CN115369596A

CN115369596A - Intelligent transversely-opening high-temperature and high-pressure dyeing machine

Info

Publication number: CN115369596A
Application number: CN202210973594.9A
Authority: CN
Inventors: 刘俊华
Original assignee: Wuxi Yongli Printing & Dyeing Equipment Co ltd
Current assignee: Jiangsu Ainuoli Intelligent Equipment Co ltd; Wuxi Yongli Printing & Dyeing Equipment Co ltd
Priority date: 2022-08-15
Filing date: 2022-08-15
Publication date: 2022-11-22
Anticipated expiration: 2042-08-15
Also published as: CN115369596B

Abstract

The invention relates to an intelligent transversely-opening high-temperature and high-pressure dyeing machine which comprises a dyeing cylinder body, wherein a retaining ring shell is arranged in the middle of the dyeing cylinder body, an adjusting component is arranged at the lower end of the dyeing cylinder body, a feeding hole and a discharging hole are fixedly arranged on the outer side of the upper part of the dyeing cylinder body, the feeding hole is formed in one side of the discharging hole, a supporting plate is arranged on the side surface of the discharging hole, a winding component and a transmission component are arranged on the supporting plate, and the winding component is arranged on one side of the transmission component. The sliding plate slides and sets up in the second guide way, at this moment under the fixed supplementary bull stick effect that is provided with in rolling axle one side, can make the first motor of rolling axle and one side overcome spring force and take place to remove, when the rolling axle removes to second guide way department, the rolling axle rolling is to the greatest extent, stops at this moment to stop the rolling axle, take off along the second guide way can, easy operation is convenient, labour saving and time saving.

Description

Intelligent transversely-opening high-temperature and high-pressure dyeing machine

Technical Field

The invention relates to the technical field of dyeing machines, in particular to an intelligent transverse-opening high-temperature and high-pressure dyeing machine.

Background

The dyeing machine is made of stainless steel, has the advantages of no noise, convenient speed regulation and the like due to mechanical speed regulation, and is suitable for linen, cotton, rayon, blended seamless underwear, silk stockings, silk and the like. The dyeing liquid is stirred in the positive and negative directions of the blade, so that the dyed object is in a floating dyeing state, the dyeing is uniform, the permeability is strong, and the dyed object is not easy to damage.

The existing dyeing machine adopts a discharging mode that textile fabrics after dyeing are conveyed and stacked to a square box through a transmission shaft, and when the textile fabrics are processed on the next step, the existing dyeing machine is very inconvenient, and the dyeing space of a dyeing cylinder body of the traditional dyeing machine can not be adjusted. When the amount of the textile to be dyed is small and the internal dyeing space is still large, the condition of resource waste occurs, which is not beneficial to use.

In order to solve the problems, the invention provides an intelligent transverse-opening high-temperature and high-pressure dyeing machine.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the problems in the prior art, adapt to the practical requirements and provide an intelligent horizontal opening door high-temperature high-pressure dyeing machine so as to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows: the utility model provides an intelligence is high temperature high pressure dyeing machine of opening a door violently, includes the dyeing cylinder body, the middle part of dyeing cylinder body is provided with the retaining ring shell, the lower extreme of dyeing cylinder body is equipped with adjusting part, the fixed feed inlet and the discharge gate that is provided with in the upper portion outside of dyeing cylinder body, the feed inlet sets up in one side of discharge gate, the side of discharge gate is provided with the extension board, is provided with rolling subassembly and drive assembly on this extension board, and this rolling subassembly sets up in one side of drive assembly.

Preferentially, one side of cylinder body and the junction of keeping the casing are provided with first arc wall and second arc wall, and this second arc wall sets up in one side of first arc wall, keep the inside bending of casing outer wall, the inner wall is outer crooked, and inner wall and outer wall are the ellipse.

Preferentially, the adjusting part includes the base, and the downside of dyeing cylinder body is located to this base, the both sides of base are provided with support piece, and this support piece extends to the lower surface of dyeing cylinder body, the fixed hydraulic ram that is provided with in middle part of base, the one end of this hydraulic ram is fixed to be set up on the base, and the other end sets up in the lower surface of dyeing cylinder body.

Preferentially, the discharge gate exit end is provided with the buckle closure, and the one end of this buckle closure is rotated and is set up in one side of discharge gate, and the one end is rotated and is provided with the arc, slides on this arc and is provided with the limiting plate, has seted up threaded hole on this limiting plate, set up the pilot hole on the arc, this pilot hole internal rotation is provided with the transfer line, and this transfer line runs through pilot hole and screw hole.

Preferably, the support plate comprises an upper support plate and a lower support plate, the upper support plate is arranged on the upper side of the lower support plate, the upper support plate is provided with a first guide groove and a second guide groove, the first guide groove is horizontally formed, and the second guide groove is vertically formed.

Preferably, the winding assembly comprises a first slider, the first slider is slidably arranged in the lower support plate, a support block is arranged on the upper surface of the first slider in a swinging mode, a winding shaft is rotatably arranged at the upper end of the support block, one end of the winding shaft is rotatably arranged on the upper side of the support block, the other end of the winding shaft extends into the first guide groove, and an auxiliary rotating rod is arranged on one side of the winding shaft.

