping connecting block 9-7 cannot cause the longitudinal movement of the transmission clamping rod 9-5 and the transmission sector gear 9-4, the back-and-forth swing is only ensured, and the transmission sector gear 9-4 is meshed with the rack 9-3, and the transmission rack 9-3 is arranged in the sieving shell 9-2, so that the transmission rack 9-3 can move back and forth in the sieving shell 9-2 along with the movement of the transmission sector teeth 9-4 to drive the sieving body 9-1 to move back and forth, thereby realizing sieving, and the other group of clamping connecting blocks 9-7, the transmission clamping rods 9-5, the transmission sector teeth 9-4 and the transmission rack 9-3 ensure the normal and synchronous operation of the two ends of the sieving body 9-1, and during the movement process of the sieving body 9-1, large pulp blocks can not fall off and can be further dissolved in the washing of falling pulp.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 9, and the present embodiment further describes the first embodiment, where the sizing device 10 includes a first sizing driving pulley 10-1, a second sizing driving pulley 10-2, a first driving belt 10-3, a first sizing shaft 10-4, a first sizing driving wheel 10-5, a second sizing driving wheel 10-6, a sizing step pulley 10-7, a sizing loop bar 10-8, a sizing water pipe 10-9, a sizing nozzle 10-10, a second sizing shaft 10-11, a third sizing driving pulley 10-12, a fourth sizing driving pulley 10-13, and a second driving belt 10-14; the screen body transmission worm 9-13 is provided with a first sizing transmission belt wheel 10-1, the first sizing transmission belt wheel 10-1 is connected with a second sizing transmission belt wheel 10-2 through a first transmission belt 10-3, the second sizing transmission belt wheel 10-2 is in key connection with a first sizing shaft 10-4, the first sizing shaft 10-4 is provided with a first sizing transmission wheel 10-5, the first sizing transmission wheel 10-5 is connected with a second sizing transmission wheel 10-6, the lower end of the second sizing transmission wheel 10-6 is fixedly connected with a sizing step pulley 10-7, the sizing step pulley 10-7 is clamped on a connecting frame, the connecting frame is also arranged at the lower end of the first sizing transmission wheel 10-5, the connecting frame is fixedly connected with the shell 1, the sizing step pulley 10-7 is fixedly connected with a sizing sleeve rod 10-8, a sizing water pipe 10-9 is sleeved in the sizing loop bar 10-8, the bottom end of the sizing water pipe 10-9 is fixedly connected with a sizing spray head 10-10, the upper end of the sizing water pipe 10-9 is communicated with the stirring transmission shell, the sizing water pipe 10-9 is also provided with a supercharger and a switch valve, the included angle between the sizing loop bar 10-8 and the ground is 60 degrees, the sizing loop bar 10-8 is movably connected with the sizing connecting frame, a second sizing shaft 10-11 is connected between the sizing connecting frame and the shell 1, a third sizing transmission belt wheel 10-12 is arranged on the second sizing shaft 10-11, the third sizing transmission belt wheel 10-12 is connected with the fourth sizing transmission belt wheel 10-13 through a second transmission belt 10-14, the fourth sizing transmission belt wheel 10-13 is connected with the first sizing shaft 10-4 key;

the rotation of the screen body transmission worm 9-13 drives the rotation of a first sizing transmission belt wheel 10-1, the rotation of a second sizing transmission belt wheel 10-2 can be driven through a first transmission belt 10-3, so that the rotation of a first sizing shaft 10-4 is driven, the rotation of a first sizing transmission wheel 10-5 is further driven, and the rotation of a second sizing transmission wheel 10-6 is driven through the meshing of the first sizing transmission wheel 10-5 and the second sizing transmission wheel 10-6;

