CN112251966A - Fabric dye processing system - Google Patents

Abstract

The invention relates to the technical field of dye processing equipment, in particular to a fabric dye processing system which has the advantage of screening unqualified dye processing raw materials for secondary grinding.

Description

Fabric dye processing system

Technical Field

The invention relates to the technical field of dye processing equipment, in particular to a fabric dye processing system.

Background

The invention with the publication number of CN109078595A discloses a reactive dye processing method, which uses a reactive dye processing device, comprising a machine body fixed on a bracket, wherein a first sliding groove which extends left and right and has an upward opening is arranged in the machine body, an upward extending top seat is integrally arranged at the right side of the upper end of the machine body, a second sliding groove which has a downward opening and is communicated with the first sliding groove is arranged in the top seat, a cylinder body is fixedly arranged on the upper end surface of the top seat, a feeding groove which is communicated with the cylinder body and the first sliding groove is also arranged in the top seat, a reaction cylinder which can slide left and right is arranged in the first sliding groove, a cylinder cavity with an upward opening is arranged in the reaction cylinder, first guide grooves which extend left and right are symmetrically arranged in the end wall of the front end of the first sliding groove, and a first guide block which is fixedly connected with the reaction cylinder slides in the first guide groove, and a first threaded rod is arranged in the first guide block in a threaded fit manner. The disadvantage of this invention is that it is not possible to screen off unacceptable dye processing raw materials for secondary grinding.

Disclosure of Invention

The invention aims to provide a fabric dye processing system which has the advantage of screening out unqualified dye processing raw materials for secondary grinding.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a surface fabric dyestuff system of processing, includes frame set spare, processing bucket, bracket component, grinding assembly, circulation subassembly, direction subassembly, coating subassembly and unloading subassembly, processing bucket fixed connection is on frame set spare, and the bracket component is provided with two, and two bracket components fixed connection are respectively in the left and right sides of processing bucket, and grinding assembly rotates to be connected on two bracket components, and the circulation subassembly is connected on processing bucket, and circulation subassembly and grinding assembly mesh transmission, direction subassembly fixed connection are at the lower extreme of processing bucket, and coating subassembly connects on the direction subassembly, and unloading subassembly sliding connection is on the direction subassembly.

The frame subassembly includes the underframe, places board, ring frame, unloading frame and filling tube, places board fixed connection on the underframe, the equal fixedly connected with ring frame in the left and right sides of underframe, unloading frame fixed connection is at the middle part of underframe, filling tube fixed connection is on the unloading frame.

The processing bucket includes staving, curb plate, unloading hole and material loading hole, staving fixed connection on two ring frames, the equal fixedly connected with curb plate in both ends about the staving, the lower extreme of staving is provided with a plurality of unloading holes, and the upper end of staving is provided with the material loading hole, and material loading hole and filling tube are with the axle center.

The bracket component includes the shrouding, rotates hole, tripod and outer support, is provided with two on the shrouding and rotates the hole, and tripod fixed connection is on the shrouding, two outer supports of fixedly connected with on the tripod, two equal two outer supports of fixedly connected with on the curb plate.

The grinding assembly comprises grinding rollers, grinding shafts and grinding gears, wherein the grinding shafts are fixedly connected to the two grinding rollers, the two grinding shafts are rotatably connected into two pairs of rotating holes corresponding to the left and the right respectively, the right ends of the two grinding shafts are connected with the two grinding gears in a sliding mode, the two grinding gears are in meshing transmission, and the two grinding gears are in key transmission with the corresponding grinding shafts respectively.

The circulation subassembly includes the circulation board, the connecting axle, sieve the claw, spacing, the ring gear connecting plate, the ring gear, ring gear motor frame, ring gear motor and ring gear, two circulation boards rotate respectively and connect on two curb plates, the equipartition has a plurality of connecting axles on two circulation boards, all rotate on a plurality of connecting axles and be connected with a plurality of sieve claws, equal fixedly connected with spacing on a plurality of connecting axles, ring gear connecting plate fixed connection is on the circulation board on right side, ring gear fixed connection is on the ring gear connecting plate, ring gear motor frame fixed connection is on the curb plate on right side, ring gear motor fixed connection is on ring gear motor frame, ring gear fixed connection is on the output shaft of ring gear motor, ring gear and ring gear meshing transmission, ring gear and one of them grinding gear meshing transmission.