Preferably, the transmission assembly includes a sliding plate, the sliding plate is slidably disposed in the second guide groove, the two end portions of the sliding plate are provided with first motors, the middle portion of the sliding plate is provided with a second motor, one side of the sliding plate is provided with a spring, a rotating shaft of the first motor is provided with a first friction wheel, one side of the first friction wheel is provided with a second friction wheel, the second friction wheel is fixedly disposed on the winding shaft, and a rotating shaft of the second motor is provided with an auxiliary assembly.

Preferably, the auxiliary assembly comprises a support column, an auxiliary slide bar is slidably arranged in the support column, a rolling ball is arranged at the end of the auxiliary slide bar, and a slider-crank mechanism is arranged between the auxiliary slide bar and the second motor.

Preferentially, slider-crank mechanism with be equipped with the slip subassembly between the supplementary slide bar, the slip subassembly is including the fixed rectangle side pipe that sets up in slider-crank mechanism, but rectangle side intraductal is provided with a reciprocating motion's rectangle pole, supplementary slide bar and rectangle pole fixed connection, the rectangle pole with fixed extension spring that is provided with between the rectangle side pipe bottom, rectangle side pipe is close to the one end of extension spring sets up to the inclined plane, the inclined plane is close to the one end of extension spring is provided with the triangle fixture block, rectangle side pipe's inside upside be provided with one with triangle fixture block matched with triangular groove, one side that supplementary slide bar is close to the rolling axle is provided with an arcwall face.

Preferentially, the middle part of the winding shaft is hollow, and the outer wall of the winding shaft is provided with a through hole.

(3) Has the advantages that:

A. when the dyeing cylinder body moves towards the middle part retaining ring shell through the adjusting assembly, the inner wall of the retaining ring shell is bent outwards from the middle part to form a certain angle, and the retaining ring shell can be firmly extruded together, so that the sealing effect is finally realized;

B. this adjusting part sets up in the downside of dyeing cylinder body, and dyeing machine during operation, if the fabric that needs the dyeing is not many when, start adjusting part and make wherein hydraulic ram action to drive the dyeing cylinder body of connecting above that and move to retaining ring shell department, finally realize dwindling of dwindling dyeing cylinder body inner space, make the heating save time more economize on energy. When the textile that needs processing dyeing is more, start adjusting part and remove the dyeing cylinder body to both ends again, realize the increase of inner space promptly, improve the efficiency of processing dyeing. The arrangement of the adjusting component realizes the adjustment of the internal space of the dyeing cylinder body, and greatly improves the practicability;

C. the discharge port is rotatably provided with the buckle cover, when the buckle cover is fastened, the arc-shaped plate is put down, the limiting plate is placed below the edge of the discharge port, then the transmission rod is rotated, the transmission rod rotates and enables the limiting plate to move upwards through the threaded hole in the end part of the limiting plate, the limiting plate moves upwards along the axis direction of the transmission rod and can abut against the lower side of the edge of the discharge port, the transmission rod is rotated again, the limiting plate cannot move again, the buckle cover is closed, the structure replaces the traditional mode that the cover body is closed through screwing a plurality of threads, the operation is simplified, time and labor are saved, and the production efficiency is facilitated;

D. in the winding assembly, a winding shaft is rotatably arranged on a supporting block, after the textile is dyed by the dyeing machine, the dyed textile is conveyed and accumulated into a square box through a transmission shaft in a traditional discharging mode, when the textile is treated in the next step, the textile is very inconvenient, and the dyed textile can be regularly wound by the winding shaft through the rotation of a transmission assembly, so that the textile is beneficial to the subsequent processing treatment;

E. the first motor is started, the rotation direction of the first motor is clockwise, the winding shaft is driven by the first friction wheel to rotate to wind the textile, the diameter of the winding shaft is gradually increased until the textile wound on the winding shaft is contacted with the auxiliary rotating rod while the textile is wound, meanwhile, the spring is arranged on one side of the first motor, certain elastic force is applied to the textile, the winding shaft is enabled to be extruded through the winding shaft and the auxiliary rotating rod when the textile is wound, a large amount of water in the textile can be discharged in the process, the dyeing quality can be guaranteed, and the textile can be wound neatly to facilitate follow-up reprocessing. When the action is carried out, the winding shaft pushes against the first motor on one side of the winding shaft and the auxiliary assembly fixedly arranged on the sliding plate to move so as to overcome the elastic force of the spring, when the winding shaft moves to the second guide groove, the winding shaft is wound to the maximum and one side of the winding shaft loses support, at the moment, the winding shaft automatically falls down along the second guide groove due to the fact that the first motor rotates clockwise, and therefore the winding shaft which is wound is removed;

F. the fabric is mostly banded, when dyeing the fabric, can't guarantee its roughness, the condition of partial folding together can appear, lead to fabric part thickness uneven, the width is irregular, consequently when rolling the fabric, the winding shaft phenomenon that rolling thickness is different everywhere can appear, during this auxiliary assembly operation, at first place spin department with the fabric, the back starts the second motor, when the second motor starts rotatoryly, make supplementary slide bar reciprocate through slider-crank mechanism, and simultaneously, the fabric also is driven, this result is not only extremely effectual has improved this drawback that winding shaft rolling thickness is inhomogeneous, and when the mechanism reciprocated, can also extrude part moisture in the fabric and flow out from the through-hole.

