CN113333131A

CN113333131A - Textile dye preparation system and method

Info

Publication number: CN113333131A
Application number: CN202110622358.8A
Authority: CN
Inventors: 银河
Original assignee: Individual
Current assignee: Suqian Hongguang Chemical Industry Co ltd
Priority date: 2021-06-04
Filing date: 2021-06-04
Publication date: 2021-09-03
Anticipated expiration: 2041-06-04
Also published as: CN113333131B

Abstract

The invention relates to the technical field of kitchen dye preparation, in particular to a textile dye preparation system and a textile dye preparation method, and the textile dye preparation system dye preparation method comprises the following steps: the method comprises the following steps: pouring the raw materials into a processing box, rotating a rolling plate, and moving a plurality of cutting knives outwards to cut off the raw materials; step two: the main shaft moves downwards to drive the bearing frame and the rolling plate to move downwards to crush the raw materials, the main shaft rotates to drive the bearing frame and the rolling plate to rotate to grind the raw materials, and the rotating ring rotates to drive the rotating page to rotate while moving in the process; step three: the scraper plate rotates to drive the scraper plate to rotate, and the scraper plate rotates to push out the raw materials in the processing box; step four; in the mixing drum was flowed into to the raw materials, the puddler rotated raw materials and water stirred evenly in with the mixing drum, and this device can be stirred the raw materials that has smashed, will be rolled the adhesion and break up raw materials together, lets bury the fritter raw materials in the powder and spill and can continue to be smashed.

Description

Textile dye preparation system and method

Technical Field

The invention relates to the technical field of kitchen dye preparation, in particular to a textile dye preparation system and a textile dye preparation method.

Background

For example, the dye preparation system for spinning disclosed in publication No. 209501788U comprises a dye preparation box, a crushing device, a second filtering device and a mobile collecting device, wherein the crushing device, the second filtering device and the mobile collecting device are arranged in the dye preparation box, the crushing device comprises a first gear, a second gear and a rolling block, the first gear and the second gear are respectively and fixedly connected with the inner wall of the dye preparation box through fixing rods, a support plate is fixedly connected in the dye preparation box, the second filtering device comprises a connecting plate, a cloth bag with meshes and a moving block, two connecting rods penetrate through the connecting plate, the cloth bag with meshes is arranged under the connecting plate, the moving block is arranged under the connecting plate, and limiting blocks are arranged on two sides of the moving block; the utility model is provided with the crushing device, the first gear, the second gear and the rolling block are matched with each other, so that the material can be crushed more fully; the disadvantage of this patent is that it does not allow turning over of the incompletely comminuted material in the apparatus.

Disclosure of Invention

The invention aims to provide a system and a method for preparing textile dye, which can turn over raw materials which are not completely crushed in a device.

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

the dye preparation system for spinning comprises a processing box, rotating rings and rotating leaves, wherein a feeding port is formed in the processing box, a discharging port is formed in the processing box, the two rotating rings are connected in the processing box in a rotating mode, two tracks are arranged in the processing box, the two rotating rings are fixedly connected with toothed rings, two friction wheels are fixedly connected with the two rotating rings at the front end and the rear end of each rotating leaf, and the friction wheels are in friction transmission with the two tracks respectively.

The utility model provides a dyestuff preparation system for weaving includes supporting seat, main shaft, accepts frame and rolls the clamp plate, and the main shaft rotates to be connected on two supporting seats, and two supporting seats sliding connection are both ends around the processing case respectively, accepts frame fixed connection on the main shaft, rolls the clamp plate and rotates to be connected on accepting the frame, is equipped with a plurality of sword grooves on accepting the frame, and the equidistance between a plurality of sword grooves is equipped with a plurality of grooves on rolling the clamp plate, the equidistance between a plurality of grooves.

The utility model provides a dyestuff preparation system for weaving includes cutting frame, bull stick and cutting knife, and the lower extreme of connecting the cutting frame is all rotated to the upper end of a plurality of bull sticks, and the lower extreme of a plurality of bull sticks rotates the upper end of connecting at a plurality of cutting knives respectively, and the cutting frame rotates to be connected on the accepting frame, rolls board fixed connection on the cutting frame, is equipped with a rack on the cutting frame, and the rack on the cutting frame is the arc, and the equal sliding connection of a plurality of cutting knives is on the accepting frame.

