CN114808316A

CN114808316A - Non-woven fabric dyeing process and non-woven fabric dyeing production line

Info

Publication number: CN114808316A
Application number: CN202210523393.9A
Authority: CN
Inventors: 刘旺兰; 洪亮; 黄其伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-14
Filing date: 2022-05-14
Publication date: 2022-07-29

Abstract

The invention discloses a non-woven fabric dyeing process and a non-woven fabric dyeing production line, which comprise a dyeing tank, wherein a feed inlet is formed in the top of one side surface of the dyeing tank, a discharge outlet is formed in the top of the other side surface of the dyeing tank, the feed inlet and the discharge outlet are oppositely arranged, a stabilizing device and an extruding device are respectively arranged in the dyeing tank, and cloth sequentially passes through the feed inlet, the stabilizing device, the extruding device and the discharge outlet. According to the invention, the cloth is wound by the winding roller, and at the moment, when the cloth moves in the dyeing tank, due to the limitation of the rubber ring, the plurality of steering rollers synchronously rotate in the dyeing tank, so that the rotating speeds of the steering rollers are ensured to be the same, and the rubber ring and the front and rear outer side surfaces of the dyeing tank have the joint effect.

Description

Non-woven fabric dyeing process and non-woven fabric dyeing production line

Technical Field

The invention belongs to the technical field of non-woven fabric dyeing, and particularly relates to a non-woven fabric dyeing process and a non-woven fabric dyeing production line.

Background

Nonwoven fabrics, also known as nonwovens, are composed of oriented or random fibers. The non-woven fabric is called as the fabric because of the appearance and certain properties of the fabric, has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like, for example, the non-woven fabric is produced by adopting polypropylene granules as a raw material through a continuous one-step method of high-temperature melting, spinning, line laying and hot-pressing coiling, and after the non-woven fabric is produced and processed, the non-woven fabric needs to be dyed and processed by a dyeing production line in order to obtain different colors.

Present non-woven fabrics dyeing production line is when dyeing the non-woven fabrics, because the non-woven fabrics is great at the transportation process midspan for the non-woven fabrics can produce lax phenomenon, leads to the dyeing degree of consistency of dyestuff on the non-woven fabrics to differ, takes place the phenomenon of local gathering of dyestuff on the non-woven fabrics easily, leads to the waste of dyestuff, has also reduced the dyeing quality of non-woven fabrics.

Therefore, there is a need for a nonwoven fabric dyeing process and a nonwoven fabric dyeing line to solve the above problems.

Disclosure of Invention

In view of the above problems, the present invention provides a nonwoven fabric dyeing process and a nonwoven fabric dyeing production line, so as to solve the problems proposed in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: non-woven fabrics dyeing production line, including dyeing pond, dyeing pond side top is provided with the feed inlet, and dyeing pond another side top is provided with the discharge gate, feed inlet and discharge gate set up relatively, and dyeing pond inside is provided with stabilising arrangement and extrusion device respectively, and the cloth passes through feed inlet, stabilising arrangement, extrusion device and discharge gate in proper order, the discharge gate both sides in dyeing pond all are provided with the base plate, the wind-up roll has been placed at the base plate top, wind-up roll one end is connected with the motor output.

Furthermore, the stabilizing device comprises four steering rollers, a plurality of limiting sleeves which are in one-to-one correspondence with the four steering rollers are arranged on the front inner side wall and the rear inner side wall of the dyeing tank, two ends of each steering roller respectively penetrate through the front inner side wall and the rear inner side wall of the dyeing tank, rubber rings which are correspondingly matched with two ends of the steering rollers are arranged on the front outer side part and the rear outer side part of the dyeing tank, and the end parts of the steering rollers are matched and rotatably connected by the aid of the rubber rings;

the two sides of the surface of the steering roller are spirally sleeved with rotating sleeves, and the two rotating sleeves are respectively positioned at the two side edges of the cloth.

Further, the inside wall all is provided with protruding frame around the dyeing pond, the inside standing groove that is provided with of protruding frame, extrusion device includes the movable plate, movable plate both sides bottom all is provided with branch, and just two protruding frames all utilize the standing groove to correspond and place two branches, protruding frame both sides face all is provided with the strip groove, the branch surface runs through and is provided with the bull stick, and the bull stick both ends respectively with protruding frame both sides strip groove sliding fit.