the rotation of the first sizing shaft 10-4 can also drive the rotation of a fourth sizing transmission belt wheel 10-13, the rotation of a third sizing transmission belt wheel 10-12 is driven through a second transmission belt 10-14, and then the rotation of a second sizing shaft 10-11 is driven, so that a sizing connecting frame rotates along with the rotation of the fourth sizing transmission belt wheel, and the sizing connecting frame is clamped with a sizing loop bar 10-8, and the included angle between the sizing loop bar 10-8 and the ground is 60 degrees, so that the sizing loop bar 10-8 rotates circumferentially around the second sizing shaft 10-11, and uniform and complete sizing of sizing is ensured; meanwhile, the first sizing transmission wheel 10-5 drives the second sizing transmission wheel 10-6 to rotate, the sizing stepped wheel 10-7 rotates regularly in the connecting frame, one side meshed with the first sizing transmission wheel 10-5 is contacted with the connecting frame, the other side is not contacted with the connecting frame, the second sizing transmission wheel 10-6 drives the sizing loop bar 10-8 to move, and further drives the sizing water pipe 10-9 to transmit, the sizing transmission range is enlarged by applying the connecting mode, and when the discharging device 8 moves, the switch valve and the supercharger transmit, and the sizing water pipe 10-9 enters the sizing spray head 10-10 to perform sizing.

The seventh embodiment:

the fifth embodiment is further described with reference to fig. 1-9, and the scraper device 11 includes a scraper motor 11-1, a first scraper driving pulley 11-2, a second scraper driving pulley 11-3, a first scraper connecting belt 11-4, a first scraper driving shaft 11-5, a first driving rod 11-6, a second driving rod 11-7, a scraper housing 11-8, a third driving rod 11-9, a moving plate 11-10, a driving frame 11-11, a scraper rod 11-12, a scraper 11-13, a side plate 11-14, a scraper driving rack 11-15, a first scraper driving gear 11-16, a scraper driving shaft 11-17, a second scraper driving gear 11-18, a third scraper driving pulley 11-19, a scraper driving rack 11-15, a scraper driving gear 11-16, a scraper driving shaft 11-17, a second scraper driving gear 11-18, a third scraper driving pulley 11, A fourth scraper driving belt wheel 11-20 and a second scraper connecting belt 11-21; the main shaft of the scraper motor 11-1 is connected with a first scraper driving belt wheel 11-2 in a key mode, the first scraper driving belt wheel 11-2 is connected with a second scraper driving belt wheel 11-3 through a first scraper connecting belt 11-4, the second scraper driving belt wheel 11-3 is connected with a first scraper driving shaft 11-5 in a key mode, the first scraper driving shaft 11-5 is connected with a first driving rod 11-6, the first driving rod 11-6 is clamped in a driving groove of a second driving rod 11-7, one side of the second driving rod 11-7 is hinged with a scraper shell 11-8, the other side of the second driving rod 11-7 is hinged with a third driving rod 11-9, the third driving rod 11-9 is hinged with a moving plate 11-10, and the moving plate 11-10 is connected with a moving frame in a sliding mode, the movable frame is fixedly connected with a scraper shell 11-8, the movable plate 11-10 is fixedly connected with a transmission frame 11-11, the lower end of the transmission frame 11-11 is fixedly connected with a scraper rod 11-12, the scraper rod 11-12 is fixedly connected with a scraper 11-13, two sides of the scraper 11-13 are fixedly connected with side plates 11-14, a scraper transmission rack 11-15 is arranged at the upper end of the transmission frame 11-11 of the scraper 11-13, a return spring 11-22 is arranged at the upper end of the scraper transmission rack 11-15, two ends of the scraper transmission rack 11-15 are meshed with first scraper transmission gears 11-16, each group of the first scraper transmission gears 11-16 are connected with scraper transmission shafts 11-17 in a key mode, and each group of the scraper transmission shafts 11-17 are provided with second scraper transmission gears 11-18, two groups of scraper transmission gears 11-16 are meshed, a group of scraper transmission shafts 11-17 are provided with third scraper transmission belt wheels 11-19, the third scraper transmission belt wheels 11-19 are connected with fourth scraper transmission belt wheels 11-20 through second scraper connecting belts 11-21, and the fourth scraper transmission belt wheels 11-20 are in key connection with articulated shafts 9-6;

