CN111926501A

CN111926501A - Automatic printing and dyeing equipment for fabric processing and production process thereof

Info

Publication number: CN111926501A
Application number: CN202010826643.7A
Authority: CN
Inventors: 黄晓航
Original assignee: Ma'anshan Weisha Automation Equipment Technology Co Ltd
Current assignee: Ma'anshan Weisha Automation Equipment Technology Co Ltd
Priority date: 2020-08-17
Filing date: 2020-08-17
Publication date: 2020-11-13

Abstract

The invention discloses automatic printing and dyeing equipment for fabric processing and a production process thereof, and relates to the technical field of printing and dyeing equipment. The novel dyeing box comprises a dyeing box body, a traction assembly, cloth, an inner sleeve, a first mounting plate, a second mounting plate, a first motor, a second motor, a partition plate, an electric heating wire and a baffle plate, wherein a plurality of transmission assemblies are rotatably connected inside the dyeing box body and are transmitted through two chains, a plurality of third supporting rods are fixed on one side of each chain, a water squeezing assembly and a vibration assembly are arranged inside the dyeing box body, two sliding grooves are symmetrically formed in opposite side surfaces of the dyeing box body, a drying mechanism and a cover plate are fixed on the upper surface of the dyeing box body, a feeding assembly is arranged on one side of the dyeing box body, which is far away from the drying mechanism, and a material receiving assembly is arranged on. According to the dyeing machine, due to the arrangement of the traction assembly, the oscillation assembly and the chain, on one hand, cloth can be conveniently and rapidly introduced into the dyeing cavity, and on the other hand, dye solution is uniformly mixed to avoid color difference.

Description

Automatic printing and dyeing equipment for fabric processing and production process thereof

Technical Field

The invention belongs to the technical field of printing and dyeing equipment, and particularly relates to automatic printing and dyeing equipment for fabric processing and a production process thereof.

Background

Printing and dyeing, also called dyeing and finishing, is a processing mode and is a general name of pretreatment, dyeing, printing, after finishing, washing and the like, and the dyeing and finishing specialty of the department is combined with the light chemical engineering specialty at present; as early as the age of the new stone implement six to seven thousand years ago, our ancestors can dye flax into red by hematite powder, the original place living in the Qinghai chai da mu basin Nuo mu flood area can dye the wool into yellow, red, brown, blue and the like, so as to weave out the wool with color stripes.

Therefore, the invention designs automatic printing and dyeing equipment for fabric processing and a production process thereof, so as to solve the problems.

Disclosure of Invention

The invention aims to provide automatic printing and dyeing equipment for fabric processing and a production process thereof.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to automatic printing and dyeing equipment for processing fabrics, which comprises a dyeing box body, a traction assembly, cloth and an inner sleeve, wherein a first mounting plate and a second mounting plate are fixed on one surface of the dyeing box body, a first motor is installed on the first mounting plate, a second motor is installed on the second mounting plate, a partition plate, an electric heating wire and a baffle plate are fixed inside the dyeing box body, a plurality of transmission assemblies are rotatably connected inside the dyeing box body and distributed around the partition plate, the transmission assemblies are transmitted through two chains, a plurality of third support rods are fixed on one side of each chain, a water squeezing assembly and a vibrating assembly are arranged inside the dyeing box body, two sliding grooves are symmetrically formed in one opposite side surface of the dyeing box body, a drying mechanism and a cover plate are fixed on the upper surface of the dyeing box body, and a feeding assembly is arranged on one side of the dyeing box body, which is far away from the drying mechanism, a material receiving assembly is arranged on one side, close to the drying mechanism, of the dyeing box body;

the feeding assembly comprises a first supporting seat, a feeding frame is fixed at one end of the first supporting seat, a first supporting rod is rotatably connected onto the first supporting seat, one end of the first supporting rod sequentially penetrates through the first supporting seat and one surface of the feeding frame, a first hand wheel is fixed at the other end of the first supporting rod, a rotating disc is fixedly sleeved on the peripheral side surface of the first supporting rod, a plurality of first cross rods are fixed on the peripheral side surface of the rotating disc, a first outer cylinder is sleeved on the peripheral side surface of each first cross rod, the first cross rods and the first outer cylinder are mutually attached, a stop block is fixed at the other end of each first cross rod, and the cloth sleeve is sleeved on the peripheral side surface of the first outer cylinder;

the traction assembly comprises two cylindrical blocks, two groups of first sliding blocks and second clamping blocks, the two cylindrical blocks are connected through a connecting rod, the peripheral side surface of the connecting rod is rotatably connected with a second outer barrel, the peripheral side surface of the second outer barrel is fixedly provided with the first clamping blocks, the first clamping blocks and the second clamping blocks are connected through fasteners, one end of cloth is positioned between the first clamping blocks and the second clamping blocks, one surface of each cylindrical block is provided with a first abdicating groove, the peripheral side surface of each cylindrical block is symmetrically provided with two second abdicating grooves, the two first sliding blocks are respectively positioned in the two second abdicating grooves, one surface of each first sliding block is fixedly provided with a first round rod, the two first round rods respectively penetrate through one inner wall of the second abdicating grooves and extend into the first abdicating grooves, the other end of each first round rod is fixedly provided with a limiting block, the peripheral side surface of each first round rod is sleeved with a first spring, one end of the first spring is mutually attached to one inner wall of the first abdicating grooves, the other end of the first spring is attached to a limiting block, the two limiting blocks are attached to each other, the third supporting rod is located in the first abdicating groove, and the third supporting rod is attached to the two limiting blocks;