Further, the bull stick both ends are provided with first gear and second gear respectively, the inside wall all is provided with the rack around the dyeing pond, first gear and rack toothing, first gear medial surface and second gear medial surface correspond the laminating with the protruding frame both sides face respectively, the one end at the second gear place of bull stick is provided with first slide bar, first slide bar one end and second gear lateral surface center fixed connection of locating, the one end at the first gear place of bull stick is provided with the dead lever, dead lever one end and first gear lateral surface center fixed connection of locating.

Furthermore, the extrusion device further comprises an adjusting plate, the adjusting plate is arranged between the two convex frames, limiting plates are arranged on two sides of the bottom surface of the adjusting plate, a plurality of second sliding rods are fixedly connected between the two limiting plates, sliding frames are arranged on two sides of the center of the bottom of the adjusting plate, the second sliding rods penetrate through the two sliding frames, a limiting rod is arranged at the bottom of each sliding frame, and the central line of the limiting rod is perpendicular to the central line of the second sliding rod.

Furthermore, the surfaces of the two ends of the limiting rod are respectively sleeved with a first rotating plate and a second rotating plate, the outer side end of the first rotating plate is connected with the fixed rod in a rotating mode, a convex ring matched with the inner side end of the first rotating plate in a corresponding mode is arranged on the surface of the limiting rod, a limiting sleeve is arranged at the outer side end of the second rotating plate, the limiting sleeve is in sliding fit with the first sliding rod, annular teeth meshed with the second gear in a corresponding mode are arranged on the inner side face of the limiting sleeve, and the inner side end of the second rotating plate is in sliding fit with the limiting rod.

Further, adjustment plate top surface both sides all are provided with the locating plate, correspond between two locating plates and are provided with two bottom rollers side by side, and bottom roller center department runs through and is provided with the sill bar, the sill bar both ends run through two locating plate surfaces respectively, the locating plate surface is provided with the vertical montant that runs through the sill bar tip, the spring has been cup jointed on the montant surface, the spring is in the sill bar bottom.

Further, still be provided with the knock-out pin between two locating plates, the knock-out pin is in the center department top of two bottom roll connecting wires, and the knock-out pin is the same with the length of bottom roll, knock-out pin both ends terminal surface and bottom roll both ends tip correspond the laminating with two locating plate medial surfaces respectively, knock-out pin center department runs through and is provided with the ejector pin, the locating plate surface is provided with the spout that corresponds the matching with the ejector pin, locating plate top surface center department runs through and is provided with the locating lever, locating lever one end and protruding frame top surface fixed connection, the locating lever other end run through locating plate and ejector pin in proper order, and the screw coupling has the nut on the locating lever surface, the nut is in the ejector pin top.

The invention also provides a process for dyeing the non-woven fabric by the non-woven fabric dyeing production line, which comprises the following steps:

s1, correspondingly placing the winding rollers on the tops of the two substrates, wherein the winding rollers are arranged correspondingly to the discharge port, after the cloth passes through the feed port, the stabilizing device, the extruding device and the discharge port in sequence, the end parts of the cloth are wound on the surfaces of the winding rollers, and then the dyeing agent is poured into the dyeing tank;

s2, adjusting the position of an adjusting plate of an extrusion device according to the level of a coloring agent in a dyeing tank, fixedly connecting the center of the top surface of a movable plate with the output end of a cylinder, connecting the other end of the cylinder with the bottom of a fixed frame, pushing a second rotating plate to move, sliding the inner end of the second rotating plate on the surface of a limiting rod, sliding the outer end of the second rotating plate on the surface of a first sliding rod by using a limiting sleeve until the limiting sleeve is separated from a second gear, starting the cylinder, pulling a support rod to move up and down by using the movable plate, pulling a first gear and a second gear to move synchronously by using the support rod, improving the moving stability of the rotating rod by using a strip groove, rotating the rotating rod by the meshing effect of the first gear and a rack, driving the second gear to rotate synchronously by using the rotating rod, and at the moment, the limiting sleeves on the outer end of the first rotating plate and the outer end of the second rotating plate rotate on the surfaces of the fixing rod and the first sliding rod respectively due to the separation of the limiting sleeve and the second gear, the first gear is meshed with the rack, so that the whole adjusting plate is conveniently driven to move up and down;