the true reverse rotation of the articulated shaft 9-6 drives the forward and reverse rotation of the fourth scraper driving belt wheel 11-20, the forward and reverse rotation of the third scraper 11-13 driving belt wheel can be driven through the second scraper connecting belt 11-21, so as to drive the forward and reverse rotation of one group of scraper driving shafts 11-17, further drive the forward and reverse rotation of the second scraper driving gears 11-18, further drive the forward and reverse rotation of the other group of second scraper driving gears 11-18 through the meshing of the two groups of scraper driving gears 11-13, thereby driving the forward and reverse rotation of the other group of scraper driving shafts 11-17, the rotation of the two groups of scraper driving shafts 11-17 respectively drives the forward and reverse rotation of the two groups of first scraper driving gears 11-16, and drives the ascending and descending of the scraper driving racks 11-15 through the forward and reverse rotation of the two groups of first, when the scraper transmission rack 11-15 moves downwards, the return spring 11-22 is stretched to drive the scraper 11-13 transmission frame 11-11 to move downwards and further drive the scraper shell 11-8 to move downwards, at this time, the main shaft of the scraper motor 11-1 drives the first scraper transmission belt wheel 11-2 to rotate, the second scraper transmission belt wheel 11-3 can be driven through the first scraper connection belt 11-4 to further drive the first scraper transmission shaft 11-5 to rotate so as to drive the first transmission rod 11-6 to rotate, the first transmission rod 11-6 is clamped in the second transmission rod 11-7, the second transmission rod 11-7 is further driven to move in the rotating process, the second transmission rod 11-7 drives one end of the third transmission rod 11-9 to rotate around the end of the third transmission rod 11-9 hinged with the moving plate 11-10, the moving plate 11-10 is driven to move, because the moving plate 11-10 is in the moving frame, the moving plate 11-10 can only move transversely along the moving frame, so that the scraper shell 11-8 is driven to move, the scraper shell 11-8 moves along the direction far away from the scraper motor 11-1, and further the scraper 11-13 and the side plate 11-14 are driven to move, the scraper 11-13 scrapes off redundant slurry, the side plate 11-14 can drain the redundant slurry, when the slurry does not reach the side plate 11-14, the slurry can reach the position where the slurry is insufficient through the scraper 11-13, resources are saved, the slurry can fall into an externally-placed container through a slurry falling hole, and waste of resources is prevented;

when the scraper transmission rack 11-15 moves upwards, the reset spring 11-22 can ensure that the scraper transmission rack 11-15 is matched with the gear to stably rise for resetting, so that the scraper 11-13 and the side plate 11-14 move upwards, the scraper shell 11-8 moves to the position farthest from the scraper motor 11-1, and the spindle of the scraper motor 11-1 can drive the moving plate 11-10 to move towards the direction close to the scraper motor 11-1 along the moving frame, so that the scraper shell 11-8 is driven to move, the scraper 11-13 and the side plate 11-14 move towards the direction far from the scraper motor 11-1, and preparation is made for the next scraper 11-13.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 9, and the present embodiment further describes the first embodiment, wherein the shaping device 12 includes a shaping hot air blower 12-1 and a shaping pipe 12-2; the shaping air heater 12-1 is fixedly arranged in the shell 1, and an air outlet pipe of the shaping air heater 12-1 is communicated with a plurality of groups of shaping pipes 12-2;

through the quick design of design air heater 12-1 to weaving yarn, guarantee to prevent that the yarn from when passing through the charging chute, convenient storage, and at hot-blast ventilation's in-process, outlet duct 2 can prevent that hot-blast air in with casing 1 from expanding rapidly to take place danger.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. A spinning yarn uniform sizing setting device comprises a shell (1), an air outlet pipe (2), a supporting base (3), a feeding door (4), a transmission device (5), a driving motor (6), a stirring device (7), a discharging device (8), a screening device (9), a sizing device (10), a scraper device (11) and a setting device (12); the method is characterized in that: one side of the shell (1) is communicated with the air outlet pipe (2), the bottom end of the shell (1) is provided with a supporting base (3), a slurry dropping hole and a charging chute are processed at the bottom end of the shell (1), the shell (1) is hinged with a charging door (4), an installation groove is processed in the shell (1), a discharge chute is also processed on the shell (1), a transmission device (5) is arranged in the shell (1), the transmission device (5) is connected with a driving motor (6), the driving motor (6) is connected with a stirring device (7), a blanking device (8) is arranged at the corresponding position of the stirring device (7), the blanking device (8) is connected with the driving motor (6), the transmission device (5) is connected with the sieving device (9), the screening device (9) is connected with the sizing device (10), and a scraper device (11) and a shaping device (12) are further arranged in the shell (1).

