CN112426922A

CN112426922A - Textile slurry stirring device

Info

Publication number: CN112426922A
Application number: CN202011218379.5A
Authority: CN
Inventors: 陈日爽
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-03-02

Abstract

The invention relates to the technical field of textiles, in particular to a textile size stirring device which comprises a base, wherein a stirring barrel is fixedly arranged on the upper surface of the base, an output cylinder is fixedly arranged at the left end of the upper surface of the base, a space is formed in the output cylinder, a first motor is fixedly arranged at the right end of the upper surface of the base, the right end of the output cylinder is fixedly connected to the lower end of the circumferential side face of the stirring barrel, a cover plate is fixedly arranged on the upper surface of the stirring barrel, the cover plate is detachably connected to the inner circumferential side wall of the stirring barrel, a fixed plate is fixedly arranged on the upper surface of the cover plate close to the center, a second motor is fixedly connected to the side face of the fixed plate close to the center of the cover plate, a feeding groove is formed in the.

Description

Textile slurry stirring device

Technical Field

The invention relates to the technical field of spinning, in particular to a spinning slurry stirring device.

Background

The weaving efficiency depends on the slashing quality to a great extent, the sizing of warp before weaving is a key process for ensuring the loom efficiency, improving the grey cloth quality and reducing the broken ends of warp, so that the weaving size plays an important role in the textile industry, the performance of the size is the basis of the slashing quality, the permeability, the serosa performance and the size adhesion of the size are important size performances, the size viscosity and the surface tension are increased after the temperature of the size is reduced, the permeability is reduced rapidly, the size permeability cannot be guaranteed, the slashing quality cannot be naturally guaranteed, the weaving efficiency can be reduced, the traditional slashing adopts high-temperature sizing, the temperature of a slashing tank is above 90 ℃, but in the high-temperature sizing process, the size is easy to generate a serious skinning phenomenon, and the effect of stirring and mixing the textile size is poor.

Disclosure of Invention

The invention aims to provide a textile size stirring device to solve the problems in the background technology.

The technical scheme of the invention is as follows: the textile slurry stirring device comprises a base, wherein a stirring barrel is fixedly arranged on the upper surface of the base, an output barrel is fixedly arranged at the left end of the upper surface of the base, a space is arranged in the output barrel, a first motor is fixedly arranged at the right end of the upper surface of the base, the right end of the output barrel is fixedly connected to the lower end of the circumferential side surface of the stirring barrel, a cover plate is fixedly arranged on the upper surface of the stirring barrel, the cover plate is detachably connected to the inner circumferential side wall of the stirring barrel, a fixed plate is fixedly arranged on the upper surface of the cover plate close to the center, a second motor is fixedly connected to the side surface of the fixed plate close to the center of the cover plate, a feeding groove is formed in the upper surface of the cover plate, a stirring cavity is formed in the stirring barrel, a stirring part is arranged in the stirring cavity, the stirring part comprises a, the stirring device is characterized in that a sieve plate is fixedly arranged at the lower end of the stirring cavity, inclined paddle components are fixedly arranged at the upper end of the stirring shaft, the inclined paddle components are uniformly arranged in a trisection manner along the circumferential surface of the stirring shaft, a flat paddle component is arranged in the middle of the stirring shaft, the flat paddle component is uniformly arranged in a trisection manner along the circumferential side wall of the stirring shaft, and an anchor paddle component is arranged at the lower end of the stirring shaft; when using, leading-in the stirring intracavity of the good weaving thick liquid of ratio from the feed chute earlier, start the second motor when weaving thick liquid viscosity is normal, make the second motor drive the (mixing) shaft and carry out clockwise rotation, then the (mixing) shaft drives the oblique oar subassembly of upper end, the flat thick liquid subassembly of middle-end, the anchor oar subassembly of lower extreme rotates to make the thick liquid of stirring intracavity portion form the different stirring state of a three-layer. The inclined paddle stirring generates axial force, so that the liquid inclined paddle stirrer with lower viscosity at the upper end in the stirring cavity generates the axial force, and the paddle stirrer is suitable for low-viscosity liquid.