s3, because the top roller and the bottom roller utilize the pressure of the positioning plate on the adjusting plate, the pressure of the adjusting plate acts on the inner side ends of the first rotating plate and the second rotating plate, the inner side surfaces of the two sliding frames are mutually attached by the pressure of the adjusting plate, and the positioning plate of the adjusting plate is limited by the convex frame through the positioning rod, so that the adjusting plate is prevented from swinging, the adjusting plate can stably move up and down in the dyeing pond, when the bottom surface of the adjusting plate is level with the horizontal plane of a dyeing agent in the dyeing pond, the air cylinder stops working and pushes the second rotating plate to move, and at the moment, the outer side end of the second rotating plate is meshed with the second gear through the limiting sleeve;

s4, starting a motor, driving a winding roller to rotate by the motor, winding the cloth by the winding roller, ensuring that the rotating speeds of the steering rollers are the same and the laminating effects of the rubber rings and the front and rear outer side surfaces of the dyeing tank are the same when the cloth moves in the dyeing tank due to the limitation of the rubber rings, and avoiding the over-fast movement of the cloth by the friction force of the rubber rings and the dyeing tank when the steering rollers synchronously rotate by the rubber rings, ensuring the tightening effect of the cloth in the dyeing tank and avoiding the wrinkle of the cloth in the dyeing process;

s5, extruding the dyed cloth, starting a cylinder, pulling a support rod to move upwards by a movable plate when the cylinder works, driving a rotating rod to move upwards by the support rod, driving the rotating rod to rotate by a first gear at one end of the rotating rod and a second gear at the other end of the rotating rod to drive a limiting sleeve to rotate synchronously, driving a second rotating plate to rotate by the limiting sleeve, driving a sliding frame to move upwards by the inner end of the second rotating plate by the limiting rod, gradually keeping away two sliding frames in the sliding process of the surface of the second sliding rod, driving an adjusting plate to move upwards by the sliding frame by the second sliding rod and the limiting plate, driving two bottom rods to move upwards by the adjusting plate by a spring at the inner side of a positioning plate, synchronously moving upwards by the two bottom rods and two bottom rollers at the moment, limiting the positioning plate by a convex frame by the positioning rod, extruding a nut on the surface of the positioning rod on a push rod, limiting the top roller by the top rod at the moment, and gradually approaching the bottom rollers to the top roller, the squeezing effect of the top roller and the bottom roller is utilized to conveniently remove the moisture on the surface of the cloth, and the squeezing water removal of the top roller and the bottom roller can further improve the tightness of the cloth;

s6, after the adjusting plate moves upwards for a certain distance through the work of the air cylinder, the air cylinder stops working, the winding roller is used for rotating to conveniently wind the cloth extruded by the top roller and the bottom roller, after the winding roller is wound, the end part of the winding roller is separated from the output end of the motor, the cloth can be cut from the position of the discharge hole, the winding roller is taken down, a new winding roller is installed on the substrate, the end part of the new winding roller is connected with the output end of the motor, the end part of the cut cloth is wound on the surface of the new winding roller, the dyed cloth is conveniently wound by the new winding roller, and the continuous working capacity of the whole dyeing production line is guaranteed.

The invention has the technical effects and advantages that:

1. according to the invention, the cloth is wound by the winding roller, and at the moment, when the cloth moves in the dyeing tank, due to the limitation of the rubber ring, the plurality of steering rollers synchronously rotate in the dyeing tank, so that the rotating speeds of the steering rollers are ensured to be the same, and the rubber ring and the front and rear outer side surfaces of the dyeing tank have the joint effect.

2. According to the cloth material extruding and dewatering device, the nut is rotated, the nut and the positioning rod are in spiral effect, so that the nut can move up and down on the surface of the positioning rod, the actual position of the ejector rod in the chute can be changed conveniently, the primary contact effect between the top roller and the two bottom rollers can be adjusted according to the thickness of cloth materials, the top roller and the bottom rollers can be matched to extrude and dewater the cloth materials with different thicknesses conveniently, the water on the surface of the cloth materials can be removed conveniently by utilizing the extruding effect of the top roller and the bottom rollers, and the cloth material tightening degree can be further improved by the extruding and dewatering of the top roller and the bottom rollers.

