CN110369101B - Textile dye treatment equipment - Google Patents

Abstract

In order to solve the technical problem, the invention relates to a crushing, screening and grinding device, in particular to a textile dye treatment device, which comprises a crushing device, a screening and filtering device, a coarse material circulating device and a grinding device, wherein the crushing device repeatedly crushes the dye blocks, the screening and filtering device screens the crushed dye, the coarse material circulating device conveys the crushed dye with overlarge size back to the crushing device for continuous crushing, and the grinding device grinds and discharges the dye with small size, and the textile dye treatment device is characterized in that: the crushing device is fixedly installed on the screening and filtering device, the coarse material circulating device is fixedly installed on the crushing device, the coarse material circulating device is fixedly installed on the screening and filtering device, the coarse material circulating device is fixedly installed on the grinding device, and the filtering device is fixedly installed on the grinding device.

Description

Textile dye treatment equipment

Technical Field

The invention relates to a crushing, screening and grinding device, in particular to a textile dye treatment device.

Background

The garment and the clothes are an indispensable part in life, most of materials used for 'clothes' are cloth materials, the existing cloth materials are traditional cotton, hemp and silk, and the existing synthetic materials exist, but in order to meet the requirements of people, the color formats of the clothes are various, but the problems of storage and later use of dyes are solved, so that the textile dye processing equipment is invented.

Disclosure of Invention

The invention relates to crushing, screening and grinding equipment, in particular to textile dye treatment equipment.

In order to solve the technical problem, the invention relates to a crushing, screening and grinding device, in particular to a textile dye treatment device, which comprises a crushing device, a screening and filtering device, a coarse material circulating device and a grinding device, wherein the crushing device repeatedly crushes the dye blocks, the screening and filtering device screens the crushed dye, the coarse material circulating device conveys the crushed dye with overlarge size back to the crushing device for continuous crushing, and the grinding device grinds and discharges the dye with small size, and the textile dye treatment device is characterized in that: the crushing device comprises a crushing barrel, an anti-sputtering cover, a feeding hole, a feed back hole, a motor, an output belt wheel, a transmission belt, a rotating fixed shaft, a receiving belt wheel, a crushing column, a slotted hole, a spring, a sliding plate, a sliding connecting column, a contraction groove, an extension crushing plate, a slotted hole I, a sliding plate I, a connecting column I, a spring I, a crushing barrel I, a slotted hole II, a mounting rack, a matching toothed column, a stepped toothed column, a mounting cover, a fixed shaft, a transmission gear, a toothed surface I and a toothed surface II, wherein the anti-sputtering cover is fixedly mounted on the crushing barrel, the feeding hole is formed in the anti-sputtering cover, the motor is fixedly mounted on the crushing barrel, the output belt wheel is fixedly mounted on the motor, the transmission belt is mounted on the output belt wheel, the transmission belt is mounted on the receiving belt wheel, the rotating fixed shaft is, the crushing column is installed and fixed on the rotating fixed shaft, the slotted hole is arranged on the crushing column, the spring is movably fixed inside the slotted hole two, the sliding plate is installed and movably fixed inside the slotted hole two, the sliding connecting column is installed and fixed on the sliding plate, the contraction groove is arranged on the sliding connecting column, the extension crushing plate is movably installed inside the contraction groove through a shaft, the slotted hole one is arranged on the extension crushing plate, the sliding plate one is movably installed inside the slotted hole one, the connecting column one is hinged on the sliding connecting column, the connecting column one is installed and fixed on the sliding plate one, the spring one is movably installed on the connecting column one, the crushing barrel one is movably installed inside the crushing barrel, the slotted hole two is arranged on the crushing barrel one, the mounting frame is installed and fixed inside the crushing barrel, the matching toothed column is installed and, the stepped tooth column is meshed with the matched tooth column, the mounting cover is fixedly mounted on the crushing barrel, the fixed shaft is fixedly mounted on the mounting frame, the transmission gear is movably mounted on the fixed shaft and meshed with the first tooth surface, the transmission gear is meshed with the second tooth surface, the first tooth surface is arranged on the crushing column, and the second tooth surface is arranged on the first crushing barrel.

The screening and filtering device comprises a screening cylinder, a limiting groove, a screening rotating shaft, a screening plate, an inclined plane ring, a limiting column, a connecting and mounting plate, a fixed cylinder, a fixed sliding plate, a spring III, a moving cylinder III, a friction reducing ball, a mounting frame III, a sealing plate, a control rod and a discharge cylinder, wherein the screening cylinder is fixedly mounted on a crushing barrel, the limiting groove is arranged on the screening cylinder, the screening rotating shaft is movably mounted on a mounting cover, the screening rotating shaft is movably mounted on the mounting frame III, the screening rotating shaft is meshed with a stepped toothed column, the screening plate is movably mounted on the screening rotating shaft, the inclined plane ring is fixedly mounted on the screening plate, the limiting column is slidably mounted on the screening rotating shaft, the fixed cylinder is fixedly mounted on the connecting and mounting plate, the fixed sliding plate is fixedly mounted on the fixed cylinder, the spring III, the third movable cylinder is slidably mounted on the fixed sliding plate, the friction reducing balls are slidably mounted on the third movable cylinder, the third mounting frame is fixedly mounted inside the screening cylinder, the sealing plate is slidably mounted on the screening cylinder, the control rod is fixedly mounted on the sealing plate, and the discharge cylinder is fixedly mounted on the screening cylinder.