Drawings

FIG. 1 is a schematic perspective view of an intelligent horizontal opening high-temperature high-pressure dyeing machine according to the present invention;

FIG. 2 is a schematic structural view of another angle of the intelligent horizontal opening high-temperature high-pressure dyeing machine according to the present invention;

FIG. 3 is a cross-sectional view of an intelligent cross-opening high temperature and high pressure dyeing machine of the present invention;

fig. 4 is a schematic structural diagram of the intelligent horizontal opening door high-temperature high-pressure dyeing machine at a position A in fig. 3;

fig. 5 is a schematic structural view of another angle at B in fig. 4 of the intelligent horizontal door high temperature and high pressure dyeing machine according to the present invention;

FIG. 6 is a cross-sectional view of an intelligent cross-opening high-temperature high-pressure dyeing machine of the present invention;

FIG. 7 is another angular cross-sectional view of an intelligent cross-door high temperature and high pressure dyeing machine of the present invention;

fig. 8 is a schematic structural view of a second guide groove of the intelligent horizontally-opening high-temperature and high-pressure dyeing machine of the invention;

FIG. 9 is a schematic view of the sliding assembly of the present invention.

The reference numbers are as follows:

1-dyeing cylinder body, 11-feeding inlet, 12-first arc-shaped wall, 13-second arc-shaped wall, 2-retaining ring shell, 3-adjusting component, 31-base, 32-supporting piece, 33-hydraulic jack, 4-discharging outlet, 41-buckle cover, 42-arc-shaped plate, 43-limiting plate, 431-threaded hole, 44-assembly hole, 45-rotating rod, 5-supporting plate, 51-upper supporting plate, 511-first guide groove, 512-second guide groove, 52-lower supporting plate, 6-winding component, 61-first sliding block, 62-supporting plate, 63-winding shaft, 631-through hole, 64-auxiliary rotating rod, 7-transmission component, 71-sliding plate, 72-first motor, 721-first friction wheel, 722-second friction wheel, 73-second motor, 74-spring, 8-auxiliary component, 81-supporting column, 82-auxiliary sliding rod, 83-rolling ball, 84-crank sliding block mechanism.

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.

The invention will be further illustrated with reference to the following figures 1 to 9 and examples:

in this embodiment, as shown in fig. 1 to 9, an intelligent horizontal opening door high-temperature high-pressure dyeing machine includes a dyeing cylinder body 1, a retaining ring casing 2 is disposed in the middle of the dyeing cylinder body 1, an adjusting component 3 is disposed at the lower end of the dyeing cylinder body 1, a feed inlet 11 and a discharge outlet 4 are fixedly disposed on the outer side of the upper portion of the dyeing cylinder body 1, the feed inlet 11 is disposed on one side of the discharge outlet 4, a support plate 5 is disposed on the side surface of the discharge outlet 4, a winding component 6 and a transmission component 7 are disposed on the support plate 5, and the winding component 6 is disposed on one side of the transmission component 7. The fabric that will dye is put into along feed inlet 11, and the back that finishes of dyeing opens the 4 ejection of compact of discharge gates, and on rolling subassembly 6 was arranged in to the back with the fabric, back start-up drive assembly 7 made rolling subassembly 6 rotation carry out the rolling.

The connection part of one side of the cylinder body 1 and the holding shell 2 is provided with a first arc-shaped wall 12 and a second arc-shaped wall 13, the second arc-shaped wall 13 is arranged on one side of the first arc-shaped wall 12, the outer wall of the holding shell 2 is inwards bent, the inner wall is outwards bent, and the inner wall and the outer wall are oval. One side of cylinder body 1 is provided with first arc wall 12 and second arc wall 13, wherein second arc wall 13 is crooked to the cylinder body, be certain inclination, when dyeing cylinder body 1 moves to middle part retaining ring shell 2 through adjusting part 3, because retaining ring shell 2 inner wall is certain angle by the outside bending in middle part, the two just can be firmly extruded together, finally realize sealed effect, and it is better to compare in the sealed effect of traditional rubber ring sealing mode, and is same, when dyeing cylinder body 1 moves dyeing cylinder body 1 inner space increase to both ends through adjusting part 3, this first arc wall 12 can cooperate with retaining ring shell 2, realize sealed effect, prevent the outflow of dyeing liquid, the influence is to the dyeing of fabric.