The direction subassembly includes the guide box, opens hole sealing, switch slot, fixed plate and mounting hole, and guide box fixed connection is provided with a plurality of hole sealing of opening at the lower extreme of staving on the guide box, a plurality of kaifeng holes respectively with a plurality of blanking hole one-to-ones, be provided with the switch slot on the guide box, the equal fixedly connected with fixed plate in the left and right sides of guide box all is provided with the mounting hole on two fixed plates.

Coating unit includes the coating wheel, the coating pivot, spacing hole, the pivot motor, pivot motor frame, the mounting panel, adjusting screw and slide bar, coating wheel fixed connection is in the coating pivot, be provided with spacing hole in the coating pivot, coating pivot fixed connection is on the output shaft of pivot motor, pivot motor fixed connection is on pivot motor frame, pivot motor frame sliding connection is on the right side of water conservancy diversion case, the coating pivot is rotated and is connected on two mounting panels, all rotate on two mounting panels and be connected with adjusting screw, two slide bar fixed connection respectively are on two mounting panels, two slide bar difference sliding connection are in two mounting holes, two adjusting screw are respectively through threaded connection on two fixed plates.

The unloading subassembly includes switch board, switch hole, gag lever post and extension spring, and switch board sliding connection is provided with a plurality of switch holes in the switch inslot on the switch board at the switch inslot, gag lever post sliding connection on the switch board, fixedly connected with extension spring between gag lever post and the gag lever post.

The fabric dye processing system has the beneficial effects that: according to the fabric dye processing system, the material can be fed into the processing barrel through the frame assembly, the fabric dye can be mixed, stirred and screened through the circulating assembly, the newly added raw material can be primarily ground through the grinding assembly, the screened raw material which cannot be fed can be transported to the grinding assembly again through the circulating assembly, the material which cannot be fed can be secondarily ground through the grinding assembly, so that the raw material meets the qualified requirement, the feeding of the processing barrel can be realized through the sliding feeding assembly, the locking of the feeding assembly on the coating assembly is unlocked, and the dyeing of the fabric by the dye is realized through the coating assembly.

Drawings

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

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall construction of a fabric dye processing system of the present invention;

FIG. 2 is a schematic structural view of the frame assembly of the present invention;

FIG. 3 is a schematic view of the construction of the processing barrel of the present invention;

FIG. 4 is a schematic structural view of a stent assembly of the present invention;

FIG. 5 is a schematic view of the abrasive assembly of the present invention;

FIG. 6 is a schematic structural view of the circulation assembly of the present invention;

FIG. 7 is a schematic structural view of a guide assembly of the present invention;

FIG. 8 is a schematic structural view of a coating assembly of the present invention;

fig. 9 is a schematic structural view of the blanking assembly of the present invention.