The dye preparation system for spinning comprises a scraper and a support, wherein the scraper is connected to the support in a sliding mode, and the support is fixedly connected to the upper end of a main shaft.

A dyestuff preparation system for weaving includes blending hopper and puddler, and the puddler rotates to be connected in the blending hopper, blending hopper fixed connection on the processing case, blending hopper and the inside intercommunication of processing case.

A method of preparing a dye for a textile dye preparation system, the method comprising the steps of:

the method comprises the following steps: pouring the raw materials into a processing box, rotating a rolling plate, and moving a plurality of cutting knives outwards to cut off the raw materials;

step two: the main shaft moves downwards to drive the bearing frame and the rolling plate to move downwards to crush the raw materials, the main shaft rotates to drive the bearing frame and the rolling plate to rotate to grind the raw materials, and the rotating ring rotates to drive the rotating page to rotate while moving in the process;

step three: the scraper plate rotates to drive the scraper plate to rotate, and the scraper plate rotates to push out the raw materials in the processing box;

step four; the raw materials flow into the mixing barrel, and the stirring rod rotates to uniformly stir the raw materials and the water in the mixing barrel.

The system and the method for preparing the textile dye have the beneficial effects that:

the invention relates to a textile dye preparation system and a textile dye preparation method, wherein the textile dye preparation system can turn crushed raw materials, break up the raw materials which are rolled and adhered together, and enable small raw materials buried in powder to leak and be continuously crushed.

Drawings

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

FIG. 1 is a schematic view of a rotary ring of a dye preparation system for textile use according to the present invention;

FIG. 2 is a schematic view of a rotary page of a dye preparation system for textile use according to the present invention;

FIG. 3 is a schematic view of a processing box of a dye preparation system for textile use according to the present invention;

FIG. 4 is a schematic diagram of the principal axes of a dye preparation system for textile use in accordance with the present invention;

FIG. 5 is a schematic view of a millboard of a dye preparation system for textile use according to the present invention;

FIG. 6 is a schematic view of a cutting frame of a dye preparation system for textile use according to the present invention;

FIG. 7 is a schematic view of a cutter of a dye preparation system for textile according to the present invention;

FIG. 8 is a schematic view of a receiving frame of the dye preparing system for textile of the present invention;

FIG. 9 is a schematic view of a mixing tub of a dye preparation system for textile use according to the present invention;

FIG. 10 is a cross-sectional view of a mixing tub of a textile dye preparation system of the present invention.

In the figure:

a processing box 110; a rotating ring 120;

a rotary sheet 130; a support base 210;

a main shaft 220; a receiving frame 230;

a rolling plate 240; a cutting frame 310;

a rotary lever 320; a cutting knife 330;

a squeegee 410; a bracket 420;

a mixing tub 510; a stirring rod 520.

Detailed Description

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

As shown in figures 1, 2 and 3,

the dye preparation system for spinning comprises a processing box 110, rotating rings 120 and rotating leaves 130, wherein a feeding port is formed in the processing box 110, a discharging port is formed in the processing box 110, the two rotating rings 120 are rotatably connected in the processing box 110, two tracks 111 are formed in the processing box 110, gear rings 121 are fixedly connected to the two rotating rings 120, two friction wheels 131 are fixedly connected to the front ends and the rear ends of the two rotating leaves 130, the friction wheels 131 are in friction transmission with the two tracks 111 respectively, the rotating rings 120 are driven by external power, a speed reduction motor is selected as the external power, the speed reduction motor is fixedly connected to the processing box 110, a gear is fixedly connected to an output shaft of the speed reduction motor, and the rotating rings 120 are in gear engagement transmission with the gears on the speed reduction motor;

before the dye is prepared, the raw materials need to be crushed, the raw materials are easy to be adhered to the inner wall of the device and are not easy to be processed when being crushed, in the process of crushing and rolling the raw materials, some small raw materials are wrapped by the raw material powder and are difficult to continue to be crushed, the device can turn over the crushed raw materials, the raw materials which are rolled and adhered together are scattered, the small raw materials buried in the powder are leaked and can be continuously crushed, and the raw materials adhered to the inner wall of the device can be scraped off at the same time,