According to the preferred scheme of the invention, the inclined paddle component comprises an inclined paddle fixedly connected to the upper end of the circumferential side wall of the stirring shaft, the front end of the inclined paddle is fixedly connected with a rotating block, the inclined paddle inclines by 45 ℃ with the stirring shaft as a central line, the vertical direction of the rotating block is consistent with the radial direction of the rotating sleeve, the outer side surface of the rotating block is tightly attached to the inner side surface of the upper end of the stirring cavity, and the front end of the rotating block is provided with a 30 ℃ chamfer; the in-process (mixing) shaft at clockwise stirring drives the oblique oar and is clockwise rotary motion, it scrapes along stirring chamber circumference upper end to drive the commentaries on classics piece, thereby the skinning that the chamfer department through changeing the piece will stir chamber upper end lateral wall and form is hung and is removed, thereby make the skinning drop in the thick liquid of stirring, produce the lower liquid of the lower viscosity of messenger's stirring intracavity of axial force by the oblique oar and form centripetal swirl, thereby stir the skinning to the lower part of thick liquid, accomplish a conversion through the thick liquid of the near thick liquid jade (mixing) shaft periphery annex of the liquid swirl that forms near stirring chamber lateral wall, prevent that the stirring chamber side from forming more skinning phenomenon.

According to the preferable scheme of the invention, the flat blade component comprises a rotating groove arranged in the middle of the circumferential side surface of the stirring shaft, the rotating groove is an 8-shaped fan-shaped groove, the fan-shaped edge at the upper end of the rotating groove is close to the right side of the central line of the stirring shaft, the fan-shaped edge at the lower end of the rotating groove is close to the left side of the central line of the stirring shaft, the bottom surface of the rotating groove is fixedly provided with a rotating sleeve, a rotating shaft groove is arranged in the rotating sleeve, the opening direction of the rotating shaft groove and the rotating groove is in the same radial direction, a rotating shaft is rotatably arranged in the rotating shaft groove, the rotating shaft is connected with; when the stirring shaft rotates clockwise, the lower end of the slurry is thicker than the upper end of the stirring shaft, the left side wall of the straight paddle abuts against the left side edge of the upper end of the rotating groove, the right side wall of the straight paddle abuts against the right side edge of the lower end of the rotating groove, so that the straight paddle is in a vertical state, the slurry stirred into a vortex by the inclined paddle is broken from the upper end of the straight paddle through the radial force formed by the rotation of the vertical straight paddle, and the slurry in the middle is stirred to the side wall of the stirring cavity from the upper end of the straight paddle again, so that the stirring work of the thicker slurry in the middle of; when the stirring thick liquid is more thick, but reverse rotation (mixing) shaft, thereby make the (mixing) shaft drive straight oar and be anticlockwise rotary motion, because the thick than the upper end of stirring thick liquid lower extreme, when straight oar anticlockwise rotation, straight oar rotates, straight oar left side wall lower extreme supports the left surface that rotates the groove, the right flank upper end of straight oar supports the right flank that rotates the groove, thereby make straight oar form an oblique oar state, thereby make the weaving thick liquid of stirring intracavity portion at the stirring in-process, vortex in the upper end of the lower extreme to the commentaries on classics piece of straight oar all forms, accomplish the conversion of lower extreme thick liquid lateral wall and (mixing) shaft circumference lateral wall thick liquid with this, thereby make the stirring of weaving thick liquid more even.