In the figure: a frame assembly 1; a bottom frame 101; a placement plate 102; a ring frame 103; a blanking frame 104; a feed tube 105; a processing barrel 2; a barrel body 201; a side panel 202; a blanking hole 203; a loading hole 204; a bracket assembly 3; a closing plate 301; a rotation hole 302; a tripod 303; an outer support 304; a grinding assembly 4; a grinding roller 401; a grinding shaft 402; grinding the gear 403; a circulating assembly 5; a circulation plate 501; a connecting shaft 502; a screening claw 503; a spacing bracket 504; a ring gear connecting plate 505; an annulus gear 506; a ring gear motor frame 507; a ring gear motor 508; a ring gear 509; a guide assembly 6; a diversion box 601; opening a hole 602; a switch slot 603; a fixed plate 604; mounting holes 605; a paint component 7; a paint wheel 701; a paint spindle 702; a limiting hole 703; a spindle motor 704; a shaft motor mount 705; a mounting plate 706; an adjusting screw 707; a slide bar 708; a blanking component 8; a switch plate 801; a switch hole 802; a stopper rod 803; a tension spring 804.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 9, which is a fabric dye processing system, including a frame assembly 1, a processing barrel 2, two bracket assemblies 3, a grinding assembly 4, a circulating assembly 5, a guiding assembly 6, a coating assembly 7, and a blanking assembly 8, where the processing barrel 2 is fixedly connected to the frame assembly 1, the two bracket assemblies 3 are provided, the two bracket assemblies 3 are respectively fixedly connected to the left and right sides of the processing barrel 2, the grinding assembly 4 is rotatably connected to the two bracket assemblies 3, the circulating assembly 5 is connected to the processing barrel 2, the circulating assembly 5 and the grinding assembly 4 are engaged for transmission, the guiding assembly 6 is fixedly connected to the lower end of the processing barrel 2, the coating assembly 7 is connected to the guiding assembly 6, and the blanking assembly 8 is slidably connected to the guiding assembly.

Can feed in to processing bucket 2 through frame subassembly 1, rethread circulation subassembly 5 realizes the mixture to the surface fabric dyestuff, stirring and screening, can also carry out first grinding to the raw materials of newly-added through grinding component 4, can also transport grinding component 4 again through circulation subassembly 5 with the raw materials of the unable unloading of screening, realize carrying out the secondary grinding to the material of unable unloading through grinding component 4, make the raw materials reach qualified requirement, can also be through slip unloading subassembly 8, realize processing bucket 2's unloading, through untiing the locking of unloading subassembly 8 to coating components 7, rethread coating components 7 realizes the dyeing of dyestuff to the surface fabric.

The second embodiment is as follows:

referring to fig. 1 to 9, the frame assembly 1 includes a bottom frame 101, a placing plate 102, a ring frame 103, a blanking frame 104 and a feeding pipe 105, wherein the placing plate 102 is fixedly connected to the bottom frame 101, the ring frames 103 are fixedly connected to both left and right sides of the bottom frame 101, the blanking frame 104 is fixedly connected to the middle portion of the bottom frame 101, and the feeding pipe 105 is fixedly connected to the blanking frame 104.

The third concrete implementation mode:

referring to fig. 1 to 9, the processing barrel 2 includes a barrel body 201, side plates 202, blanking holes 203 and a feeding hole 204, the barrel body 201 is fixedly connected to the two ring frames 103, the side plates 202 are fixedly connected to both left and right ends of the barrel body 201, the plurality of blanking holes 203 are disposed at the lower end of the barrel body 201, the feeding hole 204 is disposed at the upper end of the barrel body 201, and the feeding hole 204 and the feeding pipe 105 are coaxial.

The fourth concrete implementation mode:

referring to fig. 1 to 9, the support assembly 3 includes a closing plate 301, two rotating holes 302, a tripod 303 and two outer supports 304, the closing plate 301 is provided with two rotating holes 302, the tripod 303 is fixedly connected to the closing plate 301, the tripod 303 is fixedly connected to the two outer supports 304, and the two side plates 202 are both fixedly connected to the two outer supports 304.

The fifth concrete implementation mode:

referring to fig. 1 to 9, the present embodiment is described, the grinding assembly 4 includes grinding rollers 401, grinding shafts 402 and grinding gears 403, the grinding shafts 402 are fixedly connected to both the grinding rollers 401, the grinding shafts 402 are respectively rotatably connected to two pairs of rotating holes 302 corresponding to the left and right, the grinding gears 403 are slidably connected to the right ends of the grinding shafts 402, the grinding gears 403 are in meshing transmission, and the grinding gears 403 are respectively in key transmission with the corresponding grinding shafts 402.