the squeezing component comprises two squeezing rollers, the peripheral sides of the squeezing rollers are rotatably connected with rollers, first support rods are fixed at two ends of each squeezing roller, connecting blocks are fixed at the other ends of the first support rods, second round rods are fixed on the surfaces of the connecting blocks, the other ends of the second round rods penetrate through the inner surface of the dyeing box body and are rotatably connected with the dyeing box body, second springs are sleeved on the peripheral sides of the second round rods, one ends of the second springs are fixed on the surfaces of the connecting blocks, the other ends of the second springs are fixed on the inner wall of the dyeing box body, and the two rollers are mutually attached; the two groups of second round rods are symmetrically distributed on two sides of the chain;

the vibrating assembly comprises an outer frame and a third round rod, wherein a third abdicating groove is formed in each of opposite side surfaces of the outer frame, two second support rods are symmetrically fixed on an inner surface of each third abdicating groove, first teeth are formed in each of opposite inner surfaces of the third abdicating grooves, a fluted disc is fixed at one end of each third round rod and meshed with the first teeth, the other end of each third round rod penetrates through the dyeing box body and is fixed with a rotating shaft of the first motor, a plurality of material turning plates are fixed inside the outer frame, and the two groups of second support rods are respectively positioned in the two groups of sliding grooves;

the material receiving assembly comprises a second supporting seat and a second sliding block, a third mounting plate is fixed on one surface of the second supporting seat, a third motor is mounted on the third mounting plate, a fourth mounting plate is fixed on the other surface of the second supporting seat, a fourth motor is mounted on the fourth mounting plate, two sliding rods are symmetrically fixed in the second supporting seat, a second lead screw is rotationally connected in the second supporting seat and is positioned between the two sliding rods, one end of the second lead screw penetrates through the inner surface of the second supporting seat, the other end of the second lead screw penetrates through the second lead screw and is fixed with a rotating shaft of the fourth motor, the two sliding rods and the second lead screw respectively penetrate through the second sliding block, the sliding rods are slidably connected with the second sliding block, the second lead screw is in threaded connection with the second sliding block, two connecting plates are symmetrically fixed on the upper surface of the second sliding block, and a semicircular sleeve is fixed at the other end of the connecting plates, the utility model discloses a motor support device, including first supporting seat, first motor, second supporting seat, first urceolus, first cover, second motor, first outer cover, second motor, first motor, second motor, first motor.

Preferably, the baffle is bow-shaped, a dyeing cavity is formed between the middle part of the baffle and the dyeing box body, the electric heating wire and the baffle are located in the dyeing cavity, and the baffle is located right above the electric heating wire.

Preferably, the dyeing box body is internally and rotatably connected with a plurality of rotating rollers, and the plurality of rotating rollers are positioned above two ends of the partition plate.

Preferably, the drying mechanism is positioned above one end of the partition plate, and the cover plate is positioned above the middle part of the partition plate.

Preferably, the transmission assembly includes the transfer line, transfer line week side symmetry is fixed with two gears, a dyeing box relative flank is run through at transfer line both ends, gear and chain meshing, one transfer line one end is run through the dyeing box and is fixed with the pivot of second motor.

Preferably, a plurality of spacing grooves are formed in the position, corresponding to the first cross rod, of one surface of the rotary table, a first lead screw is arranged on the first support seat, one end of the first lead screw penetrates through the first support seat and extends into one spacing groove, the first support seat is in threaded fit with the first lead screw, a second hand wheel is fixed to the other end of the first lead screw, the first cross rod is a circular array, and a chamfer is formed in one edge of the stop block.

Preferably, the limiting block is provided with a chamfer.

Preferably, the material turning plates are arranged in a linear mode, the cross sections of the material turning plates are triangular, the fluted disc is fixedly provided with a plurality of second teeth, and the included angle between every two adjacent teeth is 30 degrees.

Preferably, a plurality of limiting strips are fixed inside the inner sleeve, chamfers are arranged at two ends of each limiting strip, the limiting strips are attached to the third outer cylinder, the left side of the semicircular sleeve is attached to the third outer cylinder, and the right side of the semicircular sleeve is in clearance fit with the inner sleeve.