3. When the adjusting plate drives the bottom rod to move upwards by using the spring of the positioning plate, the bottom rod drives the bottom roller to move upwards, the bottom roller and the top roller generate extrusion force due to the limitation of the screw cap on the ejector rod, and when the adjusting plate continues to move upwards, the extrusion force of the top roller on the bottom roller enables the bottom roller to extrude the spring by using the bottom rod, the extrusion force of the top roller and the bottom roller on the cloth is ensured by using the elasticity of the spring, and meanwhile, the situation that the cloth is damaged due to the fact that the extrusion force between the top roller and the bottom roller is too large is avoided.

4. According to the invention, the outer side end of the first rotating plate is limited by the rotating rod through the fixing rod, and the limiting rod is matched with the sliding frame through the convex ring, so that the inner side end of the first rotating plate is limited, and the first rotating plate is prevented from moving on the surface of the limiting rod. The inboard end of second commentaries on classics board can slide on the surface of injecing the pole, and the second commentaries on classics board outside end can utilize the injecing cover to slide on first slide bar surface, when the injecing cover was engaged with the second gear, when the bull stick rotated, the second gear utilized the injecing cover to drive the second commentaries on classics board and rotated, thereby the second commentaries on classics board rotates and makes the adjusting plate shift up fast, and when the bull stick shifted up, the bull stick can utilize first commentaries on classics board and second commentaries on classics board to drive the adjusting plate and shift up, thereby improve the distance that shifts up of adjusting plate, improve the extrusion force degree between top roller and the bottom roll.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

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

FIG. 1 is a schematic view showing the overall structure of a nonwoven fabric dyeing production line according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing the structure of the internal components of the dyeing tank according to the embodiment of the invention;

FIG. 3 is a schematic view of the bottom structure of the adjusting plate according to the embodiment of the present invention;

in the figure: 1. a dyeing tank; 2. a feed inlet; 3. a discharge port; 4. distributing; 5. a substrate; 6. a wind-up roll; 7. a turning roll; 8. limiting the sleeve; 9. a rubber ring; 10. rotating the sleeve; 11. a convex frame; 12. a placement groove; 13. moving the plate; 14. a strut; 15. a strip groove; 16. a rotating rod; 17. a first gear; 18. a second gear; 19. a rack; 20. a first slide bar; 21. fixing the rod; 22. an adjustment plate; 23. a limiting plate; 24. a second slide bar; 25. a carriage; 26. a restraining bar; 27. a first rotating plate; 28. a second rotating plate; 29. a limiting sleeve; 30. positioning a plate; 31. a bottom roll; 32. a bottom bar; 33. a vertical rod; 34. a spring; 35. a top roll; 36. a top rod; 37. a chute; 38. positioning a rod; 39. and (4) a nut.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

The invention provides a non-woven fabric dyeing production line which comprises a dyeing tank 1, wherein a feeding hole 2 is formed in the top of one side face of the dyeing tank 1, a discharging hole 3 is formed in the top of the other side face of the dyeing tank 1, the feeding hole 2 and the discharging hole 3 are oppositely arranged, a stabilizing device and an extruding device are respectively arranged inside the dyeing tank 1, a fabric 4 sequentially passes through the feeding hole 2, the stabilizing device, the extruding device and the discharging hole 3, substrates 5 are arranged on two sides of the discharging hole 3 of the dyeing tank 1, a winding roller 6 is arranged on the top of each substrate 5, and one end of each winding roller 6 is connected with the output end of a motor. Utilize wind-up roll 6 to rotate cloth 4 after conveniently extruding top roller 35 and bottom roll 31 to carry out the rolling, after the rolling of wind-up roll 6 is accomplished, with the separation of 6 tip and the motor output of wind-up roll, can decide cloth 4 from discharge gate 3 positions, take off back with wind-up roll 6, install new wind-up roll 6 on base plate 5, be connected new wind-up roll 6 tip and motor output, and the 4 tip of cloth that will decide is around rolling up on new wind-up roll 6 surface, conveniently utilize new wind-up roll 6 to continue to roll the cloth 4 after the dyeing, guarantee the continuous operational capability of whole dyeing production line.