Circulation subassembly 5 pours the unable unloading particulate matter of picking up onto two grinding rollers 401, and one of them grinding gear 403 of ring gear 509 meshing drive rotates, and two grinding gear 403 intermeshing drives, and two grinding gear 403 drive two grinding rollers 401 rotate in step, and two grinding rollers 401 roll each other and grind the raw materials, process the particulate matter once more.

The sixth specific implementation mode:

referring to fig. 1-9, the embodiment will be described, where the circulation component 5 includes a circulation plate 501, a connection shaft 502, a screening claw 503, a limiting frame 504, a gear ring connection plate 505, an inner gear ring 506, a gear ring motor frame 507, a gear ring motor 508 and a gear ring gear 509, the two circulation plates 501 are respectively rotatably connected to the two side plates 202, the two circulation plates 501 are respectively and uniformly distributed with a plurality of connection shafts 502, the plurality of connection shafts 502 are respectively and rotatably connected with a plurality of screening claws 503, the plurality of connection shafts 502 are respectively and fixedly connected with a limiting frame 504, the gear ring connection plate 505 is fixedly connected to the circulation plate 501 on the right side, the inner gear ring 506 is fixedly connected to the gear ring connection plate 505, the gear ring motor frame 507 is fixedly connected to the side plate 202 on the right side, the gear ring motor 508 is fixedly connected to the gear ring motor frame 507, the gear ring gear, the ring gear 509 is in meshing engagement with one of the grinding gears 403.

The gear ring motor 508 is started, the gear ring motor 508 drives the gear ring gear 509 to rotate, the gear ring gear 509 is meshed with and drives the inner gear ring 506 to rotate, the inner gear ring 506 drives the gear ring connecting plate 505 to rotate, the gear ring connecting plate 505 drives the circulation plate 501 on the right side to rotate, the circulation plate 501 drives the plurality of connecting shafts 502 to rotate, the plurality of connecting shafts 502 drive the plurality of screening claws 503 to rotate, the raw materials of the fabric dye are stirred by the rotation of the plurality of screening claws 503, so that the raw materials of the dye are mixed more uniformly, the raw materials of the dye are conveyed from the lower end to the upper end by the plurality of screening claws 503, so that the raw materials are mixed and stirred up and down, the upper part and the lower part of the raw materials are placed to be subjected to volume division or the compensation of the mixing and stirring up and down part, the pure color degree of the dye is influenced, the dyeing difference of the fabric is caused by, and with the particulate matter fork in the dyestuff, the bar distance of two adjacent screening claws 503 on same connecting axle 502 is less than the diameter in unloading hole 203, ensure to pick up the particulate matter of unable unloading, can not follow unloading hole 203 exhaust particulate matter and transported the upper end back by a plurality of screening claws 503, a plurality of screening claws 503 can take place to rotate, empty the particulate matter of unable unloading that will pick up on two grinding rollers 401, carry out secondary operation, make unqualified product reach qualified requirement.

The seventh embodiment:

referring to fig. 1 to 9, the guide assembly 6 includes a diversion box 601, an unsealing hole 602, an opening and closing slot 603, a fixing plate 604 and a mounting hole 605, the diversion box 601 is fixedly connected to the lower end of the barrel 201, the diversion box 601 is provided with a plurality of unsealing holes 602, the plurality of unsealing holes 602 are respectively in one-to-one correspondence with the plurality of blanking holes 203, the diversion box 601 is provided with the opening and closing slot 603, the left and right sides of the diversion box 601 are both fixedly connected with the fixing plates 604, and the two fixing plates 604 are both provided with the mounting hole 605.

The specific implementation mode is eight:

referring to fig. 1-9, the coating assembly 7 includes a coating wheel 701, a coating spindle 702, a limiting hole 703, a spindle motor 704, pivot motor frame 705, mounting panel 706, adjusting screw 707 and slide bar 708, coating wheel 701 fixed connection is on coating pivot 702, be provided with spacing hole 703 on the coating pivot 702, coating pivot 702 fixed connection is on the output shaft of pivot motor 704, pivot motor 704 fixed connection is on pivot motor frame 705, pivot motor frame 705 sliding connection is on the right side of baffle box 601, coating pivot 702 rotates to be connected on two mounting panels 706, all rotate on two mounting panels 706 and be connected with adjusting screw 707, two slide bar 708 respectively fixed connection are on two mounting panels 706, two slide bar 708 respectively sliding connection are in two mounting holes 605, two adjusting screw 707 are respectively through threaded connection on two fixed plates 604.