The coarse material circulating device comprises a feeding cylinder I, a feeding cylinder II, a discharging interface, a motor mounting rack, a motor III, a bevel gear, a rotating shaft III, a bevel gear I, a material pushing plate, a bevel gear II, a mounting rack III, a rotating shaft IV, a bevel gear III, a material pushing plate II and a discharging port, wherein the feeding cylinder I is fixedly arranged on the discharging cylinder, the feeding cylinder II is fixedly arranged on the feeding cylinder I, the discharging interface is fixedly arranged on the feeding cylinder II, the discharging interface is fixedly arranged in the sputtering-proof cover, the motor III is fixedly arranged on the motor mounting rack, the bevel gear is fixedly arranged on the motor III, the bevel gear is meshed with the bevel gear I, the rotating shaft III is movably arranged in the feeding cylinder I, the rotating shaft III is movably arranged on the mounting rack III, the bevel gear I is fixedly arranged on the rotating shaft III, the, the second bevel gear is meshed with the third bevel gear, the third mounting frame is fixedly installed inside the first feeding barrel, the fourth rotating shaft is movably installed on the first feeding barrel and movably installed on the second feeding barrel, the third bevel gear is fixedly installed on the fourth rotating shaft, the second material pushing plate is fixedly installed on the fourth rotating shaft, and the discharge port is formed in the second feeding barrel.

The grinding device comprises a grinding cylinder, a mounting frame IV, a rotating shaft V, a square top plate, a rotating grinding column, a square slotted hole V, a spring V, a discharge port V, a bevel gear IV, a bevel gear V, a motor mounting frame V, a motor V and a half bevel gear, wherein the screening cylinder is fixedly mounted on the grinding cylinder, the motor mounting frame IV is fixedly mounted inside the grinding cylinder, the rotating shaft V is movably mounted on the grinding cylinder, the mounting frame IV is movably mounted on the grinding cylinder, the square top plate is fixedly mounted on the rotating shaft V, the rotating grinding column is movably mounted on the rotating shaft V, the square slotted hole V is mounted inside the rotating grinding column, the spring V is movably mounted inside the slotted hole V, the discharge port V is arranged on the grinding cylinder, the bevel gear IV is fixedly mounted on the rotating shaft V, the bevel gear V is fixedly mounted on the rotating shaft V, and the motor mounting frame V is fixedly, and the motor fifth is fixedly arranged on the motor mounting frame fifth, and the half bevel gear is fixedly arranged on the motor fifth.

The crushing device is fixedly installed on the screening and filtering device, the coarse material circulating device is fixedly installed on the crushing device, the coarse material circulating device is fixedly installed on the screening and filtering device, the coarse material circulating device is fixedly installed on the grinding device, and the filtering device is fixedly installed on the grinding device.

As a further optimization of the technical scheme, the textile dye treatment equipment of the invention has eight slotted holes of the crushing device, twelve springs, sliding plates and sliding connecting columns, twenty-four contraction grooves, extension crushing plates, a slotted hole I, a sliding plate I, a connecting column I and a spring I, and four slotted holes II.

The textile dye treatment equipment has the beneficial effects that:

the invention relates to crushing, screening and grinding equipment, in particular to textile dye treatment equipment which realizes the functions of repeatedly crushing lump dyes through a crushing device, screening and filtering the crushed dyes through a screening and filtering device, conveying the oversize dyes back to the crushing device through a coarse material circulating device to continue crushing, grinding and discharging the dyes with small sizes through a grinding device and the like.

Drawings

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

Fig. 1 is a schematic perspective view of a textile dye processing apparatus of the present invention.

Fig. 2 is a schematic perspective cross-sectional view of a textile dye processing apparatus of the present invention.

Fig. 3 is a schematic perspective view of a crushing device 1 of a textile dye treatment apparatus according to the present invention.

Fig. 4 is a schematic perspective cross-sectional view of a crushing device 1 of a textile dye treatment apparatus according to the present invention. Fig. 5 is a schematic enlarged partial perspective sectional view of a crushing device 1 of a textile dye treatment apparatus according to the present invention.

Fig. 6 is a first enlarged schematic view of a three-dimensional cross-sectional view of an empty crushing device 1 of a textile dye treatment apparatus according to the present invention.

Fig. 7 is a schematic diagram of the empty crushing device 1 of the textile dye treatment equipment in a partially enlarged perspective sectional view.

Fig. 8 is a partial perspective view showing a first empty crushing device 1 of the textile dye treatment apparatus of the present invention.

Fig. 9 is a partial perspective view showing a second empty crushing device 1 of the textile dye treatment apparatus of the present invention.

Fig. 10 is a schematic perspective view of a screening and filtering device 2 of a textile dye processing apparatus according to the present invention.

Fig. 11 is a schematic perspective sectional view of a screening and filtering device 2 of a textile dye processing apparatus according to the present invention.

Fig. 12 is a partial perspective view of a screening filter 2 of a textile dye processing apparatus of the present invention.

Fig. 13 is a schematic partial perspective sectional view of a screening filter 2 of a textile dye processing apparatus according to the present invention.

Fig. 14 is a schematic perspective view of a coarse material circulating device 3 of a textile dye treatment apparatus according to the present invention.

