CN209798306U - High-efficient overflow dyeing machine - Google Patents

Abstract

The utility model discloses a high-efficient overflow dyeing machine belongs to the dyeing machine field, and its technical scheme main points are including stock solution section of thick bamboo and fabric guide, fabric guide both ends are connected respectively in the both ends of stock solution section of thick bamboo, be equipped with extrusion device in the stock solution section of thick bamboo, extrusion device includes first conflict group and second conflict group, first conflict group includes that two rotate to connect in the first conflict roller of stock solution section of thick bamboo, second conflict group includes that two rotate to connect in the second of stock solution section of thick bamboo to touch the roller, extrusion device is still including driving first conflict roller and second conflict roller pivoted drive structure, and the cloth passes two first conflict rollers in proper order and then passes between two second conflict rollers, and the clearance between two first conflict rollers and the clearance between two second conflict rollers all are less than the thickness of cloth. The utility model discloses the effect that improves dyeing efficiency has.

Description

High-efficient overflow dyeing machine

Technical Field

The utility model relates to a dyeing machine technical field, more specifically say, it relates to a high-efficient overflow dyeing machine.

Background

Fiber dyeing is roughly divided into three basic stages, the first stage: adsorption, the dye is gradually diffused and transferred from the solution to the surface of the fiber after the fiber is put into the dye bath, and the process is called adsorption. Over time, the dye concentration on the fiber gradually increases, while the dye concentration in the solution gradually decreases, after a period of time, reaching an equilibrium state. The reverse process of adsorption is desorption, which occurs simultaneously during the dyeing process. And a second stage: and (4) diffusing the dye adsorbed on the surface of the fiber into the fiber until the concentration of the dye tends to be consistent in each part of the fiber. Since the concentration of the dye adsorbed on the surface of the fiber is greater than that of the dye in the interior of the fiber, the dye is promoted to diffuse from the surface of the fiber to the interior of the fiber. At this point, the dye diffusion breaks the initially established adsorption equilibrium, the dye in solution is continually adsorbed onto the fiber surface, and adsorption and desorption again reach equilibrium. And a third stage: fixation is the process of combining dye and fiber, and the combination mode is different according to the dye and the fiber.

The three stages are often simultaneous and not separated during the dyeing process. But only that a certain process prevails during a certain period of dyeing.

At present, chinese utility model patent with publication number CN205529453U discloses a dyeing apparatus for jet overflow dyeing machine, belonging to the technical field of jet overflow dyeing machine. Including the reservoir of below and the fabric guide tube of top, both ends communicate with each other with the reservoir respectively about the fabric guide tube, be connected with the nozzle on the fabric guide tube, be equipped with the fabric guide roller in the reservoir, the fabric guide roller is adjacent with the fabric guide tube left end, the inside rotation of reservoir is connected with conveyer, conveyer top formation fabric transfer passage, conveyer is including a plurality of roller shafts that are located same horizontal plane, the rotation direction of roller is opposite with the rotation direction of fabric guide roller, the reservoir outside is equipped with motor and chain, the motor passes through the chain and is connected with a plurality of roller shaft transmissions.

The above prior art solutions have the following drawbacks: the solution enters the fabric, under the adsorption action, the dye in the solution in the fabric is adsorbed on the fiber, so that the concentration of the dye in the upper liquid of the fabric is reduced, the overflow dyeing machine makes full contact with the fabric by using the solution, and makes solute in the solution diffuse into the solution in the fabric by using the higher concentration of the dye in the solution (the diffusion of the solute in the solution is not a diffusion stage in the dyeing process), and the diffusion effect is slow, so that the dyeing efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an improve dyeing efficiency's flow dyeing machine.

The utility model discloses a realize above-mentioned purpose, provide following technical scheme: the utility model provides a high-efficient overflow dyeing machine, includes liquid storage cylinder and fabric guide, the fabric guide both ends are connected respectively in the both ends of liquid storage cylinder, be equipped with extrusion device in the liquid storage cylinder, extrusion device includes first conflict group and second conflict group, first conflict group is including two rotation connection in the first conflict roller of liquid storage cylinder, the second is contradicted the group and is included two rotation connection in the second of liquid storage cylinder to touch the roller, extrusion device is still including driving first conflict roller and second conflict roller pivoted drive structure, and the cloth passes two first conflict rollers in proper order then passes between two second conflict rollers, and the clearance between two first conflict rollers and the clearance between two second conflict rollers all are less than the thickness of cloth.