The adjusting assembly 3 comprises a base 31, the base 31 is arranged at the lower side of the dyeing cylinder 1, two sides of the base 31 are provided with supporting pieces 32, the supporting pieces 32 extend to the lower surface of the dyeing cylinder 1, the middle part of the base 31 is fixedly provided with a hydraulic ram 33, one end of the hydraulic ram 33 is fixedly arranged on the base 31, and the other end of the hydraulic ram 33 is arranged at the lower surface of the dyeing cylinder 1. This adjusting part 3 sets up in the downside of dyeing cylinder body 1, and the dyeing machine during operation, if the fabric that needs the dyeing is not many, start adjusting part 3 and make wherein hydraulic ram 33 action to the dyeing cylinder body 1 that drives it and connect moves to holding ring shell 2 department, finally realizes dwindling of dwindling dyeing cylinder body 1 inner space, makes the heating save time more energy. When the textile that needs processing dyeing is more, start adjusting part 3 and remove dyeing cylinder body 1 to both ends again, realize the increase of inner space promptly, improve the efficiency of processing dyeing. This adjusting part 3's setting has realized the regulation to 1 inner space of dyeing cylinder body, has improved its practicality greatly.

The outlet end of the discharge port 4 is provided with a buckle cover 41, one end of the buckle cover 41 is rotatably arranged on one side of the discharge port 4, one end of the buckle cover 41 is rotatably arranged on an arc plate 42, a limiting plate 43 is slidably arranged on the arc plate 42, a threaded hole 431 is formed in the limiting plate 43, an assembly hole 44 is formed in the arc plate 42, a transmission rod 45 is rotatably arranged in the assembly hole 44, and the transmission rod 45 penetrates through the assembly hole 44 and the threaded hole 431. Rotate on the discharge gate 4 and be provided with buckle closure 41, during this buckle closure 41 straining, put down arc 42, make limiting plate 43 arrange 4 mouths of discharge gate edge down in, then rotatory transfer line 45, transfer line 45 is rotatory and make limiting plate 43 upwards move through the screw hole 431 of limiting plate 43 tip, limiting plate 43 shifts up along transfer line 45 axis direction, can support 4 mouths of discharge gate edge downside, rotatory transfer line 45 again, limiting plate 43 can not take place the removal again, buckle closure 41 is closed, the setting of this structure has replaced traditional screwing through a plurality of threads and has realized the closure of lid, the operation is simplified, time saving and labor saving, be of value to production efficiency.

The support plate 5 comprises an upper support plate 51 and a lower support plate 52, the upper support plate 51 is arranged on the upper side of the lower support plate 52, the upper support plate 51 is provided with a first guide groove 511 and a second guide groove 512, the first guide groove 511 is horizontally arranged, and the second guide groove 512 is vertically arranged. The contact position of the upper support plate 51 and the cylinder body 1 is not fixed, and the upper support plate 51 and the lower support plate 52 are in movable contact, so that the implementation of the invention is ensured.

The winding assembly 6 comprises a first sliding block 61, the first sliding block 61 is slidably disposed in the lower support plate 52, a support block 62 is disposed on the upper surface of the first sliding block 61 in a swinging manner, a winding shaft 63 is rotatably disposed at the upper end of the support block 62, one end of the winding shaft 63 is rotatably disposed on the upper side of the support block 62, the other end of the winding shaft extends into the first guide slot 511, and an auxiliary rotating rod 64 is disposed on one side of the winding shaft 63. Winding shaft 63 rotates and sets up on supporting shoe 62 in this winding subassembly 6, and the dyeing machine dyes the back that finishes to the fabric, and traditional ejection of compact mode does, and the fabric after finishing dyeing passes through the transmission axle, carries to pile up to a square incasement, when carrying out processing on next step to the fabric, and is very inconvenient, and winding shaft 6 pass through transmission assembly 7 rotatory, can get up the regular rolling of the fabric after finishing dyeing, is of value to carrying out the processing that comes next to the fabric.

The transmission assembly 7 includes a sliding plate 71, the sliding plate 71 is slidably disposed in the second guide slot 512, the two ends of the sliding plate 71 are provided with a first motor 72, the middle of the sliding plate 71 is provided with a second motor 73, one side of the sliding plate 71 is provided with a spring 74, a rotating shaft of the first motor 72 is provided with a first friction wheel 721, one side of the first friction wheel 721 is provided with a second friction wheel 722, the second friction wheel 722 is fixedly disposed on the winding shaft 63, and the rotating shaft of the second motor 73 is provided with an auxiliary assembly 8. The sliding plate 71 is slidably disposed in the second guiding slot 512, and a spring 74 at one end of the sliding plate applies an elastic force to the sliding plate, so that the first friction wheel 721 on the rotating shaft of the first motor 72 fixedly disposed on the sliding plate 71 is tightly contacted with the second friction wheel 722 to achieve a transmission effect. The first motor 72 is started, the rotation direction of the first motor is clockwise, then the first friction wheel 721 drives the winding shaft 63 to rotate to wind the textile, when the textile is wound, the diameter of the winding shaft 63 is gradually increased until the textile wound thereon is contacted with the auxiliary rotating rod 64, meanwhile, the spring 74 is arranged on one side of the first motor 72 to apply certain elasticity to the textile, so that when the textile is wound by the winding shaft 63, the textile is firstly extruded by the winding shaft 63 and the auxiliary rotating rod 64, a large amount of moisture in the textile can be discharged in the process to ensure the dyeing quality, and the textile can be wound neatly to facilitate subsequent reprocessing. When the action is carried out, the winding shaft 63 abuts against the first motor 72 on one side of the winding shaft and the auxiliary assembly 8 fixedly arranged on the sliding plate 71 moves to overcome the elastic force of the spring 74, when the winding shaft 63 moves to the second guide groove 512, the winding shaft 63 is wound to the maximum and one side of the winding shaft loses support, at the moment, the winding shaft 63 can fall down along the second guide groove 512 automatically due to the fact that the first motor 72 rotates clockwise, the winding shaft wound completely is discharged, the action is automatically achieved through the diameter of the winding shaft 63 which is continuously increased in the winding process, independent operation is not needed, the watching is convenient, and time and labor are saved.