furthermore, after the raw material is crushed, the output shaft of the speed reduction motor rotates to drive the gear to rotate, the gear rotates to drive the gear ring 121 to rotate, the gear ring 121 rotates to drive the rotating ring 120 to rotate, the two rotating rings 120 rotate to drive the positions of the two rotating leaves 130 to move, after the two rotating leaves 130 move into the two tracks 111 respectively, the friction wheel 131 on the rotating leaf 130 and the two tracks 111 generate friction transmission to enable the two friction wheels 131 to rotate, the two friction wheels 131 rotate to drive the rotating leaves 130 to rotate, the rotating leaves 130 rotate to turn up the raw material which is primarily crushed, when the raw material is scattered, the small raw material which is not completely crushed can be exposed on the upper layer of the raw material, the small raw material can be more fully contacted with the device, and is completely crushed,

furthermore, the processing box 110 is separated from the track 111 through the two rotating rings 120, so that the crushed raw materials are prevented from being blocked in the track 111, and the friction wheel 131 driven by the rotating blade 130 cannot be contacted with the track 111, thereby influencing the normal use of the device.

As shown in figures 4, 5, 6, 7 and 8,

the dye preparation system for textile comprises supporting seats 210, a main shaft 220, a bearing frame 230 and a rolling plate 240, wherein the main shaft 220 is rotatably connected on the two supporting seats 210, the two supporting seats 210 are respectively and slidably connected at the front end and the rear end of a processing box 110, the bearing frame 230 is fixedly connected on the main shaft 220, the rolling plate 240 is rotatably connected on the bearing frame 230, a plurality of cutter grooves 231 are arranged on the bearing frame 230, the cutter grooves 231 are equidistant, a plurality of grooves are arranged on the rolling plate 240, the grooves are equidistant, the supporting seats 210 are driven by external power, the external power selects a hydraulic cylinder, the lower end of the hydraulic cylinder is fixedly connected to the bearing frame 230, the supporting seat 210 is fixedly connected to the upper end of the hydraulic cylinder, the main shaft 220 is driven by the external power, the external power is a speed reducing motor which is fixedly connected to the supporting seat 210, and the main shaft 220 is fixedly connected to an output shaft of the speed reducing motor;

the device can crush and grind raw materials, more fully crush the raw materials, ensure the processing quality of the raw materials, thereby improving the quality of dyes, the main shaft 220 is positioned at the upper end of the processing box 110 in a normal state, the raw materials are added through the feeding port of the processing box 110, the raw materials are positioned between the rolling plate 240 and the processing box 110, at this time, two supporting seats 210 are driven by two hydraulic cylinders to move downwards, the two supporting seats 210 move downwards to drive the main shaft 220 to move downwards, the main shaft 220 moves downwards to drive the bearing frame 230 to move downwards, the bearing frame 230 moves downwards to drive the rolling plate 240 to move downwards, the rolling plate 240 moves downwards to primarily crush the raw materials, large raw materials are crushed into small pieces, the subsequent grinding process is convenient, the grinding efficiency and quality are improved, after the grinding is completed, the main shaft 220 is driven by the speed reduction motor to rotate, the main shaft 220 rotates to drive the bearing frame 230 to rotate, the bearing frame 230 rotates to drive the rolling plate 240 to rotate, the rolling plate 240 rotates back and forth in the processing box 110 to grind the raw materials, the raw materials are fully ground into fine powder, the powder is easier to mix with water, the dye quality is better due to the fact that the powder is more fully mixed with the water,

furthermore, the lower end of the processing box 110 is provided with two telescopic rods, the processing box 110 is respectively connected with the two telescopic rods through two springs, thus when the device works, the vibration generated in the processing box 110 can compress the springs to move up and down, thereby reducing the noise generated in the process of crushing and rolling the raw materials, weakening the influence on working personnel and environment due to the noise,

further, the receiving frame 230 and the rolling plate 240 are prevented from blocking the rotation path of the rotating ring 120 and the rotating sheet 130, and the main shaft 220 rotates along with the rotating ring 120 when the rotating ring rotates, so that the rotating sheet 130 can smoothly turn over the raw material.