By adopting the technical scheme, the solution enters the cloth when contacting with the dye, and the dye in the cloth is adsorbed on the cloth, so that the dye content of the solution in the cloth is reduced, and the adsorption in the first stage of dyeing is reduced; when the cloth passes through the first conflict group and the second conflict group, under the pressurization of the first conflict roller and the second conflict roller, the solution with smaller dye content in the cloth is extruded, and the solution in the liquid storage cylinder enters the cloth again, so that the dye content of the solution in the cloth is improved, the adsorption effect of the first stage of avoiding dyeing is reduced, and the dyeing efficiency is improved.

The utility model discloses further set up to: two first conflict roller is the level setting and arranges two along vertical direction the second conflict roller is the level setting and arranges along vertical direction, is close to each other and overlaps between first conflict roller and the second conflict roller and is equipped with the conveyer belt, a plurality of through-holes have been seted up to the conveyer belt.

Through adopting above-mentioned technical scheme, utilize the conveyer belt to exert frictional force to the cloth to the removal of convenient drive cloth.

The utility model discloses further set up to: the extrusion device still includes two regulating rolls, two the conveyer belt passes from the one side that two regulating rolls kept away from each other respectively, the diameter of first butt roller and the diameter of second butt roller all are greater than the diameter of regulating roll.

through adopting above-mentioned technical scheme, under the support of two regulating rolls, form a rhombus space between two conveyer belts, the cloth passes and relaxes in above-mentioned rhombus space behind the first group of contradicting to absorb the solution in the liquid storage tank again.

The utility model discloses further set up to: first conflict roller and the radial horizontal sliding connection of second conflict roller in the liquid storage cylinder, the vertical sliding connection of regulating roller in the liquid storage cylinder, extrusion device is still including the first conflict roller of drive, the second is to the regulation structure that the roller and the regulating roller slided.

Through adopting above-mentioned technical scheme, after the cloth passed first conflict group and second conflict group in proper order, start to adjust the structure and make the vertical slip of dancer rools, make first conflict roller and second conflict roller level be close to each other to lead to being located the cloth between first conflict group and the second conflict group and reducing the pulling force that receives direction of delivery, make its absorption solution that can be abundant.

The utility model discloses further set up to: the adjusting structure further comprises a first adjusting rod and a second adjusting rod, one end of the first adjusting rod is connected with the first touch roller in a rotating mode, the other end of the first adjusting rod is connected with the adjusting roller in a rotating mode, one end of the second adjusting rod is connected with the second touch roller in a rotating mode, and the other end of the second adjusting rod is connected with the adjusting roller in a rotating mode.

Through adopting above-mentioned technical scheme, when drive structure drive adjusting roller vertical direction slided towards the direction of keeping away from each other, adjust the pole pulling down at first regulation pole and second, first conflict group and second conflict group are close to each other naturally.

The utility model discloses further set up to: the drive structure includes driving motor, first conflict roller coaxial rotation is connected with first connecting gear, two the first connecting gear intermeshing of first conflict roller, the second conflict roller coaxial rotation is connected with second connecting gear, two the second connecting gear intermeshing of second conflict roller, driving motor is through setting up the first connecting gear rotation of universal coupling drive.

Through adopting above-mentioned technical scheme, the first connection gear of driving motor drive rotates to make two first conflict rollers rotate, first conflict roller rotates and drives the conveyer belt operation, and the second conflict roller rotates under the transport of conveyer belt.

The utility model discloses further set up to: the liquid storage cylinder is internally provided with a slide way which is horizontally arranged, the two ends of the first abutting roller and the two ends of the second abutting roller are both rotatably connected with slide blocks, and the slide blocks are slidably connected in the slide way.

Through adopting above-mentioned technical scheme, first butt touch roller and second butt touch roller rotate with the slider and are connected, then make slider and liquid storage cylinder slide, make the connection structure of first butt touch roller and second butt touch roller and liquid storage cylinder more stable.

The utility model discloses further set up to: the length of the slide way is smaller than the sum of the lengths of the first adjusting rod and the second adjusting rod, and when the two sliding blocks slide to the two ends of the first slide way, the straight lines where the first adjusting rod and the second adjusting rod are located form a diamond shape.

Through adopting above-mentioned technical scheme, make the pivot axis of adjusting the pole keep away from each other all the time to interval between the two is greater than the interval between the first conflict roller, thereby makes to have sufficient space in the extrusion device and makes the cloth absorb solution.