The auxiliary assembly (8) comprises a supporting column (81), an auxiliary sliding rod (82) is arranged in the supporting column (81) in a sliding mode, a rolling ball (83) is arranged at the end portion of the auxiliary sliding rod (82), and a crank-slider mechanism (84) is arranged between the auxiliary sliding rod (82) and the second motor (73).

Crank block mechanism (84) with be equipped with the slip subassembly between supplementary slide bar (82), the slip subassembly is including fixed rectangle side pipe 821 that sets up on crank block mechanism (84), rectangle side pipe 821 is provided with a reciprocating motion's rectangle pole 820 in the intraductal rectangle, supplementary slide bar (82) and rectangle pole 820 fixed connection, rectangle pole 820 with fixed extension spring 822 that is provided with between rectangle side pipe 821 bottom, rectangle side pipe 821 is close to the one end of extension spring 822 sets up to inclined plane 827, inclined plane 827 is close to the one end of extension spring 822 is provided with triangle fixture block 824, rectangle side pipe 821's inside upside be provided with one with triangle groove 823 that triangle fixture block 824 matched with, supplementary slide bar 82 is close to one side of rolling axle 63 and is provided with an arcwall face 828. The fabric is mostly in a strip shape, when dyeing the fabric, the smoothness of the fabric cannot be guaranteed, the situation that parts of the fabric are folded together can occur, the thickness of the fabric is uneven, the width is irregular, therefore, when the fabric is rolled up, the phenomenon that the rolling thickness of each part of the rolling shaft 63 is different can occur, when the auxiliary assembly 8 is operated, the fabric is firstly placed at the rolling ball, and then the second motor 73 is started, wherein the crank block mechanism 84 on one side of the second motor 73 is composed of a rotary disc 874 fixedly arranged at the front end of the rotary shaft of the second motor 73 and a connecting rod 825 rotatably arranged on one side of the rotary disc (a rectangular square tube 821 is fixedly connected with the connecting rod 825), the supporting column 81 is provided with a sliding groove facing one side of the connecting rod 825, the connecting rod 825 is provided with a limiting part 826, the limiting part 826 can reciprocate in the sliding groove, so as to drive the rotary rod 825 to reciprocate, when the second motor 73 is started to rotate, the auxiliary sliding rod 82 can move up and down through the crank block mechanism 84, and at the same time, the fabric is also driven, the result, the defect that the rolling shaft 63 is uneven in thickness is greatly improved, and the moisture can flow out from the through hole 631. The auxiliary sliding rod 82 can be pushed by the winding shaft 63 along with the movement of the winding shaft 63 through the arrangement of 822, so that the textile of the auxiliary sliding rod 82 and the winding shaft 63 can be attached all the time, a good extrusion effect is achieved, and the winding shaft 63 is prevented from being blocked by the auxiliary sliding rod 82 when moving; set up through inclined plane 827 can let rolling axle 63 rolling lose to at most and one side and support when will falling down, can let rectangular rod 820 and supplementary slide bar 82 follow overturn downwards, cooperation through triangle fixture block 824 and triangular groove 823 can let supplementary slide bar 82 blocked in the downward sloping state but incompletely overturn, thereby can be under the cooperation of arcwall face 828, let the rolling axle blocked in the sloping state, thereby can be convenient for artifical the receipts material, when avoiding the rolling axle to drop on ground completely, let partial textile break away from rolling axle 63 and need again this partial textile rolling when dropping, also avoid the filth pollution textile on ground.

The middle of the winding shaft 63 is hollow, and the outer wall of the winding shaft is provided with a through hole 631. The fabric after dyeing mostly has more moisture, and rolling axle 63 middle part cavity, and the through-hole 631 is seted up to the outer wall is favorable to the discharge of fabric moisture on the rolling axle.

The invention has the beneficial effects that:

when the dyeing cylinder body 1 moves towards the middle retaining ring shell 2 through the adjusting component 3, because the inner wall of the retaining ring shell 2 bends outwards from the middle to form a certain angle, the retaining ring shell 2 and the retaining ring shell can be firmly extruded together, and finally the sealing effect is realized;

the adjusting component 3 is arranged at the lower side of the dyeing cylinder body 1, when the dyeing machine works, if the textile fabric needing dyeing is not much, the adjusting component 3 is started to enable the hydraulic ram 33 to act, so that the dyeing cylinder body 1 connected with the adjusting component is driven to move towards the retaining ring shell 2, finally, the reduction of the inner space of the dyeing cylinder body 1 is reduced, and the heating is more time-saving and energy-saving. When the textile that needs processing dyeing is more, start adjusting part 3 and remove dyeing cylinder body 1 to both ends again, realize the increase of inner space promptly, improve the efficiency of processing dyeing. The arrangement of the adjusting component 3 realizes the adjustment of the internal space of the dyeing cylinder body 1, and greatly improves the practicability;