2. The uniform sizing and shaping device for the textile yarns as claimed in claim 1, wherein: the transmission device (5) comprises a first transmission bevel gear (5-1), a second transmission bevel gear (5-2), a first transmission shaft (5-3), a first transmission belt wheel (5-4), a second transmission belt wheel (5-5), a first transmission connecting belt (5-6), a second transmission shaft (5-7), a third transmission belt wheel (5-8), a fourth transmission belt wheel (5-9), a second transmission connecting belt (5-10) and a third transmission shaft (5-11); the driving motor (6) is in key connection with a first transmission helical gear (5-1), the first transmission helical gear (5-1) is meshed with a second transmission helical gear (5-2), the second transmission helical gear (5-2) is in key connection with a first transmission shaft (5-3), a first transmission belt wheel (5-4) is arranged on the first transmission shaft (5-3), the first transmission belt wheel (5-4) is connected with a second transmission belt wheel (5-5) through a first transmission connecting belt (5-6), the second transmission belt wheel (5-5) is in key connection with a second transmission shaft (5-7), a third transmission belt wheel (5-8) is arranged on the second transmission shaft (5-7), and the third transmission belt wheel (5-8) is connected with a fourth transmission belt wheel (5-9) through a second transmission connecting belt (5-10), the fourth transmission belt wheel (5-9) is connected with the third transmission shaft (5-11) in a key mode.

3. The uniform sizing and shaping device for the textile yarns as claimed in claim 1, wherein: the stirring device (7) comprises a first stirring shaft (7-1), a first stirring belt wheel (7-2), a second stirring belt wheel (7-3), a first stirring connecting belt (7-4), a stirring worm (7-5), a stirring transmission handle (7-6), a stirring connecting rod (7-7), a stirring transmission slide block (7-8) and a stirring transmission groove rod (7-9), the stirring device comprises a first stirring clamping wheel (7-10), a second stirring shaft (7-11), a second stirring clamping wheel (7-12), a third stirring shaft (7-13), a third stirring belt wheel (7-14), a fourth stirring belt wheel (7-15), a second stirring connecting belt (7-16), a fourth stirring shaft (7-17), a feeding pipe (7-18) and a stirring wheel (7-19); the stirring mechanism is characterized in that the driving motor (6) is connected with the first stirring shaft (7-1) through a coupling, the first stirring shaft (7-1) is arranged in the stirring transmission shell, the first stirring shaft (7-1) is connected with the first stirring belt wheel (7-2) in a key mode, the first stirring belt wheel (7-2) is connected with the second stirring belt wheel (7-3) through a first stirring connecting belt (7-4), the second stirring belt wheel (7-3) is connected with the stirring worm (7-5) in a key mode, the stirring worm (7-5) is fixedly connected with the stirring transmission handle (7-6), the stirring transmission handle (7-6) is sleeved with the stirring connecting rod (7-7), and the stirring connecting rod (7-7) is hinged with the stirring transmission slide block (7-8), the stirring transmission slide block (7-8) is connected with a stirring transmission groove rod (7-9) in a clamping manner, the stirring transmission groove rod (7-9) is fixedly connected with a first stirring clamping wheel (7-10), the first stirring clamping wheel (7-10) is in key connection with a second stirring shaft (7-11), the first stirring clamping wheel (7-10) is connected with a second stirring clamping wheel (7-12) in a clamping manner, the second stirring clamping wheel (7-12) is in key connection with a third stirring shaft (7-13), the third stirring shaft (7-13) is in key connection with a third stirring belt wheel (7-14), the third stirring belt wheel (7-14) is connected with a fourth stirring belt wheel (7-15) through a second stirring connecting belt (7-16), and the fourth stirring belt wheel (7-15) is in key connection with a fourth stirring shaft (7-17), the fourth stirring shaft (7-17) is arranged in a stirring shell, the stirring shell is communicated with the feeding pipe (7-18), and a plurality of groups of stirring wheels (7-19) are arranged on the fourth stirring shaft (7-17).