Fig. 15 is a schematic perspective cross-sectional view of a coarse material circulating device 3 of a textile dye treatment apparatus according to the present invention.

Fig. 16 is a schematic perspective view of a grinding device 4 of a textile dye processing apparatus according to the present invention.

Fig. 17 is a schematic perspective sectional view of a grinding device 4 of a textile dye processing apparatus according to the present invention.

Fig. 18 is a partial perspective view of a grinding device 4 of a textile dye processing apparatus of the present invention.

In the figure: a crushing device 1; 1-1 of a crushing barrel; 1-2 of an anti-sputtering cover; 1-3 of a feed inlet; a feed back port is 1-4; 1-5 of a motor; an output pulley 1-6; 1-7 of a transmission belt; rotating the fixed shaft 1-8; receiving belt wheels 1-9; 1-10 parts of a crushing column; 1-11 of slotted holes; 1-12 parts of a spring; sliding plates 1-13; 1-14 of a sliding connecting column; 1-15 of a contraction groove; stretching the breaker plates 1-16; a first slot 1-17; a first sliding plate 1-18; 1-19 of a connecting column I; 1-20 parts of a first spring; 1-21 parts of a crushing barrel I; a second slot 1-22; mounting frames 1-23; 1-24 of a matching tooth column; 1-25 of a stepped toothed column; mounting the covers 1-26; mounting the covers 1-26; a fixed shaft 1-27; transmission gears 1-28; tooth surfaces one 1-29; the second tooth surface 1-30 screens the filter device 2; 2-1 of a screening cylinder; 2-2 of a limiting groove; 2-3 parts of a screening rotating shaft; 2-4 of a screening plate; 2-5 of a bevel ring; 2-6 parts of a limiting column; connecting the mounting plates 2-7; 2-8 parts of a fixed cylinder; fixing the sliding plate 2-9; 2-10 parts of a spring III; moving the third cylinder 2-11; 2-12 parts of friction reducing balls; mounting frames III 2-13; 2-14 parts of a sealing plate; 2-15 of a control rod; 2-16 parts of a discharge cylinder; a coarse material circulating device 3; 3-1 of a feeding cylinder I; a second feeding cylinder 3-2; a discharging port 3-3; 3-4 of a motor mounting rack; 3-5 of a motor III; bevel gears 3-6; rotating a third shaft by 3-7; 3-8 parts of a first bevel gear; 3-9 parts of a material pushing plate; 3-10 parts of a second bevel gear; mounting frame III 3-11; rotating the shaft four by 3-12; bevel gears three 3-13; 3-14 parts of a second material pushing plate; 3-15 parts of a discharge port; a grinding device 4; 4-1 of a grinding cylinder; mounting frame IV 4-2; rotating a shaft five 4-3; 4-4 of a square top plate; rotating the grinding column for 4-5 times; five square groove holes 4-6; 4-7 parts of a spring; a fifth discharge port is 4-8; bevel gears four 4-9; 4-10 parts of a bevel gear; 4-11 parts of a motor mounting rack; 4-12 parts of a motor V; half bevel gears 4-13.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to a crushing, screening and grinding device, in particular to a textile dye processing device, which comprises a crushing device 1, a screening and filtering device 2, a coarse material circulating device 3 and a grinding device 4, wherein the crushing device 1 repeatedly crushes the dye blocks, the screening and filtering device 2 screens the crushed dye, the coarse material circulating device 3 returns the oversize dye to the crushing device 1 for continuous crushing, and the grinding device 4 grinds and discharges the dye with small size, and the like, which is combined with fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 and 18, and is characterized in that: the crushing device 1 comprises a crushing barrel 1-1, an anti-sputtering cover 1-2, a feeding port 1-3, a feed back port 1-4, a motor 1-5, an output belt wheel 1-6, a transmission belt 1-7, a rotating fixed shaft 1-8, a receiving belt wheel 1-9, a crushing column 1-10, a slotted hole 1-11, a spring 1-12, a sliding plate 1-13, a sliding connecting column 1-14, a contraction groove 1-15, an extension crushing plate 1-16, a slotted hole 1-17, a sliding plate 1-18, a connecting column 1-19, a spring 1-20, a crushing barrel 1-21, a slotted hole two 1-22, an installation rack 1-23, a matching toothed column 1-24, a stepped toothed column 1-25, an installation cover 1-26, a fixed shaft 1-27, a matching toothed column 1-24, a stepped toothed column 1-25, The dye to be processed is put into a crushing barrel 1-1 through a feed inlet 1-3 of a crushing device 1, a motor 1-5 drives an output belt wheel 1-6 to rotate, the output belt wheel 1-6 drives a receiving belt wheel 1-9 to rotate through a transmission belt 1-7, the receiving belt wheel 1-9 drives a rotating fixed shaft 1-8 to rotate, the rotating fixed shaft 1-8 drives a crushing column 1-10 to rotate, a sliding connecting column 1-14 is thrown out of a slotted hole 1-11 under the centrifugal effect, a sliding plate 1-13 compresses a spring 1-12, then the spring 1-20 pushes the connecting column 1-19 to drive the sliding plate 1-18 to slide in the slotted hole 1-17 and then reinforces and extends the crushing plate 1-16 to increase the crushing area, the crushing column 1-10 drives the crushing barrel 1-21 to rotate through the transmission gear 1-28, the extension crushing plate 1-16 arranged in the slot hole II 1-22 also extends out, the crushed dye falls into the screening and filtering device 2, the matching tooth column 1-24 rotates through the stepped tooth column 1-25, the stepped tooth column 1-25 drives the screening and rotating shaft 2-3 to rotate, the anti-sputtering cover 1-2 is arranged and fixed on the crushing barrel 1-1, the feed inlet 1-3 is arranged on the anti-sputtering cover 1-2, the return port 1-4 is arranged on the anti-sputtering cover 1-2, the motor 1-5 is arranged and fixed on the crushing barrel 1-1, the output belt wheel 1-6 is arranged and fixed on the motor 1-5, the transmission belt 1-7 is arranged on the output belt wheel 1-6, the transmission belt 1-7 is arranged on the receiving belt wheel 1-9, the rotating fixed shaft 1-8 is movably arranged on the crushing barrel 1-1, the receiving belt wheel 1-9 is fixedly arranged on the rotating fixed shaft 1-8, the crushing column 1-10 is fixedly arranged on the rotating fixed shaft 1-8, the slotted hole 1-11 is arranged on the crushing column 1-10, the spring 1-12 is movably fixed in the slotted hole 1-11, the spring 1-12 is movably fixed in the slotted hole two 1-22, the sliding plate 1-13 is movably fixed in the slotted hole 1-11, the sliding plate 1-13 is movably fixed in the slotted hole two 1-22, the sliding connection column 1-14 is fixedly arranged on the sliding plate 1-13, the contraction groove 1-15 is arranged on the sliding connection column 1-14, the extension crushing plate 1-16 is movably arranged in the contraction groove 1-15 through a shaft, the slotted hole 1-17 is arranged on the extension crushing plate 1-16, the sliding plate 1-18 is movably arranged in the slotted hole 1-17, the connecting column 1-19 is hinged on the sliding connecting column 1-14, the connecting column 1-19 is fixedly arranged on the sliding plate 1-18, the spring 1-20 is movably arranged on the connecting column 1-19, the crushing barrel 1-21 is movably arranged in the crushing barrel 1-1, the slotted hole 1-22 is arranged on the crushing barrel 1-21, the mounting frame 1-23 is fixedly arranged in the crushing barrel 1-1, the matching toothed column 1-24 is fixedly arranged on the crushing column 1-10, the stepped toothed column 1-25 is movably arranged on the mounting cover 1-26, the stepped toothed column 1-25 is meshed with the matched toothed column 1-24, the mounting cover 1-26 is fixedly mounted on the crushing barrel 1-1, the fixed shaft 1-27 is fixedly mounted on the mounting frame 1-23, the transmission gear 1-28 is movably mounted on the fixed shaft 1-27, the transmission gear 1-28 is meshed with the first tooth surface 1-29, the transmission gear 1-28 is meshed with the second tooth surface 1-30, the first tooth surface 1-29 is arranged on the crushing column 1-10, and the second tooth surface 1-30 is arranged on the first crushing barrel 1-21.