As a preferred scheme of the invention, the anchor paddle component comprises an anchor paddle fixedly arranged at the lower end of a re-stirring shaft, the anchor paddle is in an anchor shape, the lower end of a rotating sleeve is fixedly connected with a turnover shaft, the other end of the turnover shaft is fixedly connected with the side wall of the anchor paddle, the turnover shaft is rotatably connected with a turnover plate, the turnover plate is a triangular cylinder, a turnover cavity is arranged in the turnover plate, three side edges of the turnover plate are provided with chamfer surfaces, the surface of each chamfer surface is provided with a plurality of hammering grooves, the hammering grooves are radially and equidistantly arranged along the surface of the chamfer surface, hammering blocks are slidably arranged in the hammering grooves, the circumferential surface of the turnover shaft is spirally provided with turbine blocks, the side surfaces of the hammering grooves are fixedly provided with compression grooves, the side walls of the hammering blocks are fixedly provided with compression stop blocks, the compression stop blocks can slide in the compression grooves in a reciprocating manner, and, the bottom surface of the anchor paddle is fixedly connected with a scraper, the length of the scraper is equal to the diameter of the sieve plate, the bottom surface of the scraper is provided with a ball groove, and a rotating ball is rotatably arranged in the ball groove; when the stirring shaft rotates clockwise, the anchor paddle is driven to rotate clockwise to enable the anchor paddle to form larger shearing force, so that the sedimentation of thick textile slurry at the lower end is prevented, the textile slurry attached to the circumferential wall surface at the lower end of the stirring cavity is scraped through the side wall of the anchor paddle, the turnover plate rotates along the turnover shaft while the anchor paddle rotates, the bottom surface of the hammering groove touches the turbine block, then the hammering block is ejected out under the action of the extrusion force of the turbine block, so that the hammering block performs intermittent hammering in the textile slurry, the mixing effect of the textile slurry is better, when the hammering block is not extruded by the turbine block, the hammering block is contracted by the tensile force of the spring and is driven to reset, and the spirally arranged turbine block can enable the hammering blocks of three chamfer surfaces to form hammering effects in different rotating states, the occurrence of hammering dead angles is avoided, meanwhile, in the rotating process of the turnover plate, the textile slurry which is internally screwed on the circumferential surface of the lower end of the stirring shaft is upwards overturned, so that the relatively viscous textile slurry on the circumferential surface of the lower end of the stirring shaft is exchanged with the textile slurry near the straight paddle, the textile slurry in the stirring cavity is stirred more uniformly, and the hammering blocks which are arranged in the gaps can ensure that the overturning effect is better, so that the conversion effect is better; when the (mixing) shaft anticlockwise rotation, also form oblique oar stirring state because of straight oar to the weaving thick liquid that makes the anchor oar annex exchanges through the weaving thick liquid near straight oar and oblique oar, thereby makes the stirring of weaving thick liquid more even.

As a preferable scheme of the invention, an output groove is formed in the bottom surface of the stirring cavity, the output groove is communicated with the output cylinder, a turbine shaft is rotatably arranged in the output groove, one end of the turbine shaft is fixedly connected to the output end of the first motor, and the other end of the turbine shaft is rotatably arranged in the inner space of the output cylinder. When the anchor oar is rotatory, drive the scraper blade and be rotary motion to the weaving thick liquid that the stirring is good in the stirring chamber passes through the sieve and extrudees the output groove, starts first motor simultaneously, and first motor drives the turbine shaft and rotates, then the turbine shaft discharges the weaving thick liquid that the output inslot portion stirred from the inner space of output section of thick bamboo, and the weaving thick liquid is discharged through the turbine shaft of turbine formula, can make the weaving thick liquid also be in the stirring state when discharging, prevents to weave the thick liquid and deposit in output process.

Advantageous effects

The invention provides a textile slurry stirring device through improvement, and compared with the prior art, the textile slurry stirring device has the following improvements and advantages:

1. through setting up oblique oar 23, turning block 26, the chamfer department of having realized through turning block 26 is hung the crust that forms with stirring chamber 18 upper end lateral wall and is removed, thereby make the crust drop in the thick liquid of stirring, the liquid that produces the lower viscosity of upper end in the messenger stirring chamber 18 of axial force by oblique oar 23 forms centripetal swirl, thereby stir the lower part to the thick liquid with the crust, the thick liquid of 19 periphery annexs of thick liquid jade (mixing) shaft near stirring chamber 18 lateral wall accomplishes a conversion through the liquid swirl that forms, prevent to stir chamber 18 side and form more crust phenomenon.

2. By arranging the inclined paddle component, the flat paddle component and the anchor paddle component, the exchange between the textile slurry in the upper part and the textile slurry in the lower part in the stirring cavity 18 is realized, so that the textile slurry is stirred and mixed more uniformly in the stirring cavity 18, the better mixing effect of the stirred textile slurry is achieved,

drawings

Fig. 1 is a structural view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a cross-sectional view taken at S-S in fig. 2.