As shown in figures 2 and 4 of the drawings,

the dye preparation system for spinning comprises a cutting frame 310, rotating rods 320 and cutting knives 330, wherein the upper ends of the rotating rods 320 are rotatably connected with the lower end of the cutting frame 310, the lower ends of the rotating rods 320 are rotatably connected with the upper ends of the cutting knives 330 respectively, the cutting frame 310 is rotatably connected on a bearing frame 230, a rolling plate 240 is fixedly connected on the cutting frame 310, a rack 311 is arranged on the cutting frame 310, the rack 311 on the cutting frame 310 is arc-shaped, the cutting knives 330 are slidably connected on the bearing frame 230, the cutting frame 310 is driven by external power, the external power selects a speed reduction motor, the speed reduction motor is fixedly connected on the bearing frame 230, an output shaft of the speed reduction motor is fixedly connected with a gear, and the cutting frame 310 and the gear on the speed reduction motor are in meshing transmission;

the device can also cut off raw materials, when some raw materials with roots and stems are processed, the raw materials can be cut off by a plurality of cutting knives 330, the rolling plate 240 rolls the raw materials more fully, the value of the raw materials is utilized more thoroughly, unnecessary waste is avoided, the yield of dye is improved, the gear rotates through the rotation of a gear motor driving gear, the gear rotates to drive a rack 311 on a cutting frame 310 to rotate, the rack 311 rotates to drive the cutting frame 310 to rotate, the cutting frame 310 drives the rolling plate 240 to rotate, the rolling plate 240 can block a plurality of knife grooves 231 on a bearing frame 230 normally, the bearing frame 230 and the rolling plate 240 can crush and grind the raw materials after being combined, when the raw materials need to be cut, the rolling plate 240 rotates, the knife grooves on the rolling plate 240 coincide with the knife grooves 231 on the bearing frame 230, so that the plurality of cutting knives 330 can cut the raw materials through the bearing frame 230 and the rolling plate 240,

further, the cutting frame 310 rotates to drive the plurality of rotating rods 320 to rotate, the plurality of rotating rods 320 rotate to drive the plurality of cutting knives 330 to slide towards the outside, the lower end of the cutting frame 310 is arc-shaped, so that the moving distances of the plurality of cutting knives 330 are the same, the plurality of cutting knives 330 can be fully cut off the raw materials, the moving distances of the plurality of cutting knives 330 are avoided being uneven, and the cutting effect is not sufficiently influenced.

As shown in figures 6, 7, 8 and 10,

the dye preparation system for spinning comprises a scraper 410 and a support 420, wherein the scraper 410 is connected to the support 420 in a sliding manner, the support 420 is fixedly connected to the upper end of a main shaft 220, the scraper 410 is driven by external power, the external power selects a hydraulic cylinder, the lower end of the hydraulic cylinder is fixedly connected into the support 420, and the scraper 410 is fixedly connected to the upper end of the hydraulic cylinder;

the processed raw materials can be pushed out of the processing box 110 comprehensively after the raw materials are processed, so that residues in the processing box 110 are avoided, the yield of the dye can be ensured, the situation that the residual of the planted color and the current color are mixed when the dyes with different colors are processed, and unnecessary influence on the quality of the dye is avoided,

further, the main shaft 220 rotates to drive the bracket 420 to rotate, the bracket 420 rotates to drive the scraper 410 to rotate, the scraper 410 is driven to move by the hydraulic cylinder, so that the scraper 410 can be fully contacted with the inner wall of the processing box 110 after moving outwards, the raw material in the processing box 110 is fully pushed out, the scraper 410 rotates to push the raw material to move, the raw material flows out when moving to the discharge hole at the right end of the processing box 110, and the discharge of the raw material is completed,

furthermore, the scraper 410 is prevented from being influenced when the rotating ring 120 drives the rotating blade 130 to rotate and the raw materials in the processing box 110 are turned, the scraper 410 is driven to move by the hydraulic cylinder, so that the scraper 410 moves inwards and retracts into the support 420, the working process of the rotating blade 130 is not influenced, and the situation that the raw materials which are not completely processed are pushed out in advance when the main shaft 220 drives the scraper 410 to rotate is also avoided.

As shown in figures 9 and 10 of the drawings,

the dye preparation system for textile comprises a mixing barrel 510 and a stirring rod 520, wherein the stirring rod 520 is rotatably connected in the mixing barrel 510, the mixing barrel 51 is fixedly connected to a processing box 110, the mixing barrel 51 is communicated with the interior of the processing box 110, the stirring rod 520 is driven by external power, the external power is a speed reduction motor, the speed reduction motor is fixedly connected to the mixing barrel 51, and the stirring rod 520 is fixedly connected to an output shaft of the speed reduction motor;

after the raw materials processing is accomplished, the raw materials in the processing box 110 are pushed out by the scraper blade 410 and flow into the mixing barrel 510, a water pipe connector is arranged on the mixing barrel 510, water is poured into the mixing barrel 510, the stirring rod 520 can also be driven to rotate through the speed reduction motor, the stirring rod 520 rotates to fully mix the raw materials and the water, so that the quality of manufactured dyes is improved, and after the raw materials and the water are mixed, the finished dyes are discharged through a discharge port in the mixing barrel 510.