To sum up, the utility model discloses following beneficial effect has:

Firstly, when the cloth passes through the first abutting group and the second abutting group, under the pressurization of the first abutting roller and the second abutting roller, a solution with a smaller dye content in the cloth is extruded out, and a solution in the liquid storage cylinder enters the cloth again, so that the dye content of the solution in the cloth is improved, the dye content of the solution in the cloth is equal to the content of the solution in the liquid storage cylinder, the adsorption effect of the first stage of avoiding dyeing is reduced, and the dyeing efficiency is improved;

Secondly, a rhombic space is formed between the two conveyor belts under the support of the two adjusting rollers, and the cloth passes through the first abutting group and then is relaxed in the rhombic space, so that the solution in the liquid storage tank is absorbed again;

And thirdly, the driving motor drives the first connecting gear to rotate, so that the two first touch rolls rotate, the first touch rolls rotate to drive the conveying belt to run, and the second touch roll rotates under the conveying of the conveying belt.

Drawings

FIG. 1 is a perspective view of the present embodiment;

FIG. 2 is a schematic structural diagram of the embodiment for showing the peristaltic structure;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural diagram illustrating an adjustment structure according to the present embodiment;

Fig. 5 is a schematic structural diagram for showing a driving structure in the present embodiment.

reference numerals: 1. a liquid storage cylinder; 2. a cloth guide pipe; 3. a peristaltic structure; 4. a cloth inlet; 5. an upper cover; 6. an extrusion device; 7. a first collision group; 8. a second collision group; 9. a drive structure; 10. an adjustment structure; 11. a first abutment roller; 12. a second abutment roller; 13. a support plate; 14. a slideway; 15. a slider; 16. a conveyor belt; 18. a first adjusting lever; 19. a second adjusting lever; 20. a double throw crankshaft; 21. adjusting the motor; 22. a drive rod; 23. a drive motor; 24. a linkage rod; 25. a first connecting gear; 26. a second connecting gear; 27. a first bevel gear; 28. a second bevel gear; 29. a regulating roller; 30. a universal coupling is provided.

Detailed Description

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

A high-efficiency overflow dyeing machine is shown in figures 1 and 2 and comprises a liquid storage cylinder 1, a cloth guide pipe 2 and a peristaltic structure 3 for driving cloth. The cloth guide pipe 2 is positioned above the liquid storage cylinder 1 and two ends of the cloth guide pipe are respectively connected with two ends of the liquid storage cylinder 1. The upper end of one end of the liquid storage cylinder 1 is provided with a cloth inlet 4, and the upper end of the liquid storage cylinder 1 is hinged with an upper cover 5 for opening and closing the cloth inlet 4. The peristalsis structure 3 is installed inside the liquid storage cylinder 1, the cloth enters the right end of the liquid storage cylinder 1 from the left end of the liquid storage cylinder 1 through the cloth guide pipe 2, then the left end of the liquid storage cylinder 1 is returned through the peristalsis structure 3, and the cloth is connected end to end.

As shown in fig. 2 and 3, the peristalsis structure 3 comprises a plurality of squeezing means 6, the squeezing means 6 comprising a first interference group 7, a second interference group 8, a driving structure 9 and an adjusting structure 10. The first abutting group 7 comprises two first abutting rollers 11 which are horizontally arranged, and the two first abutting rollers 11 of the same first abutting group 7 are arranged along the vertical direction. The second abutting group 8 comprises two second abutting rollers 12 which are horizontally arranged, and the two second abutting rollers 12 of the same second abutting group 8 are arranged along the vertical direction. Two supporting plates 13 are arranged in the liquid storage cylinder 1, the two supporting plates 13 are respectively located at two axial ends of the first abutting roller 11, and the supporting plates 13 are provided with two horizontally arranged slideways 14. The two ends of the first abutting roller 11 and the second abutting roller 12 are both rotatably connected with a sliding block 15, and the sliding block 15 is connected in the slideway 14 in a sliding mode. A conveyor belt 16 is sleeved between the first abutting roller 11 and the second abutting roller 12, and the conveyor belt 16 is provided with a plurality of fine through holes 17 (not shown in the figure).

as shown in fig. 4, the adjusting structure 10 further includes a first adjusting lever 18, a second adjusting lever 19, a double-throw crankshaft 20, and an adjusting motor 21 for driving the double-throw crankshaft 20 to rotate. One end of the first adjusting rod 18 is rotatably connected with the first touch roller 11, the other end of the first adjusting rod is rotatably connected with the adjusting roller 29, one end of the second adjusting rod 19 is rotatably connected with the second touch roller 12, and the other end of the second adjusting rod is sleeved on the adjusting roller 29. The two conveyor belts 16 pass through the sides of the two regulating rollers 29 which are far away from each other, and the diameter of the first abutment roller 11 and the diameter of the second abutment roller 12 are both larger than the diameter of the regulating rollers 29.