the discharge port 4 is rotatably provided with the buckle cover 41, when the buckle cover 41 is fastened, the arc-shaped plate 42 is put down, the limiting plate 43 is placed below the edge of the discharge port 4, then the transmission rod 45 is rotated, the transmission rod 45 rotates and enables the limiting plate 43 to move upwards through the threaded hole 431 in the end part of the limiting plate 43, the limiting plate 43 moves upwards along the axis direction of the transmission rod 45 and can abut against the lower side of the edge of the discharge port 4, then the transmission rod 45 is rotated, the limiting plate 43 cannot move any more, the buckle cover 41 is closed, the structure replaces the traditional mode that the cover body is closed through screwing of a plurality of threads, the operation is simplified, the time and the labor are saved, and the production efficiency is facilitated;

in the winding component 6, a winding shaft 63 is rotatably arranged on a supporting block 62, after the textile fabric is dyed by the dyeing machine, the dyed textile fabric is conveyed and accumulated into a square box through a transmission shaft in the traditional discharging mode, when the textile fabric is treated in the next step, the textile fabric is inconvenient, and the winding shaft 6 can regularly wind the dyed textile fabric through the rotation of a transmission component 7, so that the textile fabric is beneficial to the subsequent processing treatment;

the first motor 72 is started, the rotation direction of the first motor is clockwise, then the first friction wheel 721 drives the winding shaft 63 to rotate to wind the textile, when the textile is wound, the diameter of the winding shaft 63 is gradually increased until the textile wound thereon is contacted with the auxiliary rotating rod 64, meanwhile, the spring 74 is arranged on one side of the first motor 72 to apply certain elasticity to the textile, so that when the textile is wound by the winding shaft 63, the textile is firstly extruded by the winding shaft 63 and the auxiliary rotating rod 64, a large amount of moisture in the textile can be discharged in the process to ensure the dyeing quality, and the textile can be wound neatly to facilitate subsequent reprocessing. During the action, the winding shaft 63 pushes against the first motor 72 on one side of the winding shaft and the auxiliary assembly 8 fixedly arranged on the sliding plate 71 to move to overcome the elasticity of the spring 74, when the winding shaft 63 moves to the second guide groove 512, the winding shaft 63 is wound to the maximum and one side of the winding shaft loses support, at the moment, the winding shaft 63 automatically falls down along the second guide groove 512 due to the fact that the first motor 72 rotates clockwise, the winding shaft wound completely is discharged, the action is automatically achieved through the diameter of the winding shaft 63 which is continuously increased in the winding process, independent operation is not needed, the watching is convenient, and time and labor are saved;

the fabric is mostly the banding, when dyeing the fabric, can't guarantee its roughness, the condition that the part is folded together can appear, lead to fabric part thickness uneven, the width is irregular, consequently when rolling the fabric, the phenomenon that rolling axle 63 rolling thickness is different everywhere can appear, when this auxiliary assembly 8 operates, at first place the spin department with the fabric, after start second motor 73, wherein, second motor 73 one side slider-crank mechanism 84 comprises the carousel of second motor 73 pivot front end and the connecting rod of carousel one side, when second motor 73 starts rotatoryly, make supplementary slide bar 82 reciprocate through slider-crank mechanism 84, and simultaneously, the fabric also is driven, this result is not only very effectual has improved this drawback that rolling axle 63 rolling thickness is inhomogeneous, and when the mechanism reciprocated, can also extrude part moisture in the fabric and flow out from through-hole 631.

The working principle is as follows:

