CN116926813A

CN116926813A - Fabric dyeing device for processing fly-weaving vamp

Info

Publication number: CN116926813A
Application number: CN202310819188.1A
Authority: CN
Inventors: 王经炜; 王明聪; 王妮娜
Original assignee: Shishi Yuande Shoes Co ltd
Current assignee: Shishi Yuande Shoes Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2023-10-24

Abstract

The application discloses a fabric dyeing device for processing a fly-weaving vamp, which relates to the technical field of fabric processing and comprises a dyeing box; an unreeling wheel arranged at the left side of the dyeing box; the pair of flocculation removing mechanisms are symmetrically arranged at the left side of the dyeing box, and the flocculation removing cylinder can remove the flocculation of the fabric; the tensioning mechanism is arranged at the upper end of the dyeing box and can be propped against the fabric; a plurality of guide wheels arranged in the dyeing box at intervals; the extrusion mechanism is arranged at the right end of the dyeing box, and the fabric passes through the extrusion mechanism and can be extruded so as to remove redundant dye on the fabric; a winding wheel arranged on the right side of the dyeing box; the mixing mechanism is arranged on the dyeing box and is used for mixing and stirring the dye, and the dyeing machine has the effects of uniform dyeing and convenience in operation.

Description

Fabric dyeing device for processing fly-weaving vamp

Technical Field

The application relates to the technical field of fabric processing, in particular to a fabric dyeing device for processing a fly-weaving vamp.

Background

The fly fabric is a common vamp fabric, and is made of yarns, and is formed by twisting more than two types of yarns, and the fly fabric is dyed by a dyeing device when being processed.

Accordingly, improvements in the art are needed.

Disclosure of Invention

In view of the above, the present application provides a fabric dyeing apparatus for processing a fly-knitted vamp, so as to solve the above technical problems.

In order to achieve the above purpose, the present application provides the following technical solutions:

a fabric dyeing device for processing a fly-knitting vamp, comprising:

a dyeing box;

the dyeing box comprises a dyeing box body, a pair of flocculation removing mechanisms symmetrically arranged on the left side of the dyeing box body, and fabric passing between the pair of flocculation removing mechanisms, wherein a flocculation removing cylinder of the flocculation removing mechanisms can remove the flocculation of the fabric, and the flocculation removing cylinder can be replaced conveniently;

the tensioning mechanism is arranged at the upper end of the dyeing box and can be propped against the fabric to tension the fabric;

a plurality of guide wheels arranged in the dyeing box at intervals;

the extrusion mechanism is arranged at the right end of the dyeing box, and the fabric passes through the extrusion mechanism and can be extruded so as to remove redundant dye on the fabric;

and the mixing mechanism is arranged on the dyeing box and is used for mixing and stirring the dye.

Further, the de-flocculation mechanism further comprises:

a fixed end plate mounted on the left side wall of the dyeing tank;

the movable end plate is in sliding fit with the dyeing box, and the flocculation removal cylinder is arranged between the fixed end plate and the movable end plate;

the limiting rod is connected between the movable end plate and the dyeing box, and can penetrate through the movable end plate and then be clamped in the dyeing box, so that the movable end plate is fixed.

Further, the rear side of the movable end plate is connected with a sliding block, and the left side of the dyeing box is provided with a sliding groove in sliding fit with the sliding block.

Furthermore, a plurality of jacks which are arranged at intervals are further formed in the left side of the dyeing box, a pair of fixing arms are arranged in the jacks, and the limiting rod can be clamped between the corresponding pair of fixing arms.

Further, the tensioning mechanism includes:

a first motor mounted within the dye box;

a screw connected between the first motor and the dyeing tank;

the guide block is connected with the screw rod through a nut;

the guide block is in sliding fit with the slide bar;

a moving rod slidably engaged with the guide block;

the tensioning wheel is connected to the lower end of the movable rod and used for tensioning the fabric.

Furthermore, the guide block is provided with a chute, and the moving rod is connected with a convex shaft which is in sliding fit with the chute.