Fig. 5 is a perspective view of fig. 3 taken in section F-F.

Fig. 6 is a perspective view of fig. 2 taken in section D-D.

Fig. 7 is an enlarged view at Q in fig. 6.

Fig. 8 is a perspective view, cut away at a-a in fig. 2.

Fig. 9 is an enlarged view at W in fig. 6.

Fig. 10 is an enlarged view of fig. 9 at E.

Fig. 11 is an enlarged view of fig. 8 at R.

In the figure, a base 10, a stirring barrel 11, an output barrel 12, a first motor 13, a cover plate 14, a fixing plate 15, a second motor 16, a feeding groove 17, a stirring cavity 18, a stirring shaft 19, a sieve plate 20, an output groove 21, a turbine shaft 22, an inclined paddle 23, a straight paddle 24, an anchor paddle 25, a turning block 26, a turning groove 27, a turning shaft 28, a turning sleeve 29, a turning shaft 30, a turning plate 33, a turning cavity 34, a chamfer surface 35, a hammering groove 36, a hammering block 37, a turbine block 38, a compression groove 39, a compression stopper 40, a scraper 41, a ball groove 42, a turning ball 43, a turning shaft groove 44, a compression groove 45, a scraping plate 40, a scraper 41

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 11, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention relates to a textile size stirring device, which comprises a base 10, wherein a stirring barrel 11 is fixedly arranged on the upper surface of the base 10, an output barrel 12 is fixedly arranged at the left end of the upper surface of the base 10, a space is arranged in the output barrel 12, a first motor 13 is fixedly arranged at the right end of the upper surface of the base 10, the right end of the output barrel 12 is fixedly connected with the lower end of the circumferential side surface of the stirring barrel 11, a cover plate 14 is fixedly arranged on the upper surface of the stirring barrel 11, the cover plate 14 is detachably connected with the inner circumferential side wall of the stirring barrel 11, a fixing plate 15 is fixedly arranged on the upper surface of the cover plate 14 close to the center, a second motor 16 is fixedly connected on the side surface of the fixing plate 15 close to the center of the cover plate 14, a feeding groove 17 is arranged on the upper surface of the cover plate 14, the stirring shaft 19 penetrates through the inner part of the stirring cavity 18 from the upper surface of the cover plate 14, a sieve plate 20 is fixedly arranged at the lower end of the stirring cavity 18, an inclined paddle component is fixedly arranged at the upper end of the stirring shaft 19, the inclined paddle component is uniformly arranged along the circumference of the stirring shaft 19 in a trisection manner, a flat paddle component is arranged in the middle of the stirring shaft 19, the flat paddle component is uniformly arranged along the circumference side wall of the stirring shaft 19 in a trisection manner, and an anchor paddle component is arranged at the lower end of the; when the spinning slurry mixer is used, proportioned spinning slurry is firstly guided into the stirring cavity 18 from the feeding chute 17, the second motor 16 is started when the viscosity of the spinning slurry is normal, the second motor 16 drives the stirring shaft 19 to rotate clockwise, then the stirring shaft 19 drives the inclined paddle component at the upper end, the flat paddle component at the middle end and the anchor paddle component at the lower end to rotate, and therefore the slurry inside the stirring cavity 18 forms three different stirring states. The oblique paddle stirring generates axial force, so that the oblique paddle stirrer for liquid with lower viscosity at the upper end in the stirring cavity 18 generates axial force, and the paddle stirrer is suitable for liquid with low viscosity.