Start pivot motor 704, pivot motor 704 drives coating pivot 702 and rotates, coating pivot 702 drives coating wheel 701 and rotates, can place the surface fabric that needs to dye on placing board 102, the dyestuff that coating wheel 701 dip-dyes the surface fabric, can also be through rotating two adjusting screw 707, two adjusting screw 707 drive two mounting panels 706 and go up and down, two mounting panels 706 drive coating pivot 702 and go up and down, coating pivot 702 drives coating wheel 701 and goes up and down to carry out the fine setting of dyeing thickness, when coating wheel 701 loses completely sealed to baffle box 601, can carry out complete unloading, specific embodiment mode nine is collected to processing qualified surface fabric dyestuff:

the present embodiment is described below with reference to fig. 1 to 9, where the blanking assembly 8 includes a switch plate 801, switch holes 802, a limiting rod 803, and a tension spring 804, the switch plate 801 is slidably connected in the switch groove 603, the switch plate 801 is provided with a plurality of switch holes 802, the limiting rod 803 is slidably connected on the switch plate 801, and the tension spring 804 is fixedly connected between the limiting rod 803 and the limiting rod 803.

When the switch board 801 slides, when the switch holes 802 and the switch holes 602 coincide, the dye passes through the blanking holes 203, the switch holes 602 and the switch holes 802 and enters the diversion box 601 for diversion and storage, along with the sliding of the switch board 801, the limiting rod 803 leaves the limiting hole 703, the limiting rod 803 loses the limitation on the rotation of the coating rotating shaft 702, the tension spring 804 is stretched, the dye is discharged, when the switch board 801 seals the opening holes 602 again, the stretched tension spring 804 drives the limiting rod 803 to face downwards, when the limiting rod 803 aligns with the limiting hole 703 again, the limiting rod 803 slides into the limiting hole 703 again, the stop of the coating wheel 701 is realized, the coating wheel 701 is prevented from losing the sealing of the diversion box 601, and the dye is prevented from dropping, so that the environment is polluted.