Preferably, the production process of the automatic printing and dyeing equipment for fabric processing comprises the following steps:

SS001, dye feeding and processing, namely firstly feeding a prepared dye solution into a dyeing cavity, then heating the dye solution in the dyeing cavity through an electric heating wire, keeping the dye solution at a certain temperature which is the optimal temperature for dyeing, and simultaneously starting a first motor, wherein the first motor enables an outer frame to reciprocate in the dyeing cavity through the meshing action of a fluted disc and a first tooth, and the reciprocating outer frame can stir the dye solution in the dyeing cavity through a material turning plate, so that the density of the dye solution is uniform;

SS002, feeding, then rotating a first hand wheel to enable the axis of a first cross rod to coincide with the axis of a semi-arc surface at the top of a feeding frame, then rotating a second hand wheel to enable one end of a first screw rod to enter a limiting groove and lock a turntable, then sequentially sleeving cloth to be colored on a first outer barrel through the feeding frame, and repeating the steps to complete feeding;

SS003, dyeing, namely, firstly locking the turntable by rotating a second hand wheel, then pulling out one end of the cloth, feeding the cloth through a first clamping block, a second clamping block and a fastener, fixing the cloth on a traction assembly, then clamping the traction assembly on two chains, starting a second motor, driving the two chains under the traction of a driving assembly, and simultaneously drawing the traction assembly on the two chains to enter a dyeing cavity from one end of a partition plate to finish dyeing;

SS004 and drying, wherein after dyeing is finished, the two driving chains can simultaneously pull the traction assembly on the chains to leave the dyeing cavity and penetrate through the two rollers on the wringing assembly, the two rollers can extrude the cloth from two sides under the action of a second spring to remove redundant dye on the cloth, and then the cloth passes through a drying mechanism under the traction of the chains to finish drying;

SS005, receive material and unloading, the stoving back cloth leaves drying mechanism under the traction of chain, then close the second motor, the chain stops the transmission, to pull the subassembly and take off from the chain, remove the compress tightly to cloth one end through the fastener immediately, then twine cloth one end on the endotheca, start the third motor, the third motor can pull the cloth and collect the cloth through the endotheca, after the collection finishes, start the fourth motor, the fourth motor passes through the second lead screw and will semicircle cover to fourth motor one side pulling, and make the endotheca break away from the third urceolus, the endotheca after breaking away from can drop in the semicircle cover, then take out the endotheca, accomplish and receive material and unloading.

The invention has the following beneficial effects:

1. according to the invention, through the arrangement of the traction assembly and the chains, a worker only needs to feed cloth and fix the cloth on the traction assembly, then the traction assembly is clamped on the two chains, and the transmission assembly is driven by the second motor, so that the cloth moves along with the chains and enters the dyeing cavity.

2. According to the invention, through the arrangement of the oscillating assembly and the electric heating wire, the first motor drives the oscillating assembly to reciprocate in the dyeing cavity, the oscillating assembly which reciprocates stirs the dyeing solution in the dyeing cavity through the material stirring plate on the oscillating assembly, so that the dyeing solution is more uniform and avoids chromatic aberration, and the dyeing solution can be heated to the optimum dyeing temperature by matching with the use of the electric heating wire, so that the dyeing effect is more remarkable.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an automatic printing and dyeing device for fabric processing;

FIG. 2 is a schematic structural view of a feeding assembly;

FIG. 3 is a schematic view of the structure of FIG. 2 from another angle;

FIG. 4 is a schematic structural view of the dyeing tank, the drying mechanism and the cover plate when connected;

FIG. 5 is a schematic view of the dyeing box, the traction assembly and the chain when they are connected;

FIG. 6 is a schematic view of the traction assembly in connection with the cloth;

FIG. 7 is an enlarged view of part A;

FIG. 8 is a schematic view of the inside of the dyeing tank;

FIG. 9 is a schematic structural view of the wringing assembly;

FIG. 10 is a schematic structural view of the outer frame, the third rod and the fluted disc when they are connected;

FIG. 11 is a schematic view of the traction assembly and chain when connected;

FIG. 12 is a schematic structural view of the receiving assembly;

FIG. 13 is a schematic view of the structure of FIG. 12 from another angle;

FIG. 14 is a schematic structural view of the third outer sleeve and the inner sleeve when connected;

in the drawings, the components represented by the respective reference numerals are listed below:

1. a feeding assembly; 101. a first support base; 102. a first support bar; 103. a first hand wheel; 104. a turntable; 105. a first cross bar; 106. a stopper; 107. a first outer barrel; 108. a feeding frame; 109. a limiting groove; 110. a first lead screw; 111. a second hand wheel; 2. a dyeing box body; 201. a first mounting plate; 202. a first motor; 203. a second mounting plate; 204. a second motor; 3. a traction assembly; 301. a cylindrical block; 302. a first abdicating groove; 303. a second abdicating groove; 304. a first round bar; 305. a first slider; 306. a limiting block; 307. a first spring; 308. a second outer barrel; 309. a first clamping block; 310. a second clamp block; 311. a fastener; 4. a wringing component; 401. a squeeze roll; 402. a drum; 403. a first support bar; 404. connecting blocks; 405. a second round bar; 406. a second spring; 5. a vibrating assembly; 501. an outer frame; 502. a third abdicating groove; 503. a material turning plate; 504. a second support bar; 505. a third round bar; 506. a fluted disc; 6. a chain; 601. a third support bar; 7. a material receiving assembly; 701. a second support seat; 702. a second support bar; 703. a third outer barrel; 704. a third mounting plate; 705. a third motor; 706. a slide bar; 707. a second lead screw; 708. a second slider; 709. a connecting plate; 710. a semicircular sleeve; 711. a fourth mounting plate; 712. a fourth motor; 8. a partition plate; 9. an electric heating wire; 10. a baffle plate; 11. a transmission assembly; 1101. a transmission rod; 1102. a gear; 12. a rotating roller; 13. distributing; 14. a drying mechanism; 15. a cover plate; 16. an inner sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-14, the invention is an automatic printing and dyeing device for fabric processing, comprising a dyeing box 2, a traction component 3, a fabric 13 and an inner sleeve 16, wherein a first mounting plate 201 and a second mounting plate 203 are fixed on one surface of the dyeing box 2, a first motor 202 is mounted on the first mounting plate 201, a second motor 204 is mounted on the second mounting plate 203, a partition plate 8, an electric heating wire 9 and a baffle plate 10 are fixed inside the dyeing box 2, a plurality of transmission components 11 are rotatably connected inside the dyeing box 2, the transmission components 11 are distributed around the partition plate 8, the transmission components 11 are driven by two chains 6, a plurality of third support rods 601 are fixed on one side of the chains 6, a water squeezing component 4 and a vibration component 5 are arranged inside the dyeing box 2, two chutes are symmetrically formed on one opposite side surface of the dyeing box 2, a drying mechanism 14 and a cover plate 15 are fixed on the upper surface of the dyeing box body 2, a feeding assembly 1 is arranged on one side, far away from the drying mechanism 14, of the dyeing box body 2, and a material receiving assembly 7 is arranged on one side, close to the drying mechanism 14, of the dyeing box body 2;

the feeding assembly 1 comprises a first supporting seat 101, a feeding frame 108 is fixed at one end of the first supporting seat 101, a first supporting rod 102 is connected to the first supporting seat 101 in a rotating mode, one end of the first supporting rod 102 sequentially penetrates through one surface of the first supporting seat 101 and one surface of the feeding frame 108, a first hand wheel 103 is fixed at the other end of the first supporting rod 102, a rotating disc 104 is fixedly sleeved on the peripheral side surface of the first supporting rod 102, a plurality of first cross rods 105 are fixed on the peripheral side surface of the rotating disc 104, a first outer cylinder 107 is sleeved on the peripheral side surface of each first cross rod 105, the first cross rods 105 and the first outer cylinder 107 are mutually attached, a stop block 106 is fixed at the other end of each first cross rod 105, and the cloth 13 is sleeved on the peripheral side surface of the first outer cylinder 107;

the traction component 3 comprises two cylindrical blocks 301, two groups of first sliding blocks 305 and second clamping blocks 310, the two cylindrical blocks 301 are connected through a connecting rod, the peripheral side surface of the connecting rod is rotatably connected with a second outer barrel 308, the peripheral side surface of the second outer barrel 308 is fixedly provided with the first clamping block 309, the first clamping block 309 and the second clamping block 310 are connected through a fastener 311, one end of the cloth 13 is positioned between the first clamping block 309 and the second clamping block 310, one surface of the cylindrical block 301 is provided with a first abdicating groove 302, the peripheral side surface of the cylindrical block 301 is symmetrically provided with two second abdicating grooves 303, the two first sliding blocks 305 are respectively positioned in the two second abdicating grooves 303, one surface of the two first sliding blocks 305 is fixedly provided with a first round rod 304, the two first round rods 304 respectively penetrate through one inner wall of the second abdicating groove 303 and extend into the first abdicating groove 302, the other end of the first round rod 304 is fixedly provided with the abdicating block 306, a first spring 307 is sleeved on the peripheral side surface of the first round rod 304, one end of the first spring 307 is attached to one inner wall of the first abdicating groove 302, the other end of the first spring 307 is attached to the limiting block 306, the two limiting blocks 306 are attached to each other, the third support rod 601 is positioned in the first abdicating groove 302, and the third support rod 601 is attached to the two limiting blocks 306;

the water squeezing component 4 comprises two squeezing rollers 401, the circumferential sides of the squeezing rollers 401 are rotatably connected with rollers 402, two ends of each squeezing roller 401 are respectively fixed with a first supporting rod 403, the other end of each first supporting rod 403 is fixed with a connecting block 404, one surface of each connecting block 404 is fixed with a second round rod 405, the other end of each second round rod 405 penetrates through the inner surface of the dyeing box body 2 and is rotatably connected with the dyeing box body 2, the circumferential sides of the second round rods 405 are sleeved with second springs 406, one ends of the second springs 406 are fixed on the surface of each connecting block 404, the other ends of the second springs 406 are fixed on the inner wall of the dyeing box body 2, and the two rollers 402 are attached to each other; the two groups of second round rods 405 are symmetrically distributed on two sides of the chain 6;