Further, the inclined paddle component comprises an inclined paddle 23 fixedly connected to the upper end of the circumferential side wall of the stirring shaft 19, the front end of the inclined paddle 23 is fixedly connected with a rotating block 26, the inclined paddle 23 inclines by 45 ℃ with the stirring shaft 19 as a central line, the vertical direction of the rotating block 26 is radially consistent with the radial direction of the rotating sleeve 29, the outer side surface of the rotating block 26 is tightly attached to the inner side surface of the upper end of the stirring cavity 18, and a 30 ℃ chamfer angle is formed at the front end of the rotating block 26; in the process of clockwise stirring, the stirring shaft 19 drives the inclined paddle 23 to rotate clockwise to drive the rotating block 26 to scrape along the upper end of the circumferential surface of the stirring cavity 18, so that a crust formed on the side wall of the upper end of the stirring cavity 18 is hung off through the chamfer of the rotating block 26, the crust falls into the stirred slurry, liquid with lower viscosity at the upper end in the stirring cavity 18 generates an axial force by the inclined paddle 23 to form a centripetal vortex, the crust is stirred to the lower part of the slurry, the slurry near the circumferential surface of the slurry jade stirring shaft 19 on the side wall of the stirring cavity 18 is converted through the formed liquid vortex, and the phenomenon of more crust formed on the side surface of the stirring cavity 18 is prevented.

Further, the flat paddle component comprises a rotating groove 27 formed in the middle of the circumferential side face of the stirring shaft 19, the rotating groove 27 is an 8-shaped sector groove, the sector edge of the upper end of the rotating groove 27 is close to the right side of the central line of the stirring shaft 19, the sector edge of the lower end of the rotating groove 27 is close to the left side of the central line of the stirring shaft 19, a rotating sleeve 29 is fixedly arranged on the bottom surface of the rotating groove 27, a rotating shaft groove 44 is formed in the rotating sleeve 29, the opening direction of the rotating shaft groove 44 and the opening direction of the rotating groove 27 are in the same radial direction, a rotating shaft 28 is rotatably arranged in the rotating shaft groove 44, the rotating shaft 28 is connected with; when the stirring shaft 19 rotates clockwise, because the lower end of the slurry is thicker than the upper end, the left side wall of the straight paddle 24 is abutted against the left side edge of the upper end of the rotating groove 27, and the right side wall of the straight paddle 24 is abutted against the right side edge of the lower end of the rotating groove 27, so that the straight paddle 24 is in a vertical state, the slurry stirred into a vortex by the inclined paddle 23 is broken from the upper end of the straight paddle 24 through the radial force formed by the rotation of the vertical straight paddle 24, and the slurry in the middle is stirred to the side wall of the stirring cavity 18 again from the upper end of the straight paddle 24, so that the stirring work of the more viscous slurry in the middle; when the stirring thick liquid is more thick, but reverse rotation (mixing) shaft 19, thereby make (mixing) shaft 19 drive straight oar 24 and do anticlockwise rotary motion, because the thick than the upper end of stirring thick liquid lower extreme, when straight oar 24 anticlockwise rotation, straight oar 24 rotates, straight oar 24 left side wall lower extreme supports the left surface that rotates groove 27, the right flank upper end of straight oar 24 supports the right flank that rotates groove 27, thereby make straight oar 24 form an oblique oar state, thereby make the inside weaving thick liquid in stirring chamber 18 at the stirring in-process, vortex in all forming to the upper end of turning block 26 from the lower extreme of straight oar 24, with the conversion of this completion lower extreme thick liquid lateral wall and 19 circumference lateral wall thick liquids of (mixing) shaft, thereby make the stirring of weaving thick liquid more even.

