CN119237130A - A textile dye preparation device - Google Patents

Abstract

The invention discloses a textile dye preparation device, which relates to the technical field of textile dye preparation, and comprises supporting feet, wherein the top of each supporting foot is fixedly connected with a shell, a crushing mechanism for crushing dye is arranged in the shell, the crushing mechanism comprises a shell, a fragment assembly, a crushing assembly and a crushing assembly, the shell is fixedly connected to the top of each supporting foot, the fragment assembly is positioned in the shell and is used for crushing dye, the crushing assembly is arranged below the fragment assembly, a bearing assembly is arranged below the crushing assembly, and the crushing assembly and the bearing assembly are matched to crush dye. According to the invention, the crushing mechanism is arranged, so that the cooperation of the crushing assembly and the feeding hopper is utilized conveniently, the textile dye is subjected to the crushing pretreatment firstly, then the textile dye is further crushed conveniently through the cooperation of the crushing assembly, the bearing assembly and the crushing tank, and finally the dye is subjected to the grinding processing through the cooperation of the grinding assembly and the grinding box, so that the grinding efficiency is improved.

Description

Textile dye preparation device

Technical Field

The invention relates to the technical field of textile dye preparation, in particular to a textile dye preparation device.

Background

In the textile industry, it is often necessary to dye textile dyes, which are a dye for dyeing textiles, in order to dye textile products. Most of the plant extracts include plant fruits, sap, and the like, and natural chemical extracts such as coal tar. The dyes are classified into natural dyes and synthetic dyes, and most of the dyes are synthetic dyes in the market. The textile dye has good colorability, is not easy to fade and is not easy to fade after washing. The hand feeling of the textile is not changed greatly after the textile is colored, and the situations of hardening and the like can not occur. But the color is inferior to propylene in terms of the brilliance and saturation.

At present, in the preparation process of textile dyes, the textile dyes are often required to be ground, the most common processing mode is to put the textile dyes on a grinding device, and the textile dyes are crushed through grinding on the grinding device, so that the required textile dyes are produced.

However, most of the above grinding devices have only a single grinding capability, and since some textile dyes are large-particle agglomerated dyes, the grinding device is inconvenient to grind due to the fact that the grinding device does not have a pretreatment crushing structure, and the grinding efficiency is reduced.

Disclosure of Invention

The invention aims to provide a textile dye preparation device, which is characterized in that a crushing mechanism is arranged, so that the cooperation of a fragment assembly and a feed hopper is conveniently utilized, the textile dye is subjected to fragment pretreatment, then the cooperation of the crushing assembly, a bearing assembly and a crushing tank is utilized, the textile dye is conveniently subjected to further crushing, and finally the dye is subjected to grinding processing through the cooperation of a grinding assembly and a grinding box, so that the grinding efficiency is improved.

In order to achieve the above purpose, the invention provides the technical scheme that the textile dye preparation device comprises supporting feet, wherein the top of each supporting foot is fixedly connected with a shell, a smashing mechanism for smashing dyes is arranged in the shell, and the smashing mechanism comprises:

the shell is fixedly connected to the top ends of the supporting legs;

a crumb assembly located inside the housing and for crumb the dye;

the crushing assembly is arranged below the fragment assembly, a bearing assembly is arranged below the crushing assembly, and the crushing assembly and the bearing assembly are matched to crush the dye;

The elastic component is arranged below the bearing component and is used for driving the bearing component to reset;

the picking assembly is arranged between the grinding assembly and the bearing assembly and is used for driving the bearing assembly to vibrate;

The grinding component is arranged below the bearing component and is used for grinding the dye.

Preferably, the shell comprises a feed hopper, a crushing tank fixedly connected to the bottom of the feed hopper and a grinding box fixedly connected to the bottom of the crushing tank, and the bottom end of the feed hopper extends into the top of the crushing tank.

Preferably, the bottom fixedly connected with screening casing of shell, and screening casing's bottom and supporting leg fixed connection, screening casing comprises screening case, the side discharge gate of seting up in screening case one side and seting up in screening case bottom positive discharge gate, and screening casing's inside is provided with screening subassembly.

Preferably, the screening assembly comprises a transverse plate fixedly connected to the inside of the screening box, a movable rod spliced with the middle part of the transverse plate, a movable roller fixedly connected with one end of the movable rod, a reset spring sleeved on the outer surface of the movable rod, a screening plate fixedly connected with the other end of the movable rod, two groups of auxiliary rollers fixedly mounted at the side discharge hole and an extrusion cam rotationally connected to the inside of the screening box, wherein a driving rotating shaft is fixedly connected to the middle part of the extrusion cam, and one end of the driving rotating shaft is fixedly connected with a driving motor.