the invention is in the initial state, one side of the cylinder body 1 is provided with a first arc-shaped wall 12 and a second arc-shaped wall 13, wherein the second arc-shaped wall 13 is bent towards the cylinder body and has a certain inclination, when the dyeing cylinder body 1 moves towards the middle part retaining ring shell 2 through the adjusting component 3, because the inner wall of the retaining ring shell 2 is bent outwards from the middle part to form a certain angle, the first arc-shaped wall 12 and the retaining ring shell 2 can be firmly extruded together, and the sealing effect is finally realized, and compared with the traditional rubber ring sealing mode, the sealing effect is better, similarly, when the dyeing cylinder body 1 moves towards two ends through the adjusting component 3, the inner space of the dyeing cylinder body 1 is increased, the first arc-shaped wall 12 can be matched with the retaining ring shell 2, the sealing effect is realized, the outflow of dyeing liquid is prevented, and the dyeing of textile fabrics is influenced; the adjusting component 3 is arranged at the lower side of the dyeing cylinder body 1, when the dyeing machine works, if the textile fabric needing dyeing is not much, the adjusting component 3 is started to enable the hydraulic ram 33 to act, so that the dyeing cylinder body 1 connected with the adjusting component is driven to move towards the retaining ring shell 2, finally, the reduction of the inner space of the dyeing cylinder body 1 is reduced, and the heating is more time-saving and energy-saving. When the textile that needs processing dyeing is more, start adjusting part 3 and remove dyeing cylinder body 1 to both ends again, realize the increase of inner space promptly, improve the efficiency of processing dyeing. The arrangement of the adjusting component 3 realizes the adjustment of the internal space of the dyeing cylinder body 1, and greatly improves the practicability; the discharge port 4 is rotatably provided with the buckle cover 41, when the buckle cover 41 is fastened, the arc-shaped plate 42 is put down, the limiting plate 43 is placed below the edge of the discharge port 4, then the transmission rod 45 is rotated, the transmission rod 45 rotates and enables the limiting plate 43 to move upwards through the threaded hole 431 in the end part of the limiting plate 43, the limiting plate 43 moves upwards along the axis direction of the transmission rod 45 and can abut against the lower side of the edge of the discharge port 4, then the transmission rod 45 is rotated, the limiting plate 43 cannot move any more, the buckle cover 41 is closed, the structure replaces the traditional mode that the cover body is closed through screwing of a plurality of threads, the operation is simplified, the time and the labor are saved, and the production efficiency is facilitated; in the winding component 6, a winding shaft 63 is rotatably arranged on a supporting block 62, after the dyeing machine dyes the textile, the traditional discharging mode is that the dyed textile is conveyed and stacked into a square box through a transmission shaft, when the textile is treated in the next step, the textile is inconvenient, and the winding shaft 6 can regularly wind the dyed textile through the rotation of a transmission component 7, so that the textile is beneficial to the subsequent processing treatment; the first motor 72 is started, the rotation direction of the first motor is clockwise, then the first friction wheel 721 drives the winding shaft 63 to rotate to wind the textile, when the textile is wound, the diameter of the winding shaft 63 is gradually increased until the textile wound thereon is contacted with the auxiliary rotating rod 64, meanwhile, the spring 74 is arranged on one side of the first motor 72 to apply certain elasticity to the textile, so that when the textile is wound by the winding shaft 63, the textile is firstly extruded by the winding shaft 63 and the auxiliary rotating rod 64, a large amount of moisture in the textile can be discharged in the process to ensure the dyeing quality, and the textile can be wound neatly to facilitate subsequent reprocessing. During the action, the winding shaft 63 pushes against the first motor 72 on one side of the winding shaft and the auxiliary assembly 8 fixedly arranged on the sliding plate 71 to move to overcome the elasticity of the spring 74, when the winding shaft 63 moves to the second guide groove 512, the winding shaft 63 is wound to the maximum and one side of the winding shaft loses support, at the moment, the winding shaft 63 automatically falls down along the second guide groove 512 due to the fact that the first motor 72 rotates clockwise, the winding shaft wound completely is discharged, the action is automatically achieved through the diameter of the winding shaft 63 which is continuously increased in the winding process, independent operation is not needed, the watching is convenient, and time and labor are saved; the fabric is mostly the banding, when dyeing the fabric, can't guarantee its roughness, the condition that the part is folded together can appear, lead to fabric part thickness uneven, the width is irregular, consequently when rolling the fabric, the phenomenon that rolling axle 63 rolling thickness is different everywhere can appear, when this auxiliary assembly 8 operates, at first place the spin department with the fabric, after start second motor 73, wherein, second motor 73 one side slider-crank mechanism 84 comprises the carousel of second motor 73 pivot front end and the connecting rod of carousel one side, when second motor 73 starts rotatoryly, make supplementary slide bar 82 reciprocate through slider-crank mechanism 84, and simultaneously, the fabric also is driven, this result is not only very effectual has improved this drawback that rolling axle 63 rolling thickness is inhomogeneous, and when the mechanism reciprocated, can also extrude part moisture in the fabric and flow out from through-hole 631.

Through the arrangement of the 822, the auxiliary sliding rod 82 can be pushed by the winding shaft 63 along with the movement of the winding shaft 63, so that the textile of the auxiliary sliding rod 82 and the winding shaft 63 can be attached all the time, a good extrusion effect is achieved, and the winding shaft 63 is prevented from being blocked by the auxiliary sliding rod 82 when moving; when setting up through inclined plane 827 can let rolling axle 63 rolling lose to at most and one side and support and will fall down, can let rectangular rod 820 and supplementary slide bar 82 follow upset downwards, cooperation through triangle fixture block 824 and triangular groove 823 can let supplementary slide bar 82 blocked in the downward sloping state but incompletely overturn, thereby can be under the cooperation of arcwall face 828, let rolling axle blocked in the inclined state, thereby can be convenient for artifical the receipts material, when avoiding rolling axle to drop on ground completely, let partial textile break away from rolling axle 63 and need again this partial textile rolling when dropping, also avoid filth pollution textile on ground

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims

1. The utility model provides an intelligence high temperature and high pressure dyeing machine that opens door violently, includes dyeing cylinder body (1), its characterized in that, the middle part of dyeing cylinder body (1) is provided with retaining ring shell (2), the lower extreme of dyeing cylinder body (1) is equipped with adjusting part (3), the upper portion outside of dyeing cylinder body (1) is fixed and is provided with feed inlet (11) and discharge gate (4), feed inlet (11) set up in one side of discharge gate (4), the side of discharge gate (4) is provided with extension board (5), is provided with rolling subassembly (6) and drive assembly (7) on this extension board (5), and this rolling subassembly (6) set up in one side of drive assembly (7).