Further, the anchor paddle component comprises an anchor paddle 25 fixedly arranged at the lower end of the re-stirring shaft 19, the anchor paddle 25 is in an anchor shape, the lower end of the rotating sleeve 29 is fixedly connected with a turnover shaft 30, the other end of the turnover shaft 30 is fixedly connected with the side wall of the anchor paddle 25, a turnover plate 33 is rotatably connected to the turnover shaft 30, the turnover plate 33 is a triangular cylinder, a turnover cavity 34 is formed in the turnover plate 33, chamfer surfaces 35 are formed on three side edges of the turnover plate 33, a plurality of hammering grooves 36 are formed in the surface of the chamfer surface 35, the hammering grooves 36 are radially arranged at equal intervals along the surface of the chamfer surface 35, hammering blocks 37 are slidably arranged in the hammering grooves 36, turbine blocks 38 are spirally arranged on the circumferential surface of the turnover shaft 30, compression grooves 39 are fixedly arranged on the side surfaces of the hammering grooves 36, compression stop blocks 40 are fixedly arranged on the side walls of the hammering blocks 37, the compression stop 40 can slide in the, the bottom surface of the anchor paddle 25 is fixedly connected with a scraper 41, the length of the scraper 41 is equal to the diameter of the sieve plate 20, the bottom surface of the scraper 41 is provided with a ball groove 42, and a rotating ball 43 is rotatably arranged in the ball groove 42; when the stirring shaft 19 rotates clockwise, the anchor paddle 25 is driven to rotate clockwise, so that the anchor paddle 25 forms a large shearing force, the sedimentation of the textile slurry with a viscous lower end is prevented, the textile slurry attached to the circumferential wall surface at the lower end of the stirring cavity 18 is scraped through the side wall of the anchor paddle 25, the turnover plate 33 rotates along the turnover shaft 30 while the anchor paddle 25 rotates, the bottom surface of the hammering groove 36 touches the turbine block 38, then the hammering block 37 ejects the hammering block 37 under the extrusion force of the turbine block 38, so that the hammering block 37 performs intermittent hammering in the textile slurry, the mixing effect of the textile slurry is better, when the hammering block 37 is not extruded by the turbine block 38, the hammering block 37 is contracted by the tensile force of the spring, the hammering block 37 is driven to reset, and the turbine block 38 arranged spirally can enable the hammering block 37 with three chamfered surfaces 35 to form a hammering effect in different rotating states, the occurrence of hammering dead angles is avoided, meanwhile, in the rotating process of the turnover plate 33, the textile slurry which is internally screwed on the circumferential surface of the lower end of the stirring shaft 19 is upwards overturned, so that the relatively viscous textile slurry on the circumferential surface of the lower end of the stirring shaft 19 is exchanged with the textile slurry near the straight paddle 24, the textile slurry in the stirring cavity 18 is stirred more uniformly, and the hammering blocks 37 which are arranged in the gaps can ensure that the overturning effect is better, so that the conversion effect is better; when the stirring shaft 19 rotates anticlockwise, the inclined paddle stirring state is formed due to the straight paddle 24, so that the textile size near the anchor paddle 25 is exchanged with the textile size near the inclined paddle 23 through the straight paddle 24, and the textile size is stirred more uniformly.

Further, an output groove 21 is formed in the bottom surface of the stirring cavity 18, the output groove 21 is communicated with the output cylinder 12, a turbine shaft 22 is rotatably arranged inside the output groove 21, one end of the turbine shaft 22 is fixedly connected to the output end of the first motor 13, and the other end of the turbine shaft 22 is rotatably arranged in the inner space of the output cylinder 12. When the anchor paddle 25 rotates, the scraper 41 is driven to rotate, so that the well-stirred textile pulp inside the stirring cavity 18 is extruded into the output groove 21 through the sieve plate 20, the first motor 13 is started at the same time, the first motor 13 drives the turbine shaft 22 to rotate, then the turbine shaft 22 discharges the well-stirred textile pulp inside the output groove 21 from the inner space of the output barrel 12, the textile pulp is discharged through the turbine type turbine shaft 22, the textile pulp can be also in a stirring state when being discharged, and the textile pulp is prevented from being precipitated in the output process.

Claims

1. A textile slurry stirring device comprises a base (10) and is characterized in that a stirring barrel (11) is fixedly arranged on the upper surface of the base (10), an output barrel (12) is fixedly arranged at the left end of the upper surface of the base (10), a space is formed in the output barrel (12), a first motor (13) is fixedly arranged at the right end of the upper surface of the base (10), the right end of the output barrel (12) is fixedly connected to the lower end of the circumferential side face of the stirring barrel (11), a cover plate (14) is fixedly arranged on the upper surface of the stirring barrel (11), the cover plate (14) is detachably connected to the inner circumferential side wall of the stirring barrel (11), a fixing plate (15) is fixedly arranged on the upper surface of the cover plate (14) close to the center, a second motor (16) is fixedly connected to the side face of the fixing plate (15) close to the center of the cover plate (14), a feeding, a stirring cavity (18) is formed in the stirring barrel (11), and a stirring component is arranged in the stirring cavity (18).