the oscillating assembly 5 comprises an outer frame 501 and a third round bar 505, wherein a third abdicating groove 502 is formed in each of opposite side surfaces of the outer frame 501, two second support bars 504 are symmetrically fixed on an inner surface of each of the third abdicating grooves 502, first teeth are formed in each of opposite inner surfaces of the third abdicating grooves 502, a fluted disc 506 is fixed at one end of the third round bar 505, the fluted disc 506 is meshed with the first teeth, the other end of the third round bar 505 penetrates through the dyeing box 2 and is fixed with a rotating shaft of the first motor 202, a plurality of material turning plates 503 are fixed inside the outer frame 501, and the two sets of the second support bars 504 are respectively located in the two sets of sliding grooves;

the material receiving assembly 7 comprises a second supporting seat 701 and a second sliding block 708, a third mounting plate 704 is fixed on one surface of the second supporting seat 701, a third motor 705 is installed on the third mounting plate 704, a fourth mounting plate 711 is fixed on the other surface of the second supporting seat 701, a fourth motor 712 is installed on the fourth mounting plate 711, two sliding rods 706 are symmetrically fixed in the second supporting seat 701, a second screw rod 707 is rotatably connected in the second supporting seat 701, the second screw rod 707 is located between the two sliding rods 706, one end of the second screw rod 707 penetrates through an inner surface of the second supporting seat 701, the other end of the second screw rod 707 penetrates through the second screw rod 707 and is fixed with a rotating shaft of the fourth motor 712, the two sliding rods 706 and the second screw rod 707 respectively penetrate through the second sliding block 708, the sliding rods 706 are slidably connected with the second sliding block 708, and the second screw rod 707 is threadedly connected with the second sliding block 708, two connecting plates 709 are symmetrically fixed to the upper surface of the second sliding block 708, a semicircular sleeve 710 is fixed to the other end of each connecting plate 709, a second supporting rod 702 is connected to the second supporting seat 701 in a rotating mode, one end of the second supporting rod 702 penetrates through the second supporting seat 701 and is fixed to a rotating shaft of the third motor 705, a third outer cylinder 703 is fixed to the other end of the second supporting rod 702, the inner sleeve 16 is sleeved on the peripheral side face of the third outer cylinder 703, and the third outer cylinder 703 is located inside the semicircular sleeve 710 and shares the axis with the semicircular sleeve 710.

As further shown in fig. 8 and 10, the partition plate 8 is in a bow shape, the middle of the partition plate 8 and the dyeing box 2 form a dyeing cavity, the heating wire 9 and the baffle plate 10 are located in the dyeing cavity, and the baffle plate 10 is located right above the heating wire 9 to isolate the heating wire 9 from the cloth 13.

As further shown in fig. 8, a plurality of rotating rollers 12 are rotatably connected inside the dyeing box 2, and the plurality of rotating rollers 12 are located above two ends of the partition 8 to support the cloth 13.

As further shown in fig. 4 and 8, the drying mechanism 14 is located above one end of the partition plate 8, so as to dry the dyed cloth 13, and the cover plate 15 is located above the middle of the partition plate 8, so as to reduce heat loss and prevent dust from falling into the dyeing cavity.

As further shown in fig. 4, 5 and 8, the transmission assembly 11 includes a transmission rod 1101, two gears 1102 are symmetrically fixed on the circumferential side of the transmission rod 1101, two ends of the transmission rod 1101 penetrate through one opposite side of the dyeing box 2, the gears 1102 are engaged with the chain 6, one end of the transmission rod 1101 penetrates through the dyeing box 2 and is fixed with the rotating shaft of the second motor 204, and the second motor 204 provides power for the chain 6.

Further as shown in fig. 2 and 3, a plurality of spacing grooves 109 have been seted up to corresponding first horizontal pole 105 position department in carousel 104 surface, be equipped with first lead screw 110 on the first support seat 101, first lead screw 110 one end runs through first support seat 101 and extends to in a spacing groove 109, first support seat 101 and the threaded fit of first lead screw 110, first lead screw 110 other end is fixed with second hand wheel 111, is convenient for carry on spacingly, a plurality of to carousel 104 through rotatory second hand wheel 111 first horizontal pole 105 is circular array, seted up the chamfer on an arris of dog 106, be convenient for establish cloth 13 cover on 107 first urceolus, restrict cloth 13 simultaneously and drop.

Further as shown in fig. 7, a chamfer is formed on the limiting block 306, so that the third supporting rod 601 can be conveniently extruded to enter the first abdicating groove 302, and the traction assembly 3 can be clamped on the chain 6.

As further shown in fig. 10, the material-turning plates 503 are arranged in a linear shape, the cross sections of the material-turning plates 503 are triangular, so as to facilitate stirring of the dye solution, the gear plate 506 is fixed with a plurality of second teeth, and the included angle between adjacent teeth is 30 °, so as to facilitate the outer frame 501 to reciprocate under the power of the first motor 202.

As further shown in fig. 13 and 14, a plurality of limiting strips are fixed inside the inner sleeve 16, chamfers are formed at two ends of each limiting strip, so that the inner sleeve 16 is conveniently sleeved on the third outer cylinder 703, the limiting strips are mutually attached to the third outer cylinder 703, the left side of the semicircular sleeve 710 is mutually attached to the third outer cylinder 703, the right side of the semicircular sleeve 710 is in clearance fit with the inner sleeve 16, and the semicircular sleeve 710 is conveniently extruded from one side of the inner sleeve 16, so that the inner sleeve 16 is separated from the third outer cylinder 703.