Preferably, the fragment assembly comprises a plurality of cutting edge plates fixedly connected to the inside of the feeding hopper, a pressing plate positioned above the cutting edge plates and a pressing rod fixedly connected to the top of the pressing plate, wherein the plurality of cutting edge plates are distributed at equal intervals, and the top of each cutting edge plate is in a cutting edge shape.

Preferably, the grinding assembly comprises a linkage rod fixedly connected with the side edge of the pressing rod and a grinding block fixedly connected with one end of the linkage rod penetrating through the grinding tank, wherein the grinding block consists of a conical block fixedly connected with one end of the linkage rod extending to the inside of the grinding tank and a pressing block fixedly connected with the bottom of the conical block.

Preferably, the bearing assembly comprises a fixed ring and a bearing net fixedly connected with the bottom of the fixed ring, the top outline of the fixed ring is inclined, a guide hopper is arranged above the bearing assembly, and the guide hopper is fixedly connected with the inner wall surface of the crushing tank.

Preferably, the elastic component comprises a connecting ring fixedly connected to the inside of the crushing tank, a plurality of sliding rods spliced with the connecting ring, a lower top spring sleeved on the outer surface of the sliding rods and a connecting nut in threaded connection with one end of the sliding rods.

Preferably, the picking assembly comprises a triangular block fixedly connected with a connecting plate fixedly connected with the inner part of the bearing net and one end of the connecting plate, an L-shaped plate fixedly connected with one side of the crushing block, a connecting column spliced with the middle part of the L-shaped plate, a limit nut in threaded connection with one end of the connecting column, a picking spring sleeved on the outer surface of the connecting column, a side plate fixedly connected with the end face of the connecting column, an M-shaped plate fixedly connected with one side of the side plate and a limit rod fixedly connected with the outer surface of the side plate, wherein the free end of the limit rod is spliced with the outer surface of the L-shaped plate.

Preferably, the grinding assembly comprises two grinding rotating shafts which are rotatably arranged in the grinding box, a grinding roller which is fixedly connected with the outer surface of the grinding rotating shafts, grinding particles formed in the grinding rollers, a grinding motor which penetrates through one end of the outer side of the grinding box with the grinding rotating shafts and is fixedly connected with gears at the end parts of the grinding rotating shafts, and the two gears are mutually meshed and connected.

The invention has the technical effects and advantages that:

The method comprises the steps of carrying out fragment treatment on the large-particle textile dye in a lump by passing through a fragment assembly, further falling the textile dye in the lump, then further grinding the lump textile dye by utilizing the cooperation of a grinding assembly and a bearing assembly, and after the grinding assembly moves upwards and resets, utilizing a picking assembly to enable the bearing assembly to move upwards and cooperate with an elastic assembly, and then resetting the bearing assembly to generate vibration, so that the textile dye is concentrated and screened, the textile dye is convenient to fall on the grinding assembly, the textile dye is processed by the grinding assembly, and the grinding treatment on the textile dye is completed;

Through the upward movement of the M-shaped plate, the M-shaped plate is extruded and moved, the bearing assembly slightly falls, at the moment, the bearing assembly oscillates once, so that textile dye on the bearing net is concentrated towards the bottom, the oscillation can cause the crushed textile dye to fall from the inside of the bearing net, so that the falling speed is accelerated, when the triangular block thoroughly passes through the M-shaped plate, the bearing assembly is quickly reset under the action of the downward spring, so that oscillation is generated again, the textile dye is concentrated and accumulated on the bearing net again, the next crushing of the crushing assembly is facilitated, and the crushed textile dye is also convenient to fall inside the bearing net;

The driving shaft and the extrusion cam are driven to rotate through the driving motor, the extrusion cam is utilized to extrude the movable roller, the movable roller drives the movable rod to move along the transverse plate, and then the screening plate is mobilized to move, so that the auxiliary screening plate moves, the screening plate is enabled to reciprocate through the rotation of the extrusion cam in a circulating way, textile dye is screened, the textile dye is discharged from the side discharge hole along the screening plate, and the textile dye falls from the screening plate and is discharged from the front discharge hole.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is a schematic view of a partial enlarged structure at a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of a partial enlarged structure at B in fig. 2 according to the present invention.