4. The uniform sizing and shaping device for the textile yarns as claimed in claim 3, wherein: the blanking device (8) comprises a first blanking shaft (8-1), a rolling door (8-2), a second blanking shaft (8-3), a first blanking belt wheel (8-4), a second blanking belt wheel (8-5), a third blanking belt wheel (8-6), a fourth blanking belt wheel (8-7), a fifth blanking belt wheel (8-8), a first blanking connecting belt (8-9), a third blanking shaft (8-10), a fourth blanking shaft (8-11), a fifth blanking shaft (8-12), a sixth blanking shaft (8-13), a transmission screw nut (8-14), a blanking screw (8-15), a sixth blanking belt wheel (8-16), a seventh blanking belt wheel (8-17), a second blanking connecting belt (8-18), a distance transmission screw (8-19), The device comprises a first blanking gear (8-20), a first limiting rod (8-21), a distance lead screw nut (8-22), a second blanking gear (8-23), a second limiting rod (8-24), a first steering gear (8-25), a second steering gear (8-26), a third steering gear (8-27), a first steering shaft (8-28), a steering electric telescopic rod (8-29), a fourth steering gear (8-30), a fifth steering gear (8-31), a second steering shaft (8-32) and a steering turbine (8-33); the first blanking shaft (8-1) is arranged in the stirring shell, a rolling door (8-2) is arranged on the first blanking shaft (8-1), the other side of the rolling door (8-2) is fixedly connected with a second blanking shaft (8-3), the second blanking shaft (8-3) is in key connection with a first blanking belt wheel (8-4), the second blanking belt wheel (8-5), a third blanking belt wheel (8-6), a fourth blanking belt wheel (8-7) and a fifth blanking belt wheel (8-8) are connected through a first blanking connecting belt (8-9), and the second blanking belt wheel (8-5), the third blanking belt wheel (8-6), the fourth blanking belt wheel (8-7) and the fifth blanking belt wheel (8-8) are respectively connected with the third blanking shaft (8-10), A fourth blanking shaft (8-11), a fifth blanking shaft (8-12) and a sixth blanking shaft (8-13) are in key connection respectively, the second blanking shaft (8-3), the third blanking shaft (8-10) and the sixth blanking shaft (8-13) are all arranged in a blanking transmission shell, the blanking transmission shell is fixedly connected with a transmission lead screw nut (8-14), the blanking transmission lead screw nut (8-14) is in threaded connection with a blanking lead screw (8-15), the blanking lead screw (8-15) is arranged in a stirring transmission shell, a blanking worm is sleeved outside the blanking lead screw (8-15), the blanking worm is meshed with a blanking turbine, the blanking turbine is in key connection with the fourth blanking shaft (8-11), the blanking lead screw (8-15) is in key connection with a sixth blanking belt wheel (8-16), the sixth blanking belt wheel (8-16) is connected with a seventh blanking belt wheel (8-17) through a second blanking connecting belt (8-18), the seventh blanking belt wheel (8-17) is connected with a first steering connecting shaft key, the first steering connecting shaft is sleeved on a distance transmission screw rod (8-19) through a bearing, a first blanking gear (8-20) is arranged on the first steering connecting shaft, a plurality of groups of first limiting rods (8-21) are arranged on the first blanking gear (8-20), the distance transmission screw rod (8-19) is connected with a distance screw rod nut (8-22) through threads, a plurality of groups of second limiting rods (8-24) are arranged on the second blanking gear (8-23), and the first limiting rods (8-21) can be meshed with the second limiting rods (8-24), the second blanking gear (8-23) is in key connection with a second steering connecting shaft, the second steering connecting shaft is movably connected with a distance screw nut (8-22), the second steering connecting shaft is sleeved on a distance transmission screw (8-19), a first steering gear (8-25) is arranged on the distance transmission screw (8-19), the first steering gear (8-25) can be meshed with a second steering gear (8-26), the first steering gear (8-25) can also be meshed with a third steering gear (8-27), the second steering gear (8-26) and the third steering gear (8-27) are both in key connection with a first steering shaft (8-28), and the first steering shaft (8-28) is sleeved in a steering electric telescopic rod (8-29), be provided with fourth steering gear (8-30) on first steering shaft (8-28), first steering shaft (8-28) still sets up on the mounting panel, mounting panel and stirring transmission shell fixed connection, fourth steering gear (8-30) and fifth steering gear (8-31) mesh mutually, fifth steering gear (8-31) and second steering shaft (8-32) key-type connection, second steering shaft (8-32) and steering turbine (8-33) key-type connection, steering turbine (8-33) and stirring worm (7-5) mesh mutually.