The screening and filtering device 2 comprises a screening cylinder 2-1, a limiting groove 2-2, a screening rotating shaft 2-3, a screening plate 2-4, an inclined ring 2-5, a limiting column 2-6, a connecting and mounting plate 2-7, a fixed cylinder 2-8, a fixed sliding plate 2-9, a spring three 2-10, a moving cylinder three 2-11, a friction reducing ball 2-12, a mounting frame three 2-13, a sealing plate 2-14, a control rod 2-15 and a discharging cylinder 2-16, wherein the stepped gear column 1-25 drives the screening rotating shaft 2-3 to rotate, the screening rotating shaft 2-3 drives the connecting and mounting plate 2-7 to rotate, the connecting and mounting plate 2-7 drives the fixed cylinder 2-8 to rotate, the fixed cylinder 2-8 drives the moving cylinder three 2-11, the third moving cylinder 2-11 drives the friction reducing balls 2-12 to rotate and is matched with the inclined plane circular ring 2-5, when the inclined plane circular ring 2-5 is rotated to a high position, one end of the screening plate 2-4 is driven to rise, when the inclined plane circular ring is rotated to a low position, one end of the screening plate 2-4 falls, the broken dye is screened by repeated up-and-down movement, the sealing plate 2-14 and the screening cylinder 2-1 are separated by pulling the control rod 2-15 outwards without passing through the dye of the screening plate 2-4, then the dye falls into the discharging cylinder 2-16, the screening cylinder 2-1 is fixedly arranged on the crushing cylinder 1-1, the limiting groove 2-2 is arranged on the screening cylinder 2-1, the screening rotating shaft 2-3 is movably arranged on the mounting cover 1-26, the screening rotating shaft 2-3 is movably arranged on the third mounting frame 2-13, a screening rotating shaft 2-3 is meshed with a stepped toothed column 1-25, a screening plate 2-4 is movably arranged on the screening rotating shaft 2-3, an inclined plane circular ring 2-5 is fixedly arranged on the screening plate 2-4, a limiting column 2-6 is fixedly arranged on the screening plate 2-4, the limiting column 2-6 is slidably arranged in a limiting groove 2-2, a connecting mounting plate 2-7 is fixedly arranged on the screening rotating shaft 2-3, a fixed cylinder 2-8 is fixedly arranged on the connecting mounting plate 2-7, a fixed sliding plate 2-9 is fixedly arranged on a fixed cylinder 2-8, a spring three 2-10 is slidably arranged in a moving cylinder three 2-11, a moving cylinder three 2-11 is slidably arranged on the fixed sliding plate 2-9, a friction reducing ball 2-12 is slidably arranged on the moving cylinder three 2-11, the third mounting frame 2-13 is fixedly arranged inside the screening cylinder 2-1, the sealing plate 2-14 is slidably arranged on the screening cylinder 2-1, the control rod 2-15 is fixedly arranged on the sealing plate 2-14, and the discharge cylinder 2-16 is fixedly arranged on the screening cylinder 2-1.