Further, the production process of the automatic printing and dyeing equipment for fabric processing comprises the following steps:

SS001, dye feeding and processing, firstly feeding a prepared dye solution into a dyeing cavity, then heating the dye solution in the dyeing cavity through an electric heating wire 9, keeping the dye solution at a certain temperature which is the optimal temperature for dyeing, simultaneously starting a first motor 202, enabling an outer frame 501 to reciprocate in the dyeing cavity through the meshing action of a fluted disc 506 and a first tooth, and enabling the dye solution in the dyeing cavity to be stirred through a material stirring plate 503 by the reciprocating outer frame 501 so as to be uniform in density;

SS002, feeding, then rotating the first hand wheel 103 to enable the axis of the first cross rod 105 to coincide with the axis of the semi-arc surface at the top of the feeding frame 108, then rotating the second hand wheel 111 to enable one end of the first screw rod 110 to enter the limiting groove 109 and lock the turntable 104, then sequentially sleeving the cloth 13 to be colored on the first outer cylinder 107 through the feeding frame 108, and repeating the steps to finish feeding;

SS003, dyeing, namely, firstly locking the rotating disc 104 by rotating the second hand wheel 111, then pulling one end of the cloth 13 out, feeding the cloth 13 into the cloth through the first clamping block 309, the second clamping block 310 and the fastener 311, fixing the cloth on the traction assembly 3, then clamping the traction assembly 3 on the two chains 6, starting the second motor 204, driving the two chains 6 under the traction of the transmission assembly 11, and simultaneously driving the two chains 6 to pull the traction assembly 3 on the chains to enter the dyeing cavity from one end of the partition plate 8 to finish dyeing;

SS004, drying, wherein after dyeing is completed, the two driving chains 6 can also pull the traction assembly 3 on the chains to leave the dyeing cavity and penetrate through the two rollers 402 on the wringing assembly 4, the two rollers 402 can extrude the cloth 13 from two sides under the action of the second spring 406 to remove redundant dye on the cloth 13, and then the cloth passes through the drying mechanism 14 under the traction of the chains 6 to complete drying;

SS005, material receiving and discharging, wherein the dried cloth 13 leaves the drying mechanism 14 under the traction of the chain 6, then the second motor 204 is closed, the chain 6 stops transmission, the traction assembly 3 is taken down from the chain 6, next, the compression on one end of the cloth 13 is released through the fastening piece 311, then one end of the cloth 13 is wound on the inner sleeve 16, the third motor 705 is started, the third motor 705 can pull the cloth 13 and collect the cloth 13 through the inner sleeve 16, after the collection is finished, the fourth motor 712 is started, the fourth motor 712 pulls the semicircular sleeve 710 to one side of the fourth motor 712 through the second screw rod 707, the inner sleeve 16 is separated from the third outer cylinder 703, the separated inner sleeve 16 falls into the semicircular sleeve 710, then the inner sleeve 16 is taken out, and the material receiving and discharging are finished.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides an automatic printing and dyeing equipment for surface fabric processing which characterized in that: comprises a dyeing box body (2), a traction assembly (3), cloth (13) and an inner sleeve (16), wherein a first mounting plate (201) and a second mounting plate (203) are fixed on one surface of the dyeing box body (2), a first motor (202) is installed on the first mounting plate (201), a second motor (204) is installed on the second mounting plate (203), a partition plate (8), an electric heating wire (9) and a baffle (10) are fixed in the dyeing box body (2), a plurality of transmission assemblies (11) are rotatably connected in the dyeing box body (2), the transmission assemblies (11) are distributed around the partition plate (8), the transmission assemblies (11) are transmitted through two chains (6), a plurality of third supporting rods (601) are fixed on one side of each chain (6), a water squeezing assembly (4) and a vibration assembly (5) are arranged in the dyeing box body (2), two sliding grooves are symmetrically formed in one opposite side face of the dyeing box body (2), a drying mechanism (14) and a cover plate (15) are fixed on the upper surface of the dyeing box body (2), a feeding assembly (1) is arranged on one side, far away from the drying mechanism (14), of the dyeing box body (2), and a material receiving assembly (7) is arranged on one side, close to the drying mechanism (14), of the dyeing box body (2);

the feeding assembly (1) comprises a first supporting seat (101), a feeding frame (108) is fixed at one end of the first supporting seat (101), the first supporting seat (101) is rotatably connected with a first supporting rod (102), one end of the first supporting rod (102) sequentially penetrates through the first supporting seat (101) and one surface of the feeding rack (108), a first hand wheel (103) is fixed at the other end of the first supporting rod (102), a turntable (104) is fixedly sleeved on the peripheral side surface of the first supporting rod (102), a plurality of first cross bars (105) are fixed on the peripheral side surface of the turntable (104), a first outer cylinder (107) is sleeved on the peripheral side surface of the first cross bar (105), the first cross bar (105) and the first outer cylinder (107) are mutually attached, a stop block (106) is fixed at the other end of the first cross bar (105), and the cloth (13) is sleeved on the peripheral side surface of the first outer cylinder (107);