5. The uniform sizing and shaping device for the textile yarns as claimed in claim 2, wherein: the screen moving device (9) comprises a screen body (9-1), a screen moving shell (9-2), a transmission rack (9-3), transmission sector teeth (9-4), transmission clamping rods (9-5), a hinge shaft (9-6), a clamping connecting block (9-7), a screen body transmission disc (9-8), a screen body transmission shaft (9-9), a first screen body transmission belt wheel (9-10), a second screen body transmission belt wheel (9-11), a first connecting belt (9-12), a screen body transmission worm (9-13), a third screen body transmission belt wheel (9-14), a fourth screen body transmission belt wheel (9-15) and a second connecting belt (9-16); the screen body (9-1) is arranged at the lower end of the blanking device (8), the screen body (9-1) is arranged in a screen shell (9-2), transmission racks (9-3) are arranged on two sides of the screen body (9-1), each transmission rack (9-3) is meshed with a transmission sector gear (9-4), the transmission sector gear (9-4) is fixedly connected with a transmission clamping rod (9-5), the transmission clamping rod (9-5) is hinged with the stirring transmission shell through a hinged shaft (9-6), a clamping groove is processed on the transmission clamping rod (9-5), a clamping connection block (9-7) is arranged in the clamping groove, the clamping connection block (9-7) is fixedly connected with a screen body transmission disc (9-8), the screen body transmission disc (9-8) is connected with a screen body transmission shaft (9-9) in a key mode, the screen transmission shaft (9-9) is connected with a first screen transmission belt wheel (9-10) in a key way, the first screen transmission belt wheel (9-10) is connected with a second screen transmission belt wheel (9-11) through a first connecting belt (9-12), the second screen body transmission belt wheel (9-11) is connected with the screen body transmission worm (9-13) in a key way, the screen body transmission worm (9-13) is movably connected with the screen movable shell (9-2) through a connecting frame, the screen body transmission worm (9-13) is connected with a third screen body transmission belt wheel (9-14) in a key way, the third screen body driving belt wheel (9-14) is connected with the fourth screen body driving belt wheel (9-15) through a second connecting belt (9-16), and the fourth screen body transmission belt wheel (9-15) is arranged on the first transmission shaft (5-3).

6. The uniform sizing and shaping device for the textile yarns as claimed in claim 1, wherein: the sizing device (10) comprises a first sizing transmission belt wheel (10-1), a second sizing transmission belt wheel (10-2), a first transmission belt (10-3), a first sizing shaft (10-4), a first sizing transmission wheel (10-5), a second sizing transmission wheel (10-6), a sizing stepped wheel (10-7), a sizing loop bar (10-8), a sizing water pipe (10-9), a sizing spray head (10-10), a second sizing shaft (10-11), a third sizing transmission belt wheel (10-12), a fourth sizing transmission belt wheel (10-13) and a second transmission belt (10-14); a first sizing transmission belt wheel (10-1) is arranged on the screen body transmission worm (9-13), the first sizing transmission belt wheel (10-1) is connected with a second sizing transmission belt wheel (10-2) through a first transmission belt (10-3), the second sizing transmission belt wheel (10-2) is in key connection with a first sizing shaft (10-4), the first sizing shaft (10-4) is provided with a first sizing transmission wheel (10-5), the first sizing transmission wheel (10-5) is meshed with a second sizing transmission wheel (10-6), the lower end of the second sizing transmission wheel (10-6) is fixedly connected with a sizing step pulley (10-7), the sizing step pulley (10-7) is clamped on a connecting frame, and the connecting frame is also arranged at the lower end of the first sizing transmission wheel (10-5), the connecting frame is fixedly connected with the shell (1), the sizing ladder wheel (10-7) is fixedly connected with the sizing loop bar (10-8), the sizing water pipe (10-9) is sleeved in the sizing loop bar (10-8), the bottom end of the sizing water pipe (10-9) is fixedly connected with the sizing spray head (10-10), the upper end of the sizing water pipe (10-9) is communicated with the stirring transmission shell, a supercharger and a switch valve are further arranged on the sizing water pipe (10-9), an included angle between the sizing loop bar (10-8) and the ground is 60 degrees, the sizing loop bar (10-8) is movably connected with the sizing connecting frame, a second sizing shaft (10-11) is connected between the sizing connecting frame and the shell (1), and a third sizing belt wheel (10-12) is arranged on the second sizing shaft (10-11), the third sizing transmission belt wheel (10-12) is connected with the fourth sizing transmission belt wheel (10-13) through a second transmission belt (10-14), and the fourth sizing transmission belt wheel (10-13) is connected with the first sizing shaft (10-4) in a key mode.