The invention relates to a fabric dye processing system, which has the use principle that: raw materials required by dye processing are added into the barrel body 201 from the feeding pipe 105 and the feeding hole 204, the gear ring motor 508 is started, the gear ring motor 508 drives the gear ring gear 509 to rotate, the gear ring gear 509 is meshed with the gear ring 506 to drive the gear ring 506 to rotate, the gear ring 506 drives the gear ring connecting plate 505 to rotate, the gear ring connecting plate 505 drives the right circulating plate 501 to rotate, the circulating plate 501 drives the connecting shafts 502 to rotate, the connecting shafts 502 drive the screening claws 503 to rotate, the raw materials of the fabric dye can be stirred by the rotation of the screening claws 503, so that the raw materials of the dye are mixed more uniformly, the raw materials of the dye are conveyed to the upper end by the screening claws 503 from the lower end, so that the raw materials are mixed and stirred up and down, the upper and lower parts are placed to be subjected to volume division or the compensation of the mixing and stirring up and down, the difference of the dye is influenced, the fabric dyeing purity is caused by placing, the arc-shaped ends of the screening claws 503 can be automatically attached to the inner side of the barrel body 201 and fork particles in the dye, the bar distance between two adjacent screening claws 503 on the same connecting shaft 502 is smaller than the diameter of the blanking hole 203, so that the particles which cannot be blanked can be picked up, after the particles which cannot be discharged from the blanking hole 203 are transported to the upper end by the screening claws 503, the screening claws 503 can rotate, the picked particles which cannot be blanked are dumped on the two grinding rollers 401, the gear ring gear 509 is meshed to drive one of the grinding gears 403 to rotate, the two grinding gears 403 are meshed to drive each other, the two grinding rollers 403 drive the two grinding rollers 401 to synchronously rotate, the two grinding rollers 401 roll each other to grind the raw materials, the particles are processed again, newly added materials can be mixed by the grinding of the two grinding rollers 401, and after the dye is processed, the switch board 801 can be slid, when the switch holes 802 and the switch holes 602 are overlapped, the dye passes through the blanking holes 203, the switch holes 602 and the switch holes 802 and enters the diversion box 601 for diversion and storage, along with the sliding of the switch board 801, the limiting rod 803 leaves the limiting hole 703, the limiting rod 803 loses the limitation on the rotation of the coating rotating shaft 702, the tension spring 804 is stretched, the rotating shaft motor 704 can be started, the rotating shaft motor 704 drives the coating rotating shaft 702 to rotate, the coating rotating shaft 702 drives the coating wheel 701 to rotate, the fabric to be dyed can be placed on the placing board 102, the dye soaked by the coating wheel 701 dyes the fabric, when the switch board 801 seals the switch holes 602 again, the stretched tension spring 804 drives the limiting rod 803 to face downwards, when the limiting rod 803 is aligned with the limiting hole 703 again, the limiting rod 803 slides into the limiting hole 703 again, so as to stop the coating wheel 701, prevent that coating wheel 701 from losing sealedly to guide box 601, the condition of dyestuff drippage appears, cause the pollution of environment, can also be through rotating two adjusting screw 707, two adjusting screw 707 drive two mounting panels 706 and go up and down, two mounting panels 706 drive coating pivot 702 and go up and down, coating pivot 702 drives coating wheel 701 and goes up and down to carry out the fine setting of dyeing thickness, when coating wheel 701 loses completely sealed to guide box 601, can carry out complete unloading, collect processing qualified surface fabric dyestuff.

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 (9)

1. The utility model provides a surface fabric dyestuff processing system, includes frame subassembly (1), processing bucket (2), bracket component (3), grinding component (4), circulation subassembly (5), direction subassembly (6), coating subassembly (7) and unloading subassembly (8), its characterized in that: processing bucket (2) fixed connection is on frame subassembly (1), bracket component (3) are provided with two, two bracket component (3) fixed connection are respectively in the left and right sides of processing bucket (2), grinding component (4) rotate to be connected on two bracket component (3), circulation subassembly (5) are connected on processing bucket (2), circulation subassembly (5) and grinding component (4) meshing transmission, direction subassembly (6) fixed connection is at the lower extreme of processing bucket (2), coating subassembly (7) are connected on direction subassembly (6), unloading subassembly (8) sliding connection is on direction subassembly (6).

2. A fabric dye processing system according to claim 1, wherein: the frame component (1) comprises a bottom frame (101), a placing plate (102), a ring frame (103), a blanking frame (104) and a feeding pipe (105), wherein the placing plate (102) is fixedly connected to the bottom frame (101), the ring frame (103) is fixedly connected to the left side and the right side of the bottom frame (101), the blanking frame (104) is fixedly connected to the middle of the bottom frame (101), and the feeding pipe (105) is fixedly connected to the blanking frame (104).

3. A fabric dye processing system according to claim 2, wherein: the processing barrel (2) comprises a barrel body (201), side plates (202), blanking holes (203) and feeding holes (204), the barrel body (201) is fixedly connected to two ring frames (103), the side plates (202) are fixedly connected to the left end and the right end of the barrel body (201), the lower end of the barrel body (201) is provided with a plurality of blanking holes (203), the feeding holes (204) are formed in the upper end of the barrel body (201), and the feeding holes (204) and the feeding pipe (105) are coaxial.

4. A fabric dye processing system according to claim 3, wherein: bracket component (3) are provided with two rotation holes (302) including shrouding (301), rotation hole (302), tripod (303) and outer support (304) on shrouding (301), tripod (303) fixed connection on shrouding (301), two outer supports (304) of fixedly connected with on tripod (303), two outer supports (304) of equal fixedly connected with on two curb plates (202).