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

FIG. 6 is a schematic view of a polishing assembly according to the present invention.

1, Supporting legs, 2, a shell, 201, a feeding hopper, 202, a crushing tank, 203, a grinding box, 3, a fragment assembly, 301, a pressing rod, 302, a pressing plate, 303, a cutting edge plate, 4, a grinding assembly, 401, a linkage rod, 402, a grinding block, 4021, a conical block, 4022, a pressing block, 5, a bearing assembly, 501, a fixed ring, 502, a bearing net, 6, an elastic assembly, 601, a connecting ring, 602, a sliding rod, 603, a lower top spring, 604, a connecting nut, 7, a picking assembly, 701, a connecting plate, 702, a triangular block, 703, a connecting column, 704, a picking spring, 705, a limit nut, 706, a side plate, 707, an M-shaped plate, 708, a limit rod, 709, an L-shaped plate, 8, a grinding assembly, 801, a grinding rotating shaft, 802, a grinding motor, 803, a gear, 804, a grinding roller, 805, abrasive particles, 9, a guide hopper, 10, a screening housing, 1001, a screening box, 1002, a positive discharge port, 1003, a side discharge port, 11, a screening assembly, a screening plate, a roller, a screen drum, a frame, a roller, a supporting roller, a drum, a roller, a 1107, a movable bar, a transverse bar, a 1107, a moving plate, a roller, a rolling drum, a 1107.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a textile dye preparation device as shown in figures 1-6, which comprises a supporting leg 1, wherein the top of the supporting leg 1 is fixedly connected with a shell 2, a crushing mechanism for crushing dye is arranged in the shell 2, and the crushing mechanism comprises a shell 2, wherein the shell 2 is fixedly connected with the top of the supporting leg 1; the fragment assembly 3 is positioned inside the shell 2, and the fragment assembly 3 is used for fragments the dye; the dye screening device comprises a crushing component 4, a picking component 7, a grinding component 8 and a screening component 8, wherein the crushing component 4 is arranged below a fragment component 3, the bearing component 5 is arranged below the crushing component 4, the crushing component 4 and the bearing component 5 are matched to crush the dye, the elastic component 6 is arranged below the bearing component 5 and is used for driving the bearing component 5 to reset, the picking component 7 is arranged between the crushing component 4 and the bearing component 5 and is used for driving the bearing component 5 to vibrate, the grinding component 8 is arranged below the bearing component 5 and is used for grinding the dye, the weaving dye in large particles is crushed by throwing the weaving dye into a shell 2, then the weaving dye in large particles is crushed by the fragment component 3, the weaving dye is crushed into a block shape to further fall, then the block-shaped weaving dye is crushed by one step by the matching of the crushing component 4 and the bearing component 5, and after the crushing component 4 is reset, the bearing component 5 is moved upwards by the moving component 7 and is matched with the elastic component 6, the bearing component 5 is reset, the weaving dye is driven to vibrate, the weaving dye is carried out by the moving component 8, and then the weaving dye is reset, so that the vibration is concentrated in the vibration is convenient, the grinding assembly 8 is used for processing, so that the grinding treatment of the textile dye is finished, and the grinding pretreatment of the grinding assembly 4 and the grinding pretreatment of the fragments assembly 3 are used for facilitating the grinding of the textile dye, so that the grinding efficiency is improved.

It should be further noted that the housing 2 includes a feeding hopper 201, a pulverizing tank 202 fixedly connected to the bottom of the feeding hopper 201, and a grinding box 203 fixedly connected to the bottom of the pulverizing tank 202, the bottom end of the feeding hopper 201 extends into the top of the pulverizing tank 202, the fragment assembly 3 is located inside the feeding hopper 201, the grinding assembly 4, the bearing assembly 5, the elastic assembly 6, and the picking assembly 7 are located inside the pulverizing tank 202, the grinding assembly 8 is located inside the grinding box 203, and the bottom end of the feeding hopper 201 extends into the top of the pulverizing tank 202, so as to facilitate accurate blanking of the dye after the fragments.