The coarse material circulating device 3 comprises a first feeding cylinder 3-1, a second feeding cylinder 3-2, a discharge interface 3-3, a motor mounting rack 3-4, a third motor 3-5, a bevel gear 3-6, a rotating shaft three 3-7, a first bevel gear 3-8, a material pushing plate 3-9, a bevel gear two 3-10, a mounting rack three 3-11, a rotating shaft four 3-12, a bevel gear three 3-13, a material pushing plate two 3-14 and a discharge port 3-15, wherein the motor three 3-5 of the coarse material circulating device 3 drives the bevel gear 3-6 to rotate, the bevel gear 3-6 drives the bevel gear one 3-8 to rotate, the bevel gear one 3-8 drives the rotating shaft three 3-7 to rotate, the rotating shaft three 3-7 drives the material pushing plate 3-9 to rotate to push the crushed materials upwards in the first feeding cylinder 3-1, a third rotating shaft 3-7 drives a second bevel gear 3-10 to rotate, the second bevel gear 3-10 drives a third bevel gear 3-13 to rotate, the third bevel gear 3-13 drives a fourth rotating shaft 3-12 to rotate, the fourth rotating shaft 3-12 drives a second material pushing plate 3-14 to rotate so as to push the crushed materials back to the crushing barrel 1-1 from the second feeding barrel 3-2 for new crushing, the first feeding barrel 3-1 is fixedly arranged on a first discharging barrel 2-16, the second feeding barrel 3-2 is fixedly arranged on the first feeding barrel 3-1, a discharging interface 3-3 is fixedly arranged on the second feeding barrel 3-2, the discharging interface 3-3 is fixedly arranged inside a sputtering prevention cover 1-2, a third motor 3-5 is fixedly arranged on a motor mounting frame 3-4, and the third bevel gear 3-6 is fixedly arranged on the third motor 3-5, the bevel gear 3-6 is meshed with the bevel gear I3-8, the rotating shaft III 3-7 is movably arranged inside the feeding cylinder I3-1, the rotating shaft III 3-7 is movably arranged on the mounting frame III 3-11, the bevel gear I3-8 is fixedly arranged on the rotating shaft III 3-7, the material pushing plate 3-9 is fixedly arranged on the rotating shaft III 3-7, the bevel gear II 3-10 is meshed with the bevel gear III 3-13, the mounting frame III 3-11 is fixedly arranged inside the feeding cylinder I3-1, the rotating shaft IV 3-12 is movably arranged on the feeding cylinder I3-1 and is movably arranged on the feeding cylinder II 3-2, the bevel gear III 3-13 is fixedly arranged on the rotating shaft IV 3-12, the second material pushing plate 3-14 is fixedly arranged on the fourth rotating shaft 3-12, and the discharge port 3-15 is arranged on the second feeding barrel 3-2.

The grinding device 4 comprises a grinding cylinder 4-1, a mounting rack IV 4-2, a rotating shaft V4-3, a square top plate 4-4, a rotating grinding column 4-5, a square slot V4-6, a spring V4-7, a discharge port V4-8, a bevel gear IV 4-9, a bevel gear V4-10, a motor mounting rack V4-11, a motor V4-12 and a half bevel gear 4-13, the dye of the screening plate 2-4 falls into the grinding cylinder 4-1 of the grinding device 4, then the motor V4-12 drives the half bevel gear 4-13 to rotate, when the half bevel gear 4-13 drives the bevel gear IV 4-9 to rotate, the bevel gear IV 4-9 drives the rotating shaft V4-3 to rotate, the rotating grinding column 4-5 to rotate and the grinding cylinder 4-1 to grind the dye, when the bevel gear five 4-10 is meshed with the half bevel gear 4-13, the bevel gear five 4-10 rotates reversely, the bevel gear five 4-10 drives the rotating shaft five 4-3 to rotate, the rotating shaft five 4-3 drives the rotating grinding column 4-5 to rotate and the grinding cylinder 4-1 grinds dye, the spring five 4-7 pushes the rotating grinding column 4-5 to generate downward pressure by generating reaction force through pushing the square top plate 4-4, the screening cylinder 2-1 is fixedly arranged on the grinding cylinder 4-1, the motor mounting rack four 4-2 is fixedly arranged inside the grinding cylinder 4-1, the rotating shaft five 4-3 is movably arranged and fixedly arranged on the grinding cylinder 4-1, the mounting rack four 4-2 is movably arranged on the grinding cylinder 4-1, the rotating shaft five 4-3 is movably arranged on the grinding cylinder 4-1, the square top plate 4-4 is fixedly arranged on the rotating shaft five 4-3, the rotating grinding column 4-5 is movably arranged on the rotating shaft five 4-3, the square slotted hole five 4-6 is arranged inside the rotating grinding column 4-5, the spring five 4-7 is movably arranged inside the slotted hole five 4-6, the discharge hole five 4-8 is arranged on the grinding cylinder 4-1, the bevel gear four 4-9 is fixedly arranged on the rotating shaft five 4-3, the bevel gear five 4-10 is fixedly arranged on the rotating shaft five 4-3, the motor mounting frame five 4-11 is fixedly arranged on the grinding cylinder 4-1, the motor five 4-12 is fixedly arranged on the motor mounting frame five 4-11, and the half bevel gear 4-13 is fixedly arranged on the motor five 4-12.