2. A textile slurry agitation apparatus according to claim 1 wherein: stirring part includes (mixing) shaft (19) of fixed connection at second motor (16) output, (mixing) shaft (19) are run through the inside that sends stirring chamber (18) by apron (14) upper surface, the fixed sieve (20) that are provided with of lower extreme in stirring chamber (18), the fixed oblique thick liquid subassembly that is provided with in (mixing) shaft (19) upper end, the circumference trisection along (mixing) shaft (19) of oblique thick liquid subassembly evenly sets up, the middle part of (mixing) shaft (19) is provided with flat oar subassembly, the circumference lateral wall trisection along (mixing) shaft (19) of flat thick liquid subassembly evenly sets up, the lower extreme of (mixing) shaft (19) is provided with anchor oar subassembly.

3. A textile slurry agitation apparatus according to claim 2 wherein: oblique thick liquid subassembly includes oblique oar (23) of fixed connection in (mixing) shaft (19) circumference lateral wall upper end, the front end fixedly connected with of oblique oar (23) changes piece (26), oblique oar (23) use (mixing) shaft (19) to incline 45 ℃ as the central line, change the vertical direction of piece (26) and rotate cover (29) and radially unanimously, the lateral surface that changes piece (26) closely laminates with the upper end medial surface in stirring chamber (18), 30 ℃'s chamfer is seted up to the front end department of changing piece (26).

4. A textile slurry agitation apparatus according to claim 3 wherein: the flat oar subassembly is including offering at the rotation groove (27) at (mixing) shaft (19) circumference side middle part, it is located "8" font sector groove to rotate groove (27), it is close to (mixing) shaft (19) central line right side to rotate groove (27) upper end sector limit, it is close to (mixing) shaft (19) central line left side to rotate groove (27) lower extreme sector limit, it rotates cover (29) to rotate fixed being provided with in groove (27) bottom surface, it has seted up pivot groove (44) to rotate cover (29) inside, pivot groove (44) and rotation groove (27) opening direction are radial always, the inside rotation of pivot groove (44) is provided with axis of rotation (28), axis of rotation (28) and the circumference side torsional spring connection in pivot groove (44), the other end fixedly connected with straight oar (24) of axis of rotation (28).

5. A textile slurry agitation apparatus according to claim 4 wherein: the anchor paddle component comprises an anchor paddle (25) fixedly arranged at the lower end of the stirring shaft (19), the anchor paddle (25) is in an anchor shape, the lower end of a rotating sleeve (29) is fixedly connected with a turnover shaft (30), the other end of the turnover shaft (30) is fixedly connected with the side wall of the anchor paddle (25), the turnover shaft (30) is connected with a turnover plate (33) in a rotating mode, the turnover plate (33) is a triangular prism, a turnover cavity (34) is formed in the turnover plate (33), chamfer surfaces (35) are formed in three side edges of the turnover plate (33), a plurality of hammering grooves (36) are formed in the surface of each chamfer surface (35), the hammering grooves (36) are arranged in an equidistant mode along the surface of each chamfer surface (35) in a radial direction, hammering blocks (37) are arranged in the hammering grooves (36) in a sliding mode, turbine blocks (38) are spirally arranged on the circumferential surface of the turnover shaft (30), and compression grooves (39) are fixedly arranged on, the fixed compression dog (40) that is provided with of lateral wall of hammering piece (37), but compression dog (40) reciprocating slide is inside compression groove (39), compression dog (40) pass through the bottom surface of spring coupling in compression groove (39), the bottom surface fixedly connected with scraper blade (41) of anchor oar (25), the length of the scraper blade of telling (41) equals with the diameter of sieve (20), ball groove (42) have been seted up to the bottom surface of scraper blade (41), ball groove (42) inside rotation is provided with changes ball (43).

6. A textile slurry agitation apparatus according to claim 1 wherein: an output groove (21) is formed in the bottom surface of the stirring cavity (18), the output groove (21) is communicated with the output barrel (12), a turbine shaft (22) is arranged in the output groove (21) in a rotating mode, one end of the turbine shaft (22) is fixedly connected to the output end of the first motor (13), and the other end of the turbine shaft (22) is arranged in the inner space of the output barrel (12) in a rotating mode.