Further, the pressing mechanism includes:

a carriage mounted on the dye bin;

an adjusting threaded rod in threaded connection with the carriage;

the lower end of the adjusting threaded rod is propped against the upper end of the compression spring;

the sliding plate is arranged in the sliding frame in a sliding fit manner, and the lower end of the compression spring is connected to the sliding plate;

an upper extrusion wheel connected to the lower end of the sliding plate;

install lower extrusion wheel on the dyeing case, go up extrusion wheel with lower extrusion wheel can extrude the surface fabric.

Still further, the clamp plate is installed at the top of balladeur train, the adjusting threaded rod with clamp plate threaded connection, compression spring's upper and lower both ends all are equipped with the mount pad, the lower extreme of adjusting threaded rod supports to press on the mount pad above, the mount pad below with the sliding plate is connected.

Further, the compounding mechanism includes:

a second motor installed at the left side of the dyeing tank;

the mixing shaft is connected to the output end of the second motor;

and a plurality of mixed slurries are arranged on the mixing shaft at intervals.

From the above technical solution, the advantages of the present application are:

1. the application is provided with the flocculation removing mechanism, and the flocculation removing cylinder is used for removing the flocculation of the fabric, so that the flocculation can be prevented from being immersed into the dye along with the fabric, the dye can be prevented from being polluted, and the uneven dyeing can be prevented.

2. According to the application, the flocculation removal cylinder is convenient to detach, can be replaced with different lengths, and can be used for fabrics with different widths, so that the use is more convenient.

3. The application is also provided with the tensioning mechanism which can tension the fabric and prevent the fabric from wrinkling, thereby improving the flatness of the fabric during operation and ensuring more uniform dyeing.

4. The application is also provided with the extrusion mechanism, which can extrude the fabric after the fabric is dyed, thereby removing redundant dye on the fabric, preventing the dye from polluting equipment and enabling the subsequent drying to be faster and more convenient.

5. The application is also provided with the mixing mechanism which can stir the dye, thereby preventing the dye from coagulating and further preventing the uneven dyeing.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application.

Fig. 1 is a schematic structural view of the present application.

Fig. 2 is a partial enlarged view at a of fig. 1.

Fig. 3 is a partial enlarged view at B of fig. 1.

Fig. 4 is a partial enlarged view at C of fig. 1.

Fig. 5 is a left side view of the de-flocculation mechanism of the present application.

Fig. 6 is a D-direction cross-sectional view of fig. 5.

Fig. 7 is a partial enlarged view at E of fig. 6.

Fig. 8 is a partial enlarged view at F of fig. 7.

List of reference numerals: the dyeing tank 1, the hopper 11, the discharge port 12, the insertion hole 13, the chute 14, the fixed arm 15, the flange 151, the fixed portion 152, the connecting portion 153, the extending portion 154, the engaging portion 155, the unreeling wheel 2, the decoiling mechanism 3, the decoiling cylinder 31, the fixed end plate 32, the movable end plate 33, the slider 331, the stopper rod 34, the notch 341, the straight bar 342, the accommodating portion 343, the holding portion 344, the tensioning mechanism 4, the cover plate 41, the first motor 42, the screw rod 43, the nut 44, the guide block 45, the chute 451, the slide bar 452, the moving rod 46, the cam shaft 461, the bracket 47, the tensioning wheel 48, the guide wheel 5, the pressing mechanism 6, the fixed plate 61, the carriage 62, the pressing plate 63, the adjusting threaded rod 64, the compression spring 65, the mounting seat 651, the sliding plate 66, the upper pressing wheel 67, the lower pressing wheel 68, the reeling wheel 7, the mixing mechanism 8, the second motor 81, the mixing shaft 82, and the mixing slurry 83.

Detailed Description

The present application will be described in further detail with reference to the following embodiments and the accompanying drawings, in order to make the objects, technical solutions and advantages of the present application more apparent. The exemplary embodiments of the present application and the descriptions thereof are used herein to explain the present application, but are not intended to limit the application.

It should be noted that, in the embodiments of the present application, all directional indicators (such as up, down, left, right, front, and rear … …) are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the connection in which the directional indicator is correspondingly changed may be a direct connection or an indirect connection.

Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

Referring to fig. 1 to 8, as shown in fig. 1 and 3, the present embodiment provides a fabric dyeing apparatus for processing a fly-knitted vamp, the fabric dyeing apparatus for processing a fly-knitted vamp includes a dyeing box 1 for containing dye, an unreeling wheel 2, a pair of flocculation removing mechanisms 3, a tensioning mechanism 4, a plurality of guide wheels 5, an extrusion mechanism 6, a reeling wheel 7 and a mixing mechanism 8, the unreeling wheel 2 is mounted on the left side of the dyeing box 1, and fabric is wound on the unreeling wheel 2; the pair of flocculation removing mechanisms 3 are vertically symmetrically arranged on the left side of the dyeing box 1, the pair of flocculation removing mechanisms 3 are positioned right above the unreeling wheel 2, and when fabric passes through the space between the pair of flocculation removing mechanisms 3, the pair of flocculation removing cylinders 31 of the pair of flocculation removing mechanisms 3 can remove the flocculation of the fabric. In the prior art, the surface of the fabric is commonly provided with a plurality of flocks in the production process, the flocks are easy to fall into the dye in the dyeing process of the fabric, the flocks are mixed in the dye, the dyeing effect of the fabric is poor for a long time, the dye is required to be replaced frequently, the waste of the dye is caused, the flocks on the fabric can cause the insufficient dyeing of the fabric, and therefore, the pair of flock removing mechanisms 3 provided by the application can remove the flocks of the fabric, prevent the flocks from being polluted by the flocks along with the immersion of the fabric into the dye, and also prevent the insufficient dyeing; the flocculation removal cylinder 31 in the flocculation removal mechanism 3 can be replaced conveniently; the tensioning mechanism 4 is arranged at the upper end of the dyeing box 1, and the tensioning mechanism 4 can be propped against the fabric to tension the fabric so as to improve the fabric dyeing effect and the fabric dyeing uniformity; the guide wheels 5 are arranged in the dyeing box 1 at intervals, the guide wheels 5 play a role in conveying and guiding the fabric so that the fabric can advance according to a set route, and the guide wheels 5 are arranged at different positions in the dyeing box 1, so that the path of the fabric in the dyeing box 1 can be prolonged, and the dyeing effect of the fabric is improved; the extrusion mechanism 6 is arranged at the right end of the dyeing box 1, when the fabric passes through the inside of the extrusion mechanism 6, the extrusion mechanism 6 can extrude the fabric so as to remove redundant dye on the fabric, the redundant dye on the fabric is extruded by the extrusion mechanism 6 to flow back into the dyeing box 1, dye resources can be saved, the redundant dye is prevented from being carried out of the dyeing box 1, and further, the redundant dye is prevented from polluting equipment outside the dyeing box 1; the winding wheel 7 is arranged on the right side of the dyeing box 1, and the winding wheel 7 is used for winding the fabric so as to facilitate subsequent processing; the mixing mechanism 8 is arranged on the dyeing box 1, and the mixing mechanism 8 is used for mixing and stirring dyes so as to prevent the dyes from coagulating down and improve the dyeing effect of the fabric.

In one embodiment, as shown in fig. 5, the de-flocculation mechanism 3 further comprises: a fixed end plate 32, a movable end plate 33 and a limit rod 34, wherein the fixed end plate 32 is arranged on the left side wall of the dyeing tank 1; the movable end plate 33 is in sliding fit with the dyeing box 1, and the flocculation removal cylinder 31 is arranged between the fixed end plate 32 and the movable end plate 33; the limiting rod 34 is connected between the movable end plate 33 and the dyeing tank 1, and the limiting rod 34 can pass through the movable end plate 33 and then be clamped in the dyeing tank 1, so that the movable end plate 33 is fixed on the dyeing tank 1.

Preferably, in the embodiment of the present application, the rear side of the movable end plate 33 is connected with a slide block 331, the left side of the dyeing tank 1 is provided with a slide groove 14, the slide groove 14 is in sliding fit with the slide block 331, and the movable end plate 33 can be moved more stably by limiting the slide block 331 with the slide groove 14, so that the relative position of the movable end plate 33 and the fixed end plate 32 is ensured, and the installation of the flocculation removal cylinder 31 is more stable and accurate.