2. The intelligent transversely-opening high-temperature high-pressure dyeing machine as claimed in claim 1, characterized in that: one side of cylinder body (1) and the junction of keeping casing (2) are provided with first arc wall (12) and second arc wall (13), and this second arc wall (13) sets up in one side of first arc wall (12), keep casing (2) outer wall incurvation, inner wall outer bend, inner wall and outer wall to be oval.

3. An intelligent cross-opening high-temperature high-pressure dyeing machine as claimed in claim 2, characterized in that: the adjusting component (3) comprises a base (31), the base (31) is arranged on the lower side of the dyeing cylinder body (1), supporting pieces (32) are arranged on two sides of the base (31), the supporting pieces (32) extend to the lower surface of the dyeing cylinder body (1), a hydraulic ram (33) is fixedly arranged in the middle of the base (31), one end of the hydraulic ram (33) is fixedly arranged on the base (31), and the other end of the hydraulic ram is arranged on the lower surface of the dyeing cylinder body (1).

4. An intelligent cross-opening high-temperature high-pressure dyeing machine according to claim 3, characterized in that: discharge gate (4) exit end is provided with buckle closure (41), and the one end of this buckle closure (41) is rotated and is set up in one side of discharge gate (4), and one end is rotated and is provided with arc (42), and it is provided with limiting plate (43) to slide on this arc (42), and threaded hole (431) have been seted up on this limiting plate (43), pilot hole (44) have been seted up on arc (42), and this pilot hole (44) internal rotation is provided with transfer line (45), and this transfer line (45) run through pilot hole (44) and threaded hole (431).

5. An intelligent cross-opening high-temperature high-pressure dyeing machine as claimed in claim 4, characterized in that: the support plate (5) comprises an upper support plate (51) and a lower support plate (52), the upper support plate (51) is arranged on the upper side of the lower support plate (52), the upper support plate (51) is provided with a first guide groove (511) and a second guide groove (512), the first guide groove (511) is horizontally formed, and the second guide groove (512) is vertically formed.

6. An intelligent cross-opening high-temperature high-pressure dyeing machine according to claim 5, characterized in that: the winding assembly (6) comprises a first sliding block (61), the first sliding block (61) is arranged in the lower support plate (52) in a sliding mode, a supporting block (62) is arranged on the upper surface of the first sliding block (61) in a swinging mode, a winding shaft (63) is arranged at the upper end of the supporting block (62) in a rotating mode, one end of the winding shaft (63) is arranged on the upper side of the supporting block (62) in a rotating mode, the other end of the winding shaft extends into the first guide groove (511), and an auxiliary rotating rod (64) is arranged on one side of the winding shaft (63).

7. An intelligent cross-opening high-temperature high-pressure dyeing machine according to claim 6, characterized in that: the transmission assembly (7) comprises a sliding plate (71), the sliding plate (71) is arranged in a second guide groove (512) in a sliding mode, two ends of the sliding plate (71) are provided with first motors (72), the middle of the sliding plate is provided with a second motor (73), one side of the sliding plate (71) is provided with a spring (74), a rotating shaft of each first motor (72) is provided with a first friction wheel (721), one side of each first friction wheel (721) is provided with a second friction wheel (722), each second friction wheel (722) is fixedly arranged on a winding shaft (63), and a rotating shaft of each second motor (73) is provided with an auxiliary assembly (8).

8. An intelligent cross-opening high-temperature high-pressure dyeing machine as claimed in claim 7, characterized in that: the auxiliary assembly (8) comprises a supporting column (81), an auxiliary sliding rod (82) is arranged in the supporting column (81) in a sliding mode, a rolling ball (83) is arranged at the end portion of the auxiliary sliding rod (82), and a crank-slider mechanism (84) is arranged between the auxiliary sliding rod (82) and the second motor (73).

9. An intelligent cross-opening high-temperature high-pressure dyeing machine as claimed in claim 8, characterized in that: crank block mechanism (84) with be equipped with the slip subassembly between supplementary slide bar (82), the slip subassembly is including fixed rectangle side pipe (821) that sets up on crank block mechanism (84), rectangle side pipe (821) is provided with a reciprocating motion's rectangle pole (820), supplementary slide bar ((82)) and rectangle pole (820) fixed connection, rectangle pole (820) with fixed extension spring (822) that is provided with between rectangle side pipe (821) bottom, rectangle side pipe (821) are close to the one end of extension spring (822) sets up to inclined plane (827), inclined plane (827) are close to the one end of extension spring (822) is provided with triangle fixture block (824), the inside upside of rectangle side pipe (821) be provided with one with triangle groove (823) of triangle fixture block (824) matched with, supplementary slide bar (82) are close to one side of rolling axle (63) and are provided with an arcwall face (828).

10. An intelligent cross-opening high-temperature high-pressure dyeing machine according to claim 8, characterized in that: the middle part of the winding shaft (63) is hollow, and the outer wall of the winding shaft is provided with a through hole (631).