The crushing device 1 is fixedly installed on the screening and filtering device 2, the coarse material circulating device 3 is fixedly installed on the crushing device 1, the coarse material circulating device 3 is fixedly installed on the screening and filtering device 2, the coarse material circulating device 3 is fixedly installed on the grinding device 4, and the filtering device 2 is fixedly installed on the grinding device 4.

The second embodiment is as follows:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, the present embodiment further describes an embodiment in which the number of the slotted holes 1 to 11 of the crushing apparatus 1 is eight, the number of the springs 1 to 12, the number of the sliding plates 1 to 13 and the number of the sliding connecting columns 1 to 14 are twelve, the number of the contracting grooves 1 to 15, the expanding crushing plates 1 to 16, the number of the slotted holes 1 to 17, the number of the sliding plates 1 to 18, the number of the connecting columns 1 to 19 and the number of the springs 1 to 20 are twenty-four, and the number of the slotted holes two 1 to 22 is four.

The working principle of the invention is as follows:

a textile dye treatment device has the working principle that whether the connection condition between devices meets the requirement is checked before the textile dye treatment device is used, dye to be treated is placed into a crushing barrel 1-1 through a feed port 1-3 of a crushing device 1, a motor 1-5 drives an output belt wheel 1-6 to rotate, the output belt wheel 1-6 drives a receiving belt wheel 1-9 to rotate through a transmission belt 1-7, the receiving belt wheel 1-9 drives a rotating fixed shaft 1-8 to rotate, the rotating fixed shaft 1-8 drives a crushing column 1-10 to rotate, a sliding connecting column 1-14 is thrown out of a slotted hole 1-11 under the centrifugal effect, a sliding plate 1-13 compresses a spring 1-12, a spring 1-20 pushes the connecting column 1-19 to drive the sliding plate 1-18 to slide in the slotted hole 1-17, and then the crushing plate 1-16 is reinforced and stretched to increase the crushing capacity The area of the screening device is that a first crushing barrel 1-21 is driven to rotate by a crushing column 1-10 through a transmission gear 1-28, an extension crushing plate 1-16 arranged in a second slotted hole 1-22 also extends, the crushed dye falls into a screening filter device 2, a matching toothed column 1-24 rotates through a stepped toothed column 1-25, the stepped toothed column 1-25 drives a screening rotating shaft 2-3 to rotate, a screening rotating shaft 2-3 drives a connecting mounting plate 2-7 to rotate, the connecting mounting plate 2-7 drives a fixed cylinder 2-8 to rotate, the fixed cylinder 2-8 drives a moving cylinder three 2-11, the moving cylinder three 2-11 drives a friction reducing ball 2-12 to rotate and is matched with an inclined ring 2-5, when the inclined ring 2-5 is rotated to a high position, one end of a screening plate 2-4 is driven to rise, when the coarse material circulating device is turned to a low position, one end of the screening plate 2-4 falls, the broken dye is screened by repeated up-and-down movement, the dye which does not pass through the screening plate 2-4 is separated from the sealing plate 2-14 and the screening cylinder 2-1 by pulling the control rod 2-15 outwards, then the dye falls into the discharging cylinder 2-16, then the motor III 3-5 of the coarse material circulating device 3 drives the bevel gear 3-6 to rotate, the bevel gear 3-6 drives the bevel gear I3-8 to rotate, the bevel gear I3-8 drives the rotating shaft III 3-7 to rotate, the rotating shaft III 3-7 drives the material pushing plate 3-9 to rotate so as to push the broken material upwards in the feeding cylinder I3-1, the rotating shaft III 3-7 drives the bevel gear II 3-10 to rotate, the bevel gear II 3-10 drives the bevel gear III 3-, the bevel gear III 3-13 drives the rotating shaft IV 3-12 to rotate, the rotating shaft IV 3-12 drives the material pushing plate II 3-14 to rotate to push the crushed materials back to the crushing barrel 1-1 from the feeding barrel II 3-2 for crushing, the dye passing through the screening plate 2-4 falls into the grinding barrel 4-1 of the grinding device 4, then the motor V4-12 drives the half bevel gear 4-13 to rotate, when the half bevel gear 4-13 drives the bevel gear IV 4-9 to rotate, the bevel gear IV 4-9 drives the rotating shaft V4-3 to rotate forward, the rotating shaft V4-3 drives the rotating grinding column 4-5 to rotate and the grinding barrel 4-1 to grind the dye, when the bevel gear V4-10 is meshed with the half bevel gear 4-13, the bevel gear V4-10 rotates reversely, the bevel gear V4-10 drives the rotating shaft V4-3 to rotate, the rotating shaft five 4-3 drives the rotating grinding column 4-5 to rotate and the grinding cylinder 4-1 to grind the dye, and the spring five 4-7 pushes the rotating grinding column 4-5 to generate downward pressure by pushing the square top plate 4-4 to generate a reaction force.