In an embodiment, as shown in fig. 6, the left side of the dyeing tank 1 is further provided with a plurality of jacks 13, the plurality of jacks 13 are arranged in a front-back interval manner, a pair of fixing arms 15 are arranged in the jacks 13, the limiting rods 34 can be clamped between the corresponding pair of fixing arms 15, and the limiting rods 34 can be inserted in different positions due to the arrangement of the plurality of jacks 13, so that the movable end plate 33 is positioned in different positions of the dyeing tank 1, and the flocculation removing cylinders 31 with different lengths can be installed between the movable end plate 33 and the fixing end plate 32.

As shown in fig. 7, the fixing arm 15 is provided with a protruding flange 151, the outer wall of the limit rod 34 is provided with a pair of notches 341, the flange 151 can be clamped in the corresponding notch 341, and the limit rod 34 can be firmly fixed in the dyeing tank 1 through the cooperation of the flange 151 and the notch 341, so that the firm installation of the flocculation removal cylinder 31 is realized.

As shown in fig. 8, the fixing arm 15 includes a fixing portion 152, a connecting portion 153, an extending portion 154, and an engaging portion 155, which are sequentially connected, and the flange 151 is integrally connected to the inner side of the engaging portion 155.

As shown in fig. 6 and 8, the limiting rod 34 includes a holding portion 344, a straight rod portion 342, and a receiving portion 343 integrally connected, the notch 341 is formed on the inner side of the receiving portion 343, and the holding portion 344 is perpendicular to the straight rod portion 342.

Preferably, in the embodiment of the present application, the straight rod portion 342 is slidably engaged with the inner wall of the connecting portion 153.

In the embodiment of the application, the flocculation removal cylinders 31 with different lengths are replaced, so that the dyeing device is applicable to fabrics with different widths, and the application range of the dyeing device is wider.

Preferably, in the embodiment of the present application, the upper end of the dyeing tank 1 is provided with a hopper 11 to facilitate the addition of dye into the dyeing tank 1.

Preferably, in the embodiment of the application, the right side of the lower end of the dyeing box 1 is provided with a discharge port 12, the discharge port 12 is provided with a valve, and the dye can be discharged by controlling the valve to be opened so as to be convenient for replacing new dye.

As shown in fig. 2, the tensioning mechanism 4 includes: the dyeing machine comprises a first motor 42, a screw rod 43, a guide block 45, a sliding rod 452, a moving rod 46 and a tensioning wheel 48, wherein the first motor 42 is arranged in the dyeing box 1; the screw 43 is connected between the first motor 42 and the dyeing tank 1; the guide block 45 is connected with the screw 43 through a nut 44; the sliding rod 452 is arranged in the dyeing box 1, and the guide block 45 is in sliding fit with the sliding rod 452; the moving rod 46 is in sliding fit with the guide block 45; the tensioning wheel 48 is connected to the lower end of the moving rod 46, and the tensioning wheel 48 is used for tensioning the fabric.

In the embodiment of the present application, the guide block 45 is provided with a chute 451, the moving rod 46 is connected with a protruding shaft 461, and the protruding shaft 461 is slidably engaged with the chute 451.

Preferably, in the embodiment of the present application, the cover plate 41 is installed at the inner top of the dyeing box 1, the first motor 42 and the sliding rod 452 are both installed in the cover plate 41, and the right end of the screw 43 is rotatably connected to the right wall of the cover plate 41 through a bearing.

Preferably, in some embodiments, the tensioning wheel 48 is connected to the support 47 by the support 47.

In the embodiment of the application, the first motor 42 is started to enable the screw rod 43 to rotate positively, so that the nut 44 drives the guide block 45 to move rightwards, the convex shaft 461 is pushed by the chute 451 to move downwards under the limit of the chute 451, the movable rod 46 drives the tensioning wheel 48 to move downwards, the tensioning force of the fabric can be increased, and similarly, when the first motor 42 drives the screw rod 43 to rotate reversely, the movable rod 46 drives the tensioning wheel 48 to move upwards, and the tensioning force of the fabric can be reduced.