traction assembly (3) includes two cylinder pieces (301), two sets of first slider (305) and second clamp splice (310), two cylinder piece (301) is connected through the connecting rod, connecting rod week side is rotated and is connected with second urceolus (308), second urceolus (308) week side is fixed with first clamp splice (309), first clamp splice (309) and second clamp splice (310) are connected through fastener (311), cloth (13) one end is located between first clamp splice (309) and second clamp splice (310), first groove (302) of stepping down has been seted up on cylinder piece (301) one surface, two second groove (303) have been seted up to cylinder piece (301) week side symmetry, two first slider (305) are located two second groove (303) of stepping down respectively, two first slider (305) a surface all is fixed with first round bar (304), two first round bar (304) run through second groove (303) of stepping down respectively and extend to first groove (303) of stepping down (303) inner wall of stepping down to first round bar (304) 302) The other end of the first round rod (304) is fixed with a limiting block (306), a first spring (307) is sleeved on the side surface of the first round rod (304), one end of the first spring (307) is attached to an inner wall of the first abdicating groove (302), the other end of the first spring (307) is attached to the limiting block (306), the two limiting blocks (306) are attached to each other, the third supporting rod (601) is located in the first abdicating groove (302), and the third supporting rod (601) is attached to the two limiting blocks (306);

the water squeezing component (4) comprises two squeezing rollers (401), the peripheral sides of the squeezing rollers (401) are rotatably connected with rollers (402), first supporting rods (403) are fixed at two ends of each squeezing roller (401), a connecting block (404) is fixed at the other end of each first supporting rod (403), a second round rod (405) is fixed on one surface of each connecting block (404), the other end of each second round rod (405) penetrates through the inner surface of the dyeing box body (2) and is rotatably connected with the dyeing box body (2), a second spring (406) is sleeved on the peripheral side of each second round rod (405), one end of each second spring (406) is fixed on one surface of each connecting block (404), the other end of each second spring (406) is fixed on one inner wall of the dyeing box body (2), and the rollers (402) are attached to each other; two groups of second round rods (405) are symmetrically distributed on two sides of the chain (6);

the oscillating assembly (5) comprises an outer frame (501) and a third round rod (505), wherein a third abdicating groove (502) is formed in one opposite side surface of the outer frame (501), two second supporting rods (504) are symmetrically fixed on the inner surface of the third abdicating groove (502), first teeth are formed in one opposite inner surface of the third abdicating groove (502), a fluted disc (506) is fixed at one end of the third round rod (505), the fluted disc (506) is meshed with the first teeth, the other end of the third round rod (505) penetrates through the dyeing box body (2) and is fixed with a rotating shaft of the first motor (202), a plurality of material turning plates (503) are fixed inside the outer frame (501), and the two groups of second supporting rods (504) are respectively located in the two groups of sliding grooves;

the material receiving assembly (7) comprises a second supporting seat (701) and a second sliding block (708), a third mounting plate (704) is fixed on one surface of the second supporting seat (701), a third motor (705) is installed on the third mounting plate (704), a fourth mounting plate (711) is fixed on the other surface of the second supporting seat (701), a fourth motor (712) is installed on the fourth mounting plate (711), two sliding rods (706) are symmetrically fixed in the second supporting seat (701), a second lead screw (707) is rotationally connected in the second supporting seat (701), the second lead screw (707) is located between the two sliding rods (706), one end of the second lead screw (707) penetrates through an inner surface of the second supporting seat (701), the other end of the second lead screw (707) penetrates through the second lead screw (707) and is fixed with a rotating shaft of the fourth motor (712), the two sliding rods (706) and the second lead screw (707) respectively penetrate through the second sliding block (708), the sliding rod (706) is in sliding connection with the second sliding block (708), the second lead screw (707) is in threaded connection with the second sliding block (708), two connecting plates (709) are symmetrically fixed on the upper surface of the second sliding block (708), a semicircular sleeve (710) is fixed to the other end of each connecting plate (709), a second supporting rod (702) is rotatably connected to the second supporting seat (701), one end of the second supporting rod (702) penetrates through the second supporting seat (701) and is fixed to a rotating shaft of a third motor (705), a third outer cylinder (703) is fixed to the other end of the second supporting rod (702), the inner sleeve (16) is sleeved on the peripheral side face of the third outer cylinder (703), and the third outer cylinder (703) is located inside the semicircular sleeve (710) and is coaxial with the semicircular sleeve (710).

2. The automatic printing and dyeing equipment for fabric processing according to claim 1, characterized in that the partition (8) is in a bow shape, the middle part of the partition (8) and the dyeing box body (2) form a dyeing cavity, the heating wire (9) and the baffle (10) are positioned in the dyeing cavity, and the baffle (10) is positioned right above the heating wire (9).

3. An automatic printing and dyeing device for fabric processing according to claim 1, characterized in that a plurality of rotating rollers (12) are rotatably connected inside the dyeing box body (2), and a plurality of rotating rollers (12) are positioned above two ends of the partition plate (8).