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 (2)

1. The utility model provides a textile dye processing equipment, includes breaker (1), screening filter equipment (2), coarse fodder circulating device (3), grinder (4), its characterized in that: the crushing device (1) comprises a crushing barrel (1-1), an anti-sputtering cover (1-2), a feeding port (1-3), a feed back port (1-4), a motor (1-5), an output belt wheel (1-6), a transmission belt (1-7), a rotating fixed shaft (1-8), a receiving belt wheel (1-9), a crushing column (1-10), a slotted hole (1-11), a spring (1-12), a sliding plate (1-13), a sliding connecting column (1-14), a contraction groove (1-15), an extension crushing plate (1-16), a slotted hole I (1-17), a sliding plate I (1-18), a connecting column I (1-19), a spring I (1-20), a crushing barrel I (1-21), a slotted hole II (1-22), The device comprises a mounting frame (1-23), a matching toothed column (1-24), a stepped toothed column (1-25), a mounting cover (1-26), a fixed shaft (1-27), a transmission gear (1-28), a first tooth surface (1-29) and a second tooth surface (1-30), wherein a sputtering-proof cover (1-2) is fixedly mounted on a crushing barrel (1-1), a feed inlet (1-3) is arranged on the sputtering-proof cover (1-2), a feed back port (1-4) is arranged on the sputtering-proof cover (1-2), a motor (1-5) is fixedly mounted on the crushing barrel (1-1), an output belt wheel (1-6) is fixedly mounted on the motor (1-5), a transmission belt (1-7) is mounted on an output belt wheel (1-6), the transmission belt (1-7) is mounted on a receiving belt wheel (1-9), the rotating fixed shaft (1-8) is movably arranged on the crushing barrel (1-1), the receiving belt wheel (1-9) is fixedly arranged on the rotating fixed shaft (1-8), the crushing column (1-10) is fixedly arranged on the rotating fixed shaft (1-8), the slotted hole (1-11) is arranged on the crushing column (1-10), the spring (1-12) is movably fixed in the slotted hole (1-11), the spring (1-12) is movably fixed in the slotted hole II (1-22), the sliding plate (1-13) is movably fixed in the slotted hole (1-11), the sliding plate (1-13) is movably fixed in the slotted hole II (1-22), the sliding connecting column (1-14) is fixedly arranged on the sliding plate (1-13), and the contraction groove (1-15) is arranged on the sliding connecting column (1-14), the expansion crushing plate (1-16) is movably arranged in the contraction groove (1-15) through a shaft, the slotted hole I (1-17) is arranged on the expansion crushing plate (1-16), the sliding plate I (1-18) is movably arranged in the slotted hole I (1-17), the connecting column I (1-19) is hinged on the sliding connecting column I (1-14), the connecting column I (1-19) is fixedly arranged on the sliding plate I (1-18), the spring I (1-20) is movably arranged on the connecting column I (1-19), the crushing barrel I (1-21) is movably arranged in the crushing barrel (1-1), the slotted hole II (1-22) is arranged on the crushing barrel I (1-21), and the mounting frame (1-23) is fixedly arranged in the crushing barrel (1-1), the matched tooth column (1-24) is fixedly arranged on the crushing column (1-10), the stepped tooth column (1-25) is movably arranged on an installation cover (1-26), the stepped tooth column (1-25) is meshed with the matched tooth column (1-24), the installation cover (1-26) is fixedly arranged on the crushing barrel (1-1), a fixed shaft (1-27) is fixedly arranged on an installation frame (1-23), a transmission gear (1-28) is movably arranged on the fixed shaft (1-27), the transmission gear (1-28) is meshed with a tooth surface I (1-29), the transmission gear (1-28) is meshed with a tooth surface II (1-30), the tooth surface I (1-29) is arranged on the crushing column (1-10), and the tooth surface II (1-30) is arranged on the crushing barrel I (1-21);

the screening and filtering device (2) comprises a screening cylinder (2-1), a limiting groove (2-2), a screening rotating shaft (2-3), a screening plate (2-4), an inclined plane ring (2-5), a limiting column (2-6), a connecting and mounting plate (2-7), a fixed cylinder (2-8), a fixed sliding plate (2-9), a spring III (2-10), a moving cylinder III (2-11), a friction reducing ball (2-12), a mounting frame III (2-13), a sealing plate (2-14), a control rod (2-15) and a discharging cylinder (2-16), wherein the screening cylinder (2-1) is fixedly arranged on a crushing cylinder (1-1), the limiting groove (2-2) is arranged on the screening cylinder (2-1), and the screening rotating shaft (2-3) is movably arranged on a mounting cover (1-26), the screening rotating shaft (2-3) is movably arranged on the mounting frame III (2-13), the screening rotating shaft (2-3) is meshed with the stepped toothed columns (1-25), the screening plate (2-4) is movably arranged on the screening rotating shaft (2-3), the inclined plane circular ring (2-5) is fixedly arranged on the screening plate (2-4), the limiting column (2-6) is slidably arranged in the limiting groove (2-2), the connecting mounting plate (2-7) is fixedly arranged on the screening rotating shaft (2-3), the fixed cylinder (2-8) is fixedly arranged on the connecting mounting plate (2-7), and the fixed sliding plate (2-9) is fixedly arranged on the fixed cylinder (2-8), a spring III (2-10) is slidably arranged inside a moving cylinder III (2-11), the moving cylinder III (2-11) is slidably arranged on a fixed sliding plate (2-9), a friction reducing ball (2-12) is slidably arranged on the moving cylinder III (2-11), a mounting frame III (2-13) is fixedly arranged inside a screening cylinder (2-1), a sealing plate (2-14) is slidably arranged on the screening cylinder (2-1), a control rod (2-15) is fixedly arranged on the sealing plate (2-14), and a discharging cylinder (2-16) is fixedly arranged on the screening cylinder (2-1);