7. The uniform sizing and shaping device for the textile yarns as claimed in claim 5, wherein: the scraper device (11) comprises a scraper motor (11-1), a first scraper driving pulley (11-2), a second scraper driving pulley (11-3), a first scraper connecting belt (11-4), a first scraper driving shaft (11-5), a first driving rod (11-6), a second driving rod (11-7), a scraper shell (11-8), a third driving rod (11-9), a moving plate (11-10), a driving frame (11-11), a scraper rod (11-12), a scraper (11-13), a side plate (11-14), a scraper driving rack (11-15), a first scraper driving gear (11-16), a scraper driving shaft (11-17), a second scraper driving gear (11-18), a third scraper driving pulley (11-19), A fourth scraper driving belt wheel (11-20), a second scraper connecting belt (11-21) and a return spring (11-22); the main shaft of the scraper motor (11-1) is connected with a first scraper driving belt wheel (11-2) in a key mode, the first scraper driving belt wheel (11-2) is connected with a second scraper driving belt wheel (11-3) through a first scraper connecting belt (11-4), the second scraper driving belt wheel (11-3) is connected with a first scraper driving shaft (11-5) in a key mode, the first scraper driving shaft (11-5) is connected with a first driving rod (11-6), the first driving rod (11-6) is connected in a driving groove of a second driving rod (11-7) in a clamping mode, one side of the second driving rod (11-7) is hinged with a scraper shell (11-8), the other side of the second driving rod (11-7) is hinged with a third driving rod (11-9), and the third driving rod (11-9) is hinged with a moving plate (11-10), the scraper structure comprises a moving plate (11-10), a scraper shell (11-8), a moving plate (11-10), a transmission frame (11-11), a scraper rod (11-12), a scraper (11-13), a reset spring (11-22) and a first scraper transmission gear (11-16), wherein the moving plate (11-10) is connected with the moving frame in a sliding manner, the moving frame is fixedly connected with the scraper shell (11-8), the moving plate (11-10) is fixedly connected with the transmission frame (11-11), the lower end of the transmission frame (11-11) is fixedly connected with the scraper rod (11-12), the scraper rod (11-12) is fixedly connected with the scraper (11-13), the two sides of the scraper (11-13) are fixedly connected with side plates (11-14), the upper end of the transmission frame (11-11) of the scraper (11-13) is provided with the scraper transmission rack, every group first scraper blade drive gear (11-16) all with scraper blade transmission shaft (11-17) key-type connection, every group all be provided with second scraper blade drive gear (11-18) on scraper blade transmission shaft (11-17), two sets of scraper blade drive gear (11-16) mesh mutually, it is a set of be provided with third scraper blade driving pulley (11-19) on scraper blade transmission shaft (11-17), third scraper blade driving pulley (11-19) links to each other through second scraper blade connecting band (11-21) with fourth scraper blade driving pulley (11-20), fourth scraper blade driving pulley (11-20) and articulated shaft (9-6) key-type connection.

8. The uniform sizing and shaping device for the textile yarns as claimed in claim 1, wherein: the shaping device (12) comprises a shaping hot air blower (12-1) and a shaping pipe (12-2); the shaping air heater (12-1) is fixedly arranged in the shell (1), and an air outlet pipe of the shaping air heater (12-1) is communicated with a plurality of groups of shaping pipes (12-2).