4. An automatic printing and dyeing device for fabric processing according to claim 1, characterized in that the drying mechanism (14) is located above one end of the partition (8) and the cover plate (15) is located above the middle of the partition (8).

5. An automatic printing and dyeing device for fabric processing according to claim 1, characterized in that the transmission assembly (11) comprises a transmission rod (1101), two gears (1102) are symmetrically fixed on the peripheral side of the transmission rod (1101), two ends of the transmission rod (1101) penetrate through one opposite side of the dyeing box body (2), the gears (1102) are meshed with the chain (6), and one end of the transmission rod (1101) penetrates through the dyeing box body (2) and is fixed with the rotating shaft of the second motor (204).

6. The automatic printing and dyeing equipment for fabric processing according to claim 1, wherein a plurality of limiting grooves (109) are formed in one surface of the rotary table (104) at positions corresponding to the first cross rods (105), a first screw rod (110) is arranged on the first support base (101), one end of the first screw rod (110) penetrates through the first support base (101) and extends into one limiting groove (109), the first support base (101) is in threaded fit with the first screw rod (110), a second hand wheel (111) is fixed to the other end of the first screw rod (110), the first cross rods (105) are in a circular array, and a chamfer is formed on one edge of the stop block (106).

7. The automatic printing and dyeing equipment for fabric processing according to claim 1, wherein a chamfer is formed on the limiting block (306).

8. The automatic printing and dyeing equipment for fabric processing according to claim 1, wherein a plurality of the material turning plates (503) are arranged in a linear manner, the cross sections of the material turning plates (503) are triangular, a plurality of second teeth are fixed on the toothed disc (506), and the included angle between every two adjacent teeth is 30 degrees.

9. The automatic printing and dyeing equipment for fabric processing according to claim 1, characterized in that a plurality of limiting strips are fixed inside the inner sleeve (16), both ends of each limiting strip are provided with chamfers, the limiting strips are mutually attached to the third outer cylinder (703), the left side of the semicircular sleeve (710) is mutually attached to the third outer cylinder (703), and the right side of the semicircular sleeve (710) is in clearance fit with the inner sleeve (16).

10. The production process of the automatic printing and dyeing equipment for fabric processing according to any one of claims 1 to 9, characterized by comprising the following steps:

SS001, dye feeding and treatment, firstly feeding a prepared dye solution into a dyeing cavity, then heating the dye solution in the dyeing cavity through an electric heating wire (9), keeping the dye solution at a certain temperature which is the optimal temperature for dyeing, simultaneously starting a first motor (202), enabling an outer frame (501) to reciprocate in the dyeing cavity through the meshing action of a fluted disc (506) and a first tooth, and stirring the dye solution in the dyeing cavity through a material turning plate (503) by the reciprocating outer frame (501) so as to enable the density of the dye solution to be uniform;

SS002, feeding, then rotating a first hand wheel (103) to enable the axis of a first cross rod (105) to coincide with the axis of a semi-arc surface at the top of a feeding frame (108), then rotating a second hand wheel (111) to enable one end of a first screw rod (110) to enter a limiting groove (109) and lock a rotary table (104), then sequentially sleeving cloth (13) to be colored on a first outer cylinder (107) through the feeding frame (108), and repeating the steps to complete feeding;

SS003, dyeing, namely, firstly locking the rotating disc (104) by rotating the second hand wheel (111), then pulling one end of the cloth (13) out, feeding the cloth (13) through the first clamping block (309), the second clamping block (310) and the fastener (311) and fixing the cloth on the traction assembly (3), then clamping the traction assembly (3) on the two chains (6), starting the second motor (204), driving the two chains (6) under the traction of the transmission assembly (11), and simultaneously driving the two chains (6) to pull the traction assembly (3) on the two chains to enter the dyeing cavity from one end of the partition plate (8) to finish dyeing;

SS004 and drying, wherein after dyeing is finished, the two driving chains (6) can simultaneously pull the traction assembly (3) on the chains to leave the dyeing cavity and penetrate through the two rollers (402) on the wringing assembly (4), the two rollers (402) can extrude the cloth (13) from two sides under the action of a second spring (406) to remove redundant dye on the cloth (13), and then the cloth passes through the drying mechanism (14) under the traction of the chains (6), so that drying is finished;

SS005, material receiving and discharging, the dried cloth (13) leaves the drying mechanism (14) under the traction of the chain (6), then the second motor (204) is closed, the chain (6) stops transmission, the traction component (3) is taken down from the chain (6), next, the compaction on one end of the cloth (13) is released through a fastener (311), then one end of the cloth (13) is wound on the inner sleeve (16), the third motor (705) is started, the third motor (705) can pull the cloth (13) and collect the cloth (13) through the inner sleeve (16), after the collection is finished, the fourth motor (712) is started, the fourth motor (712) pulls the semicircular sleeve (710) to one side of the fourth motor (712) through a second screw rod (707), the inner sleeve (16) is separated from the third outer sleeve (703), and the separated inner sleeve (16) can fall into the semicircular sleeve (710), then the inner sleeve (16) is taken out to finish the material receiving and discharging.