As shown in fig. 4, the sum of the lengths of the first adjustment lever 18 and the second adjustment lever 19 is greater than the length of the slide way 14, so that when the two sliders 15 slide to both ends of the slide way 14, the straight lines where the two first adjustment levers 18 and the two second adjustment levers 19 are located form a diamond shape. Two shaft necks of the double-throw crankshaft 20 are respectively sleeved with a driving rod 22, one end of one driving rod 22, far away from the double-throw crankshaft 20, is hinged to the second adjusting rod 19 above through a universal joint, and one end of the other driving rod 22, far away from the double-throw crankshaft 20, is hinged to the first adjusting rod 18 below through a universal joint. All the double-throw crankshafts 20 are coaxially and fixedly connected and rotatably connected in the liquid storage cylinder 1, the adjusting motor 21 is fixed outside the right end of the liquid storage cylinder 1, and a main shaft of the adjusting motor penetrates through the side wall of the liquid storage cylinder 1 and is coaxially and fixedly connected with the rightmost double-throw crankshafts 20. The adjusting motor 21 drives the double-throw crankshaft 20 to rotate, the double-throw crankshaft 20 drives the adjusting roller 29 to reciprocate up and down through the driving rod 22, the sliding directions of the adjusting roller 29 are opposite, and the first contact roller 11 and the second contact roller 12 are driven by the first adjusting rod 18 and the second adjusting rod 19 to reciprocate. The first contact roller 11 and the second contact roller 12 horizontally move in a reciprocating manner and the rotation directions of the first contact roller 11 and the second contact roller 12 are opposite, when the first contact roller 11 and the second contact roller 12 are close to each other, the cloth between the first contact roller 11 and the second contact roller 12 is in a loose state, and the solution can be absorbed more fully; when first conflict roller 11 and second are contradicted and are kept away from each other, can exert pulling force to the cloth between the two to make the cloth be in the state of tightening, and then extrude the solution in the cloth, make cloth and dyestuff fully contact, extrude the less solution of dyestuff content in the cloth, during the solution in the stock solution section of thick bamboo 1 reenters the cloth, improved the dyestuff content of solution in the cloth, make the adsorption effect who avoids the first stage of dyeing reduce, thereby improved dyeing efficiency.

as shown in fig. 5, the driving structure 9 comprises a driving motor 23 and a linkage rod 24, and the linkage rod 24 is horizontally arranged along the conveying direction of the cloth and is rotatably connected inside the liquid storage cylinder 1. The first contact rollers 11 are coaxially rotatably connected with first connecting gears 25, the first connecting gears 25 of the two first contact rollers 11 are mutually meshed, the second contact rollers 12 are coaxially rotatably connected with second connecting gears 26, and the second connecting gears 26 of the two second contact rollers 12 are mutually meshed. A first bevel gear 27 is rotationally connected in the liquid storage cylinder 1, and the first bevel gear 27 is connected with the first connecting gear 25 through a universal coupling 30. The universal joint 30 includes two universal joints connected by a spline, and transmits torque between the two universal joints by the spline and allows the two universal joints to slide axially relative to each other. The linkage rod 24 is rotatably connected with a plurality of second bevel gears 28, and each second bevel gear 28 is respectively meshed with the first bevel gear 27 of one extrusion device 6. The driving motor 23 is fixed outside the right end of the liquid storage cylinder 1, and the main shaft of the driving motor passes through the side wall of the liquid storage cylinder 1 and is coaxially and fixedly connected with the linkage rod 24. The driving motor 23 drives the linkage rod 24 to rotate, the linkage rod 24 drives the first connecting gear 25 to rotate through the second bevel gear 28 and the first bevel gear 27, the first connecting gear 25 rotates, so that the two first touch rollers 11 rotate, the first touch rollers 11 rotate to drive the conveyor belt 16 to rotate, and the second touch rollers 12 rotate under the conveying of the conveyor belt 16.

The implementation principle of the embodiment is as follows: the driving motor 23 drives the linkage rod 24 to rotate, the linkage rod 24 drives the first connecting gear 25 to rotate through the second bevel gear 28 and the first bevel gear 27, the first connecting gear 25 rotates, so that the two first touch rollers 11 rotate, the first touch rollers 11 rotate to drive the conveyor belt 16 to rotate, and the second touch rollers 12 rotate under the conveying of the conveyor belt 16. Under the compression of the first and second abutment rollers 11 and 12, the cloth rotates constantly inside the machine, coming into contact with the dye.