the coarse material circulating device (3) comprises a first feeding cylinder (3-1), a second feeding cylinder (3-2), a discharge interface (3-3), a motor mounting frame (3-4), a third motor (3-5), a bevel gear (3-6), a third rotating shaft (3-7), a first bevel gear (3-8), a material pushing plate (3-9), a second bevel gear (3-10), a third mounting frame (3-11), a fourth rotating shaft (3-12), a third bevel gear (3-13), a second material pushing plate (3-14) and a discharge port (3-15), wherein the first feeding cylinder (3-1) is fixedly arranged on the discharge cylinder (2-16), the second feeding cylinder (3-2) is fixedly arranged on the first feeding cylinder (3-1), and the discharge interface (3-3) is fixedly arranged on the second feeding cylinder (3-2), the discharging interface (3-3) is fixedly arranged inside the anti-sputtering cover (1-2), the motor III (3-5) is fixedly arranged on the motor mounting frame (3-4), the bevel gear (3-6) is fixedly arranged on the motor III (3-5), the bevel gear (3-6) is meshed with the bevel gear I (3-8), the rotating shaft III (3-7) is movably arranged inside the feeding barrel I (3-1), the rotating shaft III (3-7) is movably arranged on the mounting frame III (3-11), the bevel gear I (3-8) is fixedly arranged on the rotating shaft III (3-7), the material pushing plate (3-9) is fixedly arranged on the rotating shaft III (3-7), the bevel gear II (3-10) is meshed with the bevel gear III (3-13), the mounting frame III (3-11) is fixedly installed inside the feeding barrel I (3-1), the rotating shaft IV (3-12) is movably installed on the feeding barrel I (3-1) and movably installed on the feeding barrel II (3-2), the bevel gear III (3-13) is fixedly installed on the rotating shaft IV (3-12), the material pushing plate II (3-14) is fixedly installed on the rotating shaft IV (3-12), and the material outlet (3-15) is formed in the feeding barrel II (3-2);

the grinding device (4) comprises a grinding cylinder (4-1), a mounting rack IV (4-2), a rotating shaft V (4-3), a square top plate (4-4), a rotating grinding column (4-5), a square slot hole V (4-6), a spring V (4-7), a discharge port V (4-8), a bevel gear IV (4-9), a bevel gear V (4-10), a motor mounting rack V (4-11), a motor V (4-12) and a semi-bevel gear (4-13), the screening cylinder (2-1) is fixedly arranged on the grinding cylinder (4-1), the mounting rack IV (4-2) of the motor mounting rack (3-4) is fixedly arranged inside the grinding cylinder (4-1), and the rotating shaft V (4-3) is movably arranged and fixed on the grinding cylinder (4-1), a rotating shaft five (4-3) is movably arranged on the grinding cylinder (4-1), a square top plate (4-4) is fixedly arranged on the rotating shaft five (4-3), a rotating grinding column (4-5) is movably arranged on the rotating shaft five (4-3), a square slotted hole five (4-6) is arranged inside the rotating grinding column (4-5), a spring five (4-7) is movably arranged inside the slotted hole five (4-6), a discharge hole five (4-8) is arranged on the grinding cylinder (4-1), a bevel gear four (4-9) is fixedly arranged on the rotating shaft five (4-3), a bevel gear five (4-10) is fixedly arranged on the rotating shaft five (4-3), a motor mounting frame five (4-11) is fixedly arranged on the grinding cylinder (4-1), a fifth motor (4-12) is fixedly arranged on the fifth motor mounting frame (4-11), and a half bevel gear (4-13) is fixedly arranged on the fifth motor (4-12);

the crushing device (1) is fixedly installed on the screening and filtering device (2), the coarse material circulating device (3) is fixedly installed on the crushing device (1), the coarse material circulating device (3) is fixedly installed on the screening and filtering device (2), the coarse material circulating device (3) is fixedly installed on the grinding device (4), and the filtering device (2) is fixedly installed on the grinding device (4).

2. A textile dye treatment apparatus as claimed in claim 1 wherein: the crushing device comprises a crushing device body (1), a compression groove (1-15), a stretching crushing plate (1-16), a slotted hole (1-17), a sliding plate (1-18), a connecting column (1-19) and a spring (1-20), wherein the number of slotted holes (1-11) of the crushing device body (1) is eight, the number of springs (1-12), the number of sliding plates (1-13) and the number of sliding connecting columns (1-14) are twelve, the number of the compression groove (1-15), the number of the stretching crushing plate (1-16), the number of the slotted holes (1-17), the number of the sliding plates (1-.

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