The method comprises the following steps: pouring the raw materials into the processing box 110, rotating the rolling plate 240, and moving the plurality of cutters 330 outward to cut the raw materials;

step two: the main shaft 220 moves downwards to drive the receiving frame 230 and the rolling plate 240 to move downwards to crush the raw materials, the main shaft 220 rotates to drive the receiving frame 230 and the rolling plate 240 to rotate to grind the raw materials, and in the process, the rotating ring 120 rotates to drive the rotating leaf 130 to move and rotate simultaneously;

step three: the scraper 410 rotates to drive the scraper 410 to rotate, and the scraper 410 rotates to push out the raw materials in the processing box 110;

step four; the raw materials flow into the mixing tub 510, and the stirring rod 520 rotates to uniformly stir the raw materials and water in the mixing tub 510.

Claims

1. A dye preparation system for textile use, comprising a processing box (110), a rotary ring (120) and a rotary blade (130), characterized in that: the two rotating rings (120) rotate in the processing box (110), the two rotating leaves (130) rotate on the two rotating rings (120), and the two rotating rings (120) are provided with gear rings (121).

2. A textile dye preparation system as claimed in claim 1, wherein: two tracks (111) are arranged on the processing box (110), friction wheels (131) are arranged on the two rotating leaves (130), and the friction wheels (131) are in friction transmission with the two tracks (111) respectively.

3. A textile dye preparation system as claimed in claim 2, wherein: the machining device further comprises supporting seats (210) and a main shaft (220), the two supporting seats (210) slide on the machining box (110), and the main shaft (220) rotates on the two supporting seats (210).

4. A textile dye preparation system as claimed in claim 3, wherein: the device also comprises a bearing frame (230) and a rolling plate (240), wherein the rolling plate (240) rotates on the bearing frame (230), and the bearing frame (230) is fixed on the main shaft (220).

5. A system for preparing textile dyes according to claim 4, characterized in that: the processing box (110) is also provided with two telescopic rods, and the processing box (110) is connected with the two telescopic rods through springs.

6. A system for preparing textile dyes according to claim 5, characterized in that; still include cutting frame (310) and cutting knife (330), cutting frame (310) rotates and can control a plurality of cutting knife (330) and stretch out and draw back, accepts and is equipped with a plurality of sword grooves (231) on frame (230), is equipped with a plurality of grooves on rolling board (240).

7. A textile dye preparation system as claimed in claim 6, wherein: the cutting device is characterized by further comprising rotating rods (320), wherein the rotating rods (320) are all rotated on the cutting frame (310), the rotating rods (320) are respectively rotated on the cutting knives (330), and the cutting knives (330) all slide on the bearing frame (230).

8. A textile dye preparation system as claimed in claim 7, wherein: the scraper blade (410) and the bracket (420) are further included, the scraper blade (410) slides on the bracket (420), and the bracket (420) is fixed on the main shaft (220).

9. A textile dye preparation system as claimed in claim 8, wherein: the mixing device also comprises a mixing barrel (510) and a stirring rod (520), wherein the stirring rod (520) rotates in the mixing barrel (510).

10. A dye preparation method using a dye preparation system for textile use according to claim 9, characterized in that: the method comprises the following steps:

the method comprises the following steps: pouring the raw materials into a processing box (110), rotating a rolling plate (240), and moving a plurality of cutting knives (330) outwards to cut off the raw materials;

step two: the main shaft (220) moves downwards to drive the bearing frame (230) and the rolling plate (240) to move downwards to crush the raw materials, the main shaft (220) rotates to drive the bearing frame (230) and the rolling plate (240) to rotate to grind the raw materials, and the rotating ring (120) rotates to drive the rotating blade (130) to move and simultaneously rotate in the process;

step three: the scraper (410) rotates to drive the scraper (410) to rotate, and the scraper (410) rotates to push out the raw materials in the processing box (110);

step four; the raw materials flow into the mixing barrel (510), and the stirring rod (520) rotates to uniformly stir the raw materials and the water in the mixing barrel (510).