Further, the fragment assembly 3 comprises a plurality of cutting edge plates 303 fixedly connected to the inside of the feeding hopper 201, a pressing plate 302 positioned above the cutting edge plates 303 and a pressing rod 301 fixedly connected to the top of the pressing plate 302, wherein the plurality of cutting edge plates 303 are equidistantly distributed, the top of each cutting edge plate 303 is in a cutting edge shape, the pressing rod 301 drives the pressing plate 302 to move downwards, so that the pressing plate 302 presses the textile dye on the cutting edge plates 303, and the textile dye is chopped into blocks, the blocks of the textile dye can fall from gaps between the adjacent cutting edge plates 303, and the pressing rod 301 can be provided with pressing power by a driving source in the prior art, such as a cylinder or other components.

Further, the grinding component 4 comprises a linkage rod 401 fixedly connected with the side edge of the pressing rod 301 and a grinding block 402 fixedly connected with one end of the linkage rod 401 penetrating through the grinding tank 202, the grinding block 402 is composed of a conical block 4021 fixedly connected with one end of the linkage rod 401 extending to the inner part of the grinding tank 202 and a pressing block 4022 fixedly connected with the bottom of the conical block 4021, the bearing component 5 comprises a fixed ring 501 and a bearing net 502 fixedly connected with the bottom of the fixed ring 501, the top outline of the fixed ring 501 is inclined, a guide hopper 9 is arranged above the bearing component 5 and fixedly connected with the inner wall surface of the grinding tank 202, the textile dye in a block shape falls above the bearing net 502, or after the pressing plate 302 is pressed down, the textile dye is accumulated in the conical block 4021 and the bearing net 502, after the lower pressing rod 301 drives the linkage rod 401 to move down again, the conical block 4021 and the pressing block 4022 are driven to move down, and the textile dye on the bearing net 502 is ground, the textile dye is further ground, the ground textile dye falls further from the bearing net 502, the contour of the bottom of the pressing block 4022 is matched with the contour of the outer part of the bearing net 502, and the pressing block 4022 is convenient to process the pressing block 302.

Further, the elastic component 6 comprises a connecting ring 601 fixedly connected to the inside of the crushing tank 202, a plurality of sliding rods 602 spliced with the connecting ring 601, a lower top spring 603 sleeved on the outer surface of the sliding rods 602 and a connecting nut 604 in threaded connection with one end of the sliding rods 602; the picking assembly 7 comprises a triangle block 702 fixedly connected with a connecting plate 701 inside the bearing net 502 and fixedly connected with one end of the connecting plate 701, an L-shaped plate 709 fixedly connected with one side of the crushing block 402, a connecting column 703 spliced with the middle part of the L-shaped plate 709, a limit nut 705 screwed with one end of the connecting column 703, a picking spring 704 sleeved on the outer surface of the connecting column 703, a side plate 706 fixedly connected with the end surface of the connecting column 703, an M-shaped plate 707 fixedly connected with one side of the side plate 706 and a limit rod 708 fixedly connected with the outer surface of the side plate 706, wherein the free end of the limit rod 708 is spliced with the outer surface of the L-shaped plate 709; when the grinding assembly 4 grinds the textile dye on the carrier assembly 5, the pressing block 4022 is gradually approaching the carrier net 502, the M-shaped plate 707 is pressed by the triangular block 702, so as to gradually move sideways, the M-shaped plate 707 drives the side plate 706 to move, the connecting post 703 is further compressed, the pick-up spring 704 is further compressed, and the stop lever 708 moves along the L-shaped plate 709 until the triangular block 702 passes over the M-shaped plate 707, at this time, the pick-up spring 704 drives the M-shaped plate 707 to reset, when the grinding assembly 4 moves upwards, the M-shaped plate 707 abuts against the triangular block 702, so as to drive the carrier assembly 5 to move upwards, so as to drive the slide bar 602 to move upwards along the connecting ring 601, so as to compress the lower top spring 603, and when the carrier assembly 5 moves to the limit position, the M-shaped plate 707 is pressed by the triangular block 702 to move sideways, so as to compress the pick-up spring 702 passes over a convex part of the M-shaped plate 707, simultaneously, the lower top spring 603 slightly resets, thereby make triangular block 702 offset with M shaped plate 707 middle part again, the subassembly 5 takes place once to vibrate this moment, thereby make the textile dye on the carrier web 502 concentrate towards the bottom, vibrate simultaneously and can make the textile dye after grinding drop from carrier web 502 inside, thereby accelerate the speed of dropping, when triangular block 702 thoroughly passes M shaped plate 707, carrier assembly 5 resets fast under the effect of lower top spring 603, thereby produce the vibration again, thereby concentrate the textile dye and pile up on carrier web 502 again, thereby the grinding of the subassembly 4 is crushed to the next time of being convenient for, the textile dye after the grinding is accomplished thereby carrier web 502 inside drops simultaneously also being convenient for.