As shown in fig. 4, the pressing mechanism 6 includes: a carriage 62, an adjusting threaded rod 64, a compression spring 65, a sliding plate 66, an upper pressing wheel 67 and a lower pressing wheel 68, the carriage 62 being mounted on the dyeing tank 1; the adjusting threaded rod 64 is in threaded connection with the carriage 62; the compression spring 65 is arranged in the carriage 62, and the lower end of the adjusting threaded rod 64 is pressed against the upper end of the compression spring 65; the sliding plate 66 is arranged in the sliding frame 62 in a sliding fit manner, and the lower end of the compression spring 65 is connected to the sliding plate 66; the upper pressing wheel 67 is connected to the lower end of the sliding plate 66; the lower extrusion wheel 68 is installed on the dyeing box 1, the upper extrusion wheel 67 is located above the lower extrusion wheel 68, and the upper extrusion wheel 67 and the lower extrusion wheel 68 can extrude the fabric so as to extrude redundant dye on the fabric.

Preferably, in the embodiment of the present application, the carriage 62 is mounted on the left side of the dyeing tank 1 by a fixing plate 61.

In the embodiment of the present application, the top of the carriage 62 is provided with the pressing plate 63, the adjusting threaded rod 64 is in threaded connection with the pressing plate 63, the upper and lower ends of the compression spring 65 are respectively provided with the mounting seat 651, the lower end of the adjusting threaded rod 64 is pressed against the upper mounting seat 651, and the lower mounting seat 651 is connected with the sliding plate 66.

In the embodiment of the application, the adjusting threaded rod 64 is rotated positively, the adjusting threaded rod 64 moves downwards and can squeeze the compression spring 65, so that the sliding plate 66 drives the upper squeezing wheel 67 to move downwards, the distance between the upper squeezing wheel 67 and the lower squeezing wheel 68 can be reduced, the upper squeezing wheel 67 and the lower squeezing wheel 68 are matched with each other, the fabric can be squeezed, redundant dye on the fabric can be removed, and similarly, the adjusting threaded rod 64 is rotated reversely, so that the distance between the upper squeezing wheel 67 and the lower squeezing wheel 68 can be increased, and fabrics with different thicknesses can be adjusted through adjusting the distance, so that the situation that the fabric cannot be moved or the fabric is worn due to excessive squeezing is prevented.

As shown in fig. 1, the mixing mechanism 8 includes: a second motor 81, a mixing shaft 82 and a plurality of mixed slurries 83, the second motor 81 being installed at the left side of the dyeing tank 1; the mixing shaft 82 is connected to the output end of the second motor 81; a plurality of mixing slurries 83 are mounted on the mixing shaft 82 at intervals.

In the embodiment of the application, the second motor 81 is started, the mixing shaft 82 drives the mixed slurry 83 to rotate, and the dye can be stirred to prevent the dye from sinking, so that the dye is more uniform, and the dyeing effect of the fabric is improved.

Working principle: the fabric is unreeled through the unreeling wheel 2, then under the effect of a pair of flocculation removal cylinders 31, superfluous flocks on the fabric are removed, then the fabric is immersed in dye after penetrating into the left wall of the dyeing box 1, the fabric is tensioned by the tensioning wheel 48 in the dyeing process, uneven dyeing caused by wrinkling of the fabric is prevented, the fabric is guided and conveyed by the guide wheel 5 and then upwards moved between the upper extrusion wheel 67 and the lower extrusion wheel 68, the distance between the upper extrusion wheel 67 and the lower extrusion wheel 68 is adjusted in advance, and when the fabric passes through, the upper extrusion wheel 67 and the lower extrusion wheel 68 relatively rotate to extrude the fabric, so that superfluous dye on the fabric is removed, and then the fabric is wound on the winding wheel 7 after penetrating through the right wall of the dyeing box 1.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, and various modifications and variations can be made to the embodiments of the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. The utility model provides a fly-to-weave vamp processing is with surface fabric dyeing apparatus which characterized in that includes:

a dyeing tank (1);

the dyeing box is characterized by comprising a pair of flocculation removing mechanisms (3) symmetrically arranged on the left side of the dyeing box (1), wherein fabric passes through between the pair of flocculation removing mechanisms (3), a flocculation removing cylinder (31) of the flocculation removing mechanisms (3) can remove the flocculation of the fabric, and the flocculation removing cylinder (31) can be replaced conveniently;

the tensioning mechanism (4) is arranged at the upper end of the dyeing box (1), and the tensioning mechanism (4) can be abutted against the fabric to tension the fabric;

a plurality of guide wheels (5) which are arranged in the dyeing box (1) at intervals;

the extrusion mechanism (6) is arranged at the right end of the dyeing box (1), and the fabric passes through the extrusion mechanism (6) and can be extruded so as to remove redundant dye on the fabric;

and the mixing mechanism (8) is arranged on the dyeing box (1), and the mixing mechanism (8) is used for mixing and stirring the dye.