5. A fabric dye processing system according to claim 4, wherein: grinding assembly (4) is including grinding roller (401), grind axle (402) and grinding gear (403), equal fixedly connected with grinding axle (402) on two grinding rollers (401), two grind axle (402) rotate respectively to be connected in two pairs of rotation holes (302) that correspond about, the equal sliding connection of right-hand member of two grinding axles (402) has two grinding gear (403), two grind gear (403) meshing transmission, two grind gear (403) pass through key transmission rather than grinding axle (402) that correspond respectively.

6. A fabric dye processing system according to claim 5, wherein: the circulating component (5) comprises circulating plates (501), connecting shafts (502), screening claws (503), limiting frames (504), a gear ring connecting plate (505), an inner gear ring (506), a gear ring motor frame (507), a gear ring motor (508) and a gear ring gear (509), wherein the two circulating plates (501) are respectively and rotatably connected to the two side plates (202), a plurality of connecting shafts (502) are uniformly distributed on the two circulating plates (501), a plurality of screening claws (503) are respectively and rotatably connected to the connecting shafts (502), the limiting frames (504) are respectively and fixedly connected to the connecting shafts (502), the gear ring connecting plate (505) is fixedly connected to the circulating plate (501) on the right side, the inner gear ring (506) is fixedly connected to the gear ring connecting plate (505), the gear ring motor frame (507) is fixedly connected to the side plate (202) on the right side, and the gear ring motor (508) is fixedly connected to the gear ring motor frame, the gear ring gear (509) is fixedly connected to an output shaft of the gear ring motor (508), the gear ring gear (509) is in meshing transmission with the inner gear ring (506), and the gear ring gear (509) is in meshing transmission with one of the grinding gears (403).

7. A fabric dye processing system according to claim 6, wherein: the guide assembly (6) comprises a flow guide box (601), unsealing holes (602), switch slots (603), fixing plates (604) and mounting holes (605), the flow guide box (601) is fixedly connected to the lower end of the barrel body (201), a plurality of opening and sealing holes (602) are formed in the flow guide box (601), the opening and sealing holes (602) are in one-to-one correspondence with the blanking holes (203), the switch slots (603) are formed in the flow guide box (601), the fixing plates (604) are fixedly connected to the left side and the right side of the flow guide box (601), and the mounting holes (605) are formed in the two fixing plates (604).

8. A fabric dye processing system according to claim 7, wherein: the coating component (7) comprises a coating wheel (701), a coating rotating shaft (702), a limiting hole (703), a rotating shaft motor (704), a rotating shaft motor frame (705), a mounting plate (706), an adjusting screw rod (707) and a sliding rod (708), wherein the coating wheel (701) is fixedly connected to the coating rotating shaft (702), the coating rotating shaft (702) is provided with the limiting hole (703), the coating rotating shaft (702) is fixedly connected to an output shaft of the rotating shaft motor (704), the rotating shaft motor (704) is fixedly connected to the rotating shaft motor frame (705), the rotating shaft motor frame (705) is slidably connected to the right side of the flow guide box (601), the coating rotating shaft (702) is rotatably connected to the two mounting plates (706), the two mounting plates (706) are both rotatably connected with the adjusting screw rod (707), the two sliding rods (708) are respectively and fixedly connected to the two mounting plates (706), the two sliding rods (708) are respectively and slidably connected to the two mounting holes (605, the two adjusting screws (707) are respectively connected on the two fixed plates (604) through threads.

9. A fabric dye processing system according to claim 8, wherein: unloading subassembly (8) include switch board (801), switch hole (802), gag lever post (803) and extension spring (804), and switch board (801) sliding connection is provided with a plurality of switch holes (802) on switch board (801) in switch groove (603), gag lever post (803) sliding connection on switch board (801), fixedly connected with extension spring (804) between gag lever post (803) and gag lever post (803).

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