Further, the grinding assembly 8 comprises two grinding rotating shafts 801 which are rotatably arranged in the grinding box 203, a grinding roller 804 which is fixedly connected to the outer surface of the grinding rotating shafts 801, grinding motor 802 which is formed on grinding particles 805 and fixedly connected with one end of the grinding rotating shafts 801, which passes through the outer side of the grinding box 203, and gears 803 which are fixedly connected with the end parts of the grinding rotating shafts 801, wherein the two gears 803 are meshed with each other, the grinding rotating shafts 801 are driven to rotate by the grinding motor 802, and the two grinding rotating shafts 801 are synchronously rotated by the transmission of the gears 803, so that the grinding roller 804 is rotated, and textile dye is ground by the grinding particles 805.

It should be further noted that, the bottom of the housing 2 is fixedly connected with a screening shell 10, the bottom end of the screening shell 10 is fixedly connected with the supporting leg 1, the screening shell 10 is composed of a screening box 1001, a side discharge hole 1003 arranged at one side of the screening box 1001 and a positive discharge hole 1002 arranged at the bottom of the screening box 1001, and a screening assembly 11 is arranged in the screening shell 10; the screening assembly 11 comprises a cross plate 1107 fixedly connected to the inside of the screening box 1001, a moving rod 1104 inserted in the middle of the cross plate 1107, a moving roller 1105 fixedly connected with one end of the moving rod 1104, a reset spring 1106 sleeved on the outer surface of the moving rod 1104, a screening plate 1101 fixedly connected with the other end of the moving rod 1104, two groups of auxiliary rollers 1102 fixedly installed at a side discharging hole 1003 and a pressing cam 1103 rotatably connected to the inside of the screening box 1001, wherein a driving rotating shaft is fixedly connected to the middle of the pressing cam 1103, one end of the driving rotating shaft is fixedly connected with a driving motor, textile dye ground by the grinding assembly 8 falls into the inside of the screening box 1001, the driving rotating shaft and the pressing cam 1103 are driven to rotate by the driving motor, the moving roller 1105 is extruded by the pressing cam 1103, the moving roller 1105 drives the moving rod 1104 to move along the cross plate so as to compress the reset spring 1106, and then the moving roller 1101 is contacted with the screening plate 1101, so that the auxiliary roller 1102 moves along the screening plate 1101, after the pressing cam 1103 does not press the moving roller 1105, the moving roller 1105 is reset by the reset, and the moving roller 1105 is driven by the moving roller is driven by the pressing cam 1103, and the textile dye is driven to reciprocate by the rotating the textile screening plate 1101 through the pressing cam, and the reciprocating the moving plate 1101, then the textile dye is discharged from the side discharge port 1003, and the textile dye falls from the screening plate 1101 and is discharged from the positive discharge port 1002.

It should be noted that the foregoing description is only a preferred embodiment of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood that modifications, equivalents, improvements and modifications to the technical solution described in the foregoing embodiments may occur to those skilled in the art, and all modifications, equivalents, and improvements are intended to be included within the spirit and principle of the present invention.

Claims (10)