2. The fabric dyeing apparatus for flying weaving vamp processing according to claim 1, wherein said de-flocculation mechanism (3) further comprises:

a fixed end plate (32) mounted on the left side wall of the dyeing tank (1);

a mobile end plate (33) in sliding fit with the dyeing tank (1), the deflocculating cylinder (31) being mounted between the fixed end plate (32) and the mobile end plate (33);

and the limiting rod (34) is connected between the movable end plate (33) and the dyeing box (1), and the limiting rod (34) can penetrate through the movable end plate (33) and then is clamped in the dyeing box (1), so that the movable end plate (33) is fixed.

3. The fabric dyeing device for processing a fly-weaving vamp according to claim 2, wherein a sliding block (331) is connected to the rear side of the movable end plate (33), and a sliding groove (14) in sliding fit with the sliding block (331) is formed in the left side of the dyeing box (1).

4. The fabric dyeing device for processing the fly-weaving vamp according to claim 2, wherein a plurality of jacks (13) which are arranged at intervals are further arranged on the left side of the dyeing box (1), a pair of fixing arms (15) are arranged in the jacks (13), and the limiting rod (34) can be clamped between the corresponding pair of fixing arms (15).

5. The fabric dyeing device for the processing of fly-knitted uppers according to claim 1, characterized in that said tensioning means (4) comprise:

a first motor (42) mounted in the dyeing tank (1);

a screw (43) connected between the first motor (42) and the dyeing tank (1);

a guide block (45) connected to the screw (43) by a nut (44);

a slide bar (452) mounted in the dyeing box (1), the guide block (45) being in sliding fit with the slide bar (452);

a moving rod (46) slidably engaged with the guide block (45);

and the tensioning wheel (48) is connected to the lower end of the movable rod (46), and the tensioning wheel (48) is used for tensioning the fabric.

6. The fabric dyeing apparatus for flying weaving vamp processing according to claim 5, wherein a chute (451) is provided on the guide block (45), and a protruding shaft (461) in sliding fit with the chute (451) is connected to the moving rod (46).

7. The fabric dyeing apparatus for the processing of fly-knitted uppers according to claim 1, characterized in that said pressing means (6) comprise:

a carriage (62) mounted on the dyeing tank (1);

an adjusting threaded rod (64) in threaded connection with the carriage (62);

a compression spring (65) arranged in the carriage (62), wherein the lower end of the adjusting threaded rod (64) is propped against the upper end of the compression spring (65);

a sliding plate (66) arranged in the sliding frame (62) in a sliding fit manner, wherein the lower end of the compression spring (65) is connected to the sliding plate (66);

an upper pressing wheel (67) connected to the lower end of the sliding plate (66);

and a lower extrusion wheel (68) arranged on the dyeing box (1), wherein the upper extrusion wheel (67) and the lower extrusion wheel (68) can extrude the fabric.

8. The fabric dyeing device for processing a fly-knitted vamp according to claim 7, wherein a pressing plate (63) is mounted at the top of the carriage (62), the adjusting threaded rod (64) is in threaded connection with the pressing plate (63), mounting seats (651) are respectively arranged at the upper end and the lower end of the compression spring (65), the lower end of the adjusting threaded rod (64) is abutted against the upper mounting seat (651), and the lower mounting seat (651) is connected with the sliding plate (66).

9. The fabric dyeing device for the processing of fly-knitted uppers according to claim 1, characterized in that said mixing mechanism (8) comprises:

a second motor (81) mounted on the left side of the dyeing tank (1);

a mixing shaft (82) connected to the output end of the second motor (81);

a plurality of mixing slurries (83) mounted at intervals on the mixing shaft (82).