The adjusting motor 21 drives the double-throw crankshaft 20 to rotate, the double-throw crankshaft 20 drives the adjusting roller 29 to reciprocate up and down through the driving rod 22, the sliding directions of the adjusting roller 29 are opposite, and the first contact roller 11 and the second contact roller 12 are driven by the first adjusting rod 18 and the second adjusting rod 19 to reciprocate. The first touch roller 11 and the second touch roller 12 move horizontally in a reciprocating manner and rotate in opposite directions, and when the first touch roller 11 and the second touch roller approach each other, the cloth between the first touch roller 11 and the second touch roller is in a loose state, so that the solution can be absorbed more fully; when first butt touch roller 11 and second butt touch roller 12 kept away from each other, can apply the pulling force to the cloth between the two to make the cloth be in the state of tightening, and then extrude the solution in the cloth, make cloth and dyestuff fully contact, extrude the less solution of dyestuff content in the cloth, during the solution in the liquid storage cylinder 1 reenters the cloth, improved the dyestuff content of solution in the cloth, make the adsorption effect who avoids the first stage of dyeing reduce, thereby improved dyeing efficiency.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. An efficient overflow dyeing machine comprises a liquid storage cylinder (1) and a cloth guide pipe (2), two ends of the cloth guide pipe (2) are respectively connected with two ends of the liquid storage cylinder (1), an extrusion device (6) is arranged in the liquid storage cylinder (1), the extrusion device (6) comprises a first interference group (7) and a second interference group (8), the first contact group (7) comprises two first contact rollers (11) which are rotationally connected with the liquid storage cylinder (1), the second contact group (8) comprises two second contact rollers (12) which are rotationally connected with the liquid storage cylinder (1), the extruding device (6) further comprises a driving structure (9) for driving the first butting roller (11) and the second butting roller (12) to rotate, the cloth sequentially penetrates through the two first butting rollers (11) and then penetrates between the two second butting rollers (12), and the gap between the two first butting rollers (11) and the gap between the two second butting rollers (12) are smaller than the thickness of the cloth.

2. An efficient overflow dyeing machine according to claim 1, characterized in that: two first butt-contact roller (11) are the level setting and arrange along vertical direction, two second butt-contact roller (12) are the level setting and arrange along vertical direction, are close to each other and are equipped with conveyer belt (16) between first butt-contact roller (11) and the second butt-contact roller (12), a plurality of through-holes (17) have been seted up in conveyer belt (16).

3. an efficient overflow dyeing machine according to claim 2, characterized in that: the extrusion device (6) further comprises two adjusting rollers (29), the two conveyor belts (16) penetrate through the sides, far away from each other, of the two adjusting rollers (29), and the diameters of the first abutting roller (11) and the second abutting roller (12) are larger than the diameters of the adjusting rollers (29).

4. A high efficiency overflow dyeing machine according to claim 3, characterized in that: first butt touch roller (11) and second butt touch roller (12) radial horizontal sliding connection in liquid storage cylinder (1), the vertical sliding connection of adjusting roller (29) in liquid storage cylinder (1), extrusion device (6) are still including driving first butt touch roller (11), second butt touch roller (12) and adjusting roller (29) regulation structure (10) that slide.

5. An efficient overflow dyeing machine according to claim 4, characterized in that: adjust structure (10) and still include first regulation pole (18) and second regulation pole (19), first regulation pole (18) one end is rotated with first conflict roller (11) and is connected, first regulation pole (18) other end rotates with adjust roller (29) and is connected, second regulation pole (19) one end is supported with the second and is touched roller (12) and rotate and be connected, and the other end rotates with adjust roller (29) and is connected.

6. An efficient overflow dyeing machine according to claim 5, characterized in that: drive structure (9) include driving motor (23), first butt touch roller (11) coaxial rotation is connected with first connecting gear (25), two first connecting gear (25) intermeshing of first butt touch roller (11), second butt touch roller (12) coaxial rotation is connected with second connecting gear (26), two second butt touch roller's (12) second connecting gear (26) intermeshing, driving motor (23) rotate through setting up first connecting gear (25) of universal joint (30) drive.

7. An efficient overflow dyeing machine according to claim 6, characterized in that: the liquid storage device is characterized in that a slide way (14) is arranged in the liquid storage cylinder (1) in a horizontal mode, two ends of the first abutting roller (11) and the second abutting roller (12) are connected with a sliding block (15) in a rotating mode, and the sliding block (15) is connected in the slide way (14) in a sliding mode.

8. An efficient overflow dyeing machine according to claim 7, characterized in that: the length of the slide way (14) is smaller than the sum of the lengths of the first adjusting rod (18) and the second adjusting rod (19), and when the two sliding blocks (15) slide to the two ends of the slide way (14), the straight lines where the first adjusting rod (18) and the second adjusting rod (19) are located form a diamond shape.