1. A textile dye preparation device, comprising a support foot (1), characterized in that a housing (2) is fixedly connected to the top of the support foot (1), and a crushing mechanism for crushing the dye is arranged inside the housing (2), and the crushing mechanism comprises: A shell (2), the shell (2) being fixedly connected to the top of the supporting foot (1); A fragmentation component (3), the fragmentation component (3) is located inside the housing (2), and the fragmentation component (3) is used to fragment the dye; A crushing component (4), the crushing component (4) being arranged below the fragmentation component (3), a carrying component (5) being arranged below the crushing component (4), and the crushing component (4) and the carrying component (5) cooperating to crush the dye; An elastic component (6), wherein the elastic component (6) is disposed below the bearing component (5), and the elastic component (6) is used to drive the bearing component (5) to reset; A stirring assembly (7), wherein the stirring assembly (7) is disposed between the crushing assembly (4) and the bearing assembly (5), and the stirring assembly (7) is used to drive the bearing assembly (5) to generate vibrations; A grinding component (8), wherein the grinding component (8) is arranged below the carrying component (5), and the grinding component (8) is used to grind the dye. 2. A textile dye preparation device according to claim 1, characterized in that the housing (2) comprises a feed hopper (201), a crushing tank (202) fixedly connected to the bottom of the feed hopper (201), and a grinding box (203) fixedly connected to the bottom of the crushing tank (202), and the bottom end of the feed hopper (201) extends into the top of the crushing tank (202). 3. A textile dye preparation device according to claim 1, characterized in that a screening shell (10) is fixedly connected to the bottom of the shell (2), and the bottom end of the screening shell (10) is fixedly connected to the supporting foot (1), the screening shell (10) is composed of a screening box (1001), a side discharge port (1003) opened on one side of the screening box (1001) and a front discharge port (1002) opened at the bottom of the screening box (1001), and a screening assembly (11) is arranged inside the screening shell (10). 4. A textile dye preparation device according to claim 3, characterized in that the screening assembly (11) comprises a transverse plate (1107) fixedly connected to the inside of the screening box (1001), a moving rod (1104) plugged into the middle of the transverse plate (1107), a moving roller (1105) fixedly connected to one end of the moving rod (1104), a return spring (1106) sleeved on the outer surface of the moving rod (1104), a screening plate (1101) fixedly connected to the other end of the moving rod (1104), two groups of auxiliary rollers (1102) fixedly installed at the side discharge port (1003) and an extrusion cam (1103) rotatably connected to the inside of the screening box (1001), and a driving shaft is fixedly connected to the middle of the extrusion cam (1103), and one end of the driving shaft is fixedly connected to the driving motor. 5. A textile dye preparation device according to claim 2, characterized in that the fragment assembly (3) includes a plurality of cutting edge plates (303) fixedly connected to the inside of the feed hopper (201), a pressure plate (302) located above the cutting edge plates (303) and a lower pressure rod (301) fixedly connected to the top of the pressure plate (302), and the plurality of cutting edge plates (303) are equidistantly distributed, and the top of each cutting edge plate (303) is in the shape of a cutting edge. 6. A textile dye preparation device according to claim 5, characterized in that the crushing assembly (4) includes a connecting rod (401) fixedly connected to the side of the lower pressure rod (301) and a crushing block (402) fixedly connected to one end of the connecting rod (401) passing through the crushing tank (202), and the crushing block (402) is composed of a conical block (4021) fixedly connected to one end of the connecting rod (401) extending to the inside of the crushing tank (202) and a pressing block (4022) fixedly connected to the bottom of the conical block (4021). 7. A textile dye preparation device according to claim 6, characterized in that the bearing assembly (5) comprises a fixing ring (501) and a bearing net (502) fixedly connected to the bottom of the fixing ring (501), and the top profile of the fixing ring (501) is inclined, and a guide hopper (9) is arranged above the bearing assembly (5), and the guide hopper (9) is fixedly connected to the inner wall surface of the crushing tank (202). 8. A textile dye preparation device according to claim 7, characterized in that the elastic component (6) comprises a connecting ring (601) fixedly connected to the inside of the crushing tank (202), a plurality of sliding rods (602) plugged into the connecting ring (601), a lower top spring (603) sleeved on the outer surface of the sliding rod (602) and a connecting nut (604) threadedly connected to one end of the sliding rod (602). 9. A textile dye preparation device according to claim 8, characterized in that the stirring component (7) comprises a connecting plate (701) fixedly connected to the inside of the carrying net (502), a triangular block (702) fixedly connected to one end of the connecting plate (701), an L-shaped plate (709) fixedly connected to one side of the crushing block (402), a connecting column (703) plugged into the middle of the L-shaped plate (709), a limiting nut (705) threadedly connected to one end of the connecting column (703), a stirring spring (704) sleeved on the outer surface of the connecting column (703), a side plate (706) fixedly connected to the end face of the connecting column (703), an M-shaped plate (707) fixedly connected to one side of the side plate (706) and a limiting rod (708) fixedly connected to the outer surface of the side plate (706), and the free end of the limiting rod (708) is plugged into the outer surface of the L-shaped plate (709). 10. A textile dye preparation device according to claim 9, characterized in that the grinding assembly (8) comprises two grinding shafts (801) rotatably arranged inside the grinding box (203), a grinding roller (804) fixedly connected to the outer surface of the grinding shaft (801), a grinding motor (802) formed on the grinding particles (805) and fixedly connected to one end of the grinding shaft (801) passing through the outer side of the grinding box (203), and a gear (803) fixedly connected to the end of the grinding shaft (801), and the two gears (803) are meshed and connected with each other.