In fig. 1, the stabilizing device comprises four steering rollers 7, a plurality of limiting sleeves 8 which are in one-to-one correspondence with the four steering rollers 7 are arranged on the front inner side wall and the rear inner side wall of the dyeing tank 1, two ends of each steering roller 7 respectively penetrate through the front inner side wall and the rear inner side wall of the dyeing tank 1, rubber rings 9 which are correspondingly matched with the two ends of each steering roller 7 are arranged on the front outer side part and the rear outer side part of the dyeing tank 1, and the end parts of the steering rollers 7 are matched and rotatably connected by the rubber rings 9; the two sides of the surface of the steering roller 7 are spirally sleeved with rotating sleeves 10, and the two rotating sleeves 10 are respectively positioned at the two side edges of the cloth 4. Motor work drives wind-up roll 6 and rotates, wind-up roll 6 rolls cloth 4, cloth 4 when 1 inside removal in dyeing pond this moment, because the injecing of rubber circle 9, a plurality of turning to roller 7 rotate in dyeing pond 1 in step this moment, guarantee to turn to the rotational speed of roller 7 the same, and the laminating effect of lateral surface around rubber circle 9 and the dyeing pond 1, turn to roller 7 when utilizing rubber circle 9 synchronous rotation this moment, utilize the frictional force of rubber circle 9 and dyeing pond 1 to avoid cloth 4 to remove too fast, guarantee cloth 4 at the inside tight effect of dyeing pond 1, avoid cloth 4 the situation of fold to appear at the in-process of dyeing.

In fig. 1 and 2, the inner side wall all is provided with protruding frame 11 around dyeing pond 1, the inside standing groove 12 that is provided with of protruding frame 11, extrusion device includes movable plate 13, movable plate 13 both sides bottom all is provided with branch 14, and two protruding frames 11 all utilize standing groove 12 to correspond and place two branch 14, protruding frame 11 both sides face all is provided with strip groove 15, branch 14 surface runs through and is provided with

bull stick

16, and 16 both ends of bull stick respectively with protruding frame 11 both sides strip groove 15 sliding fit. When the moving plate 13 is used for driving the support rod 14 to move up and down in the operation of the cylinder, the support rod 14 pulls the first gear 17 and the second gear 18 to move synchronously by using the rotating rod 16, and the strip groove 15 improves the moving stability of the rotating rod 16.

In fig. 3, two ends of the rotating rod 16 are respectively provided with a first gear 17 and a second gear 18, the inner side walls of the front and the back of the dyeing tank 1 are respectively provided with a rack 19, the first gear 17 is meshed with the rack 19, the inner side surface of the first gear 17 and the inner side surface of the second gear 18 are respectively correspondingly attached to the two side surfaces of the convex frame 11, one end of the rotating rod 16 where the second gear 18 is located is provided with a first sliding rod 20, one end of the first sliding rod 20 is fixedly connected with the center of the outer side surface of the second gear 18, one end of the rotating rod 16 where the first gear 17 is located is provided with a fixing rod 21, and one end of the fixing rod 21 is fixedly connected with the center of the outer side surface of the first gear 17. The rotation lever 16 defines the outer end of the first rotation plate 27 with the fixing lever 21, and the defining lever 26 cooperates with the carriage 25 with a collar to define the inner end of the first rotation plate 27, thereby preventing the first rotation plate 27 from moving on the surface of the defining lever 26. When the limiting sleeve 29 is engaged with the second gear 18 and the rotating rod 16 rotates, the second gear 18 drives the second rotating plate 28 to rotate by using the limiting sleeve 29, the second rotating plate 28 rotates so that the adjusting plate 22 moves up quickly, and when the rotating rod 16 moves up, the rotating rod 16 can drive the adjusting plate 22 to move up by using the first rotating plate 27 and the second rotating plate 28, so that the upward movement distance of the adjusting plate 22 is increased, and the extrusion force between the top roller 35 and the bottom roller 31 is increased.

In fig. 2 and 3, the pressing device further includes an adjusting plate 22, the adjusting plate 22 is located between the two protruding frames 11, two sides of the bottom surface of the adjusting plate 22 are provided with limiting plates 23, the two limiting plates 23 are fixedly connected by a plurality of second sliding rods 24, two sides of the center of the bottom of the adjusting plate 22 are provided with carriages 25, the second sliding rods 24 penetrate through the two carriages 25, the bottom of the carriage 25 is provided with a limiting rod 26, and the center line of the limiting rod 26 is perpendicular to the center line of the second sliding rod 24. The limiting rod 26 is characterized in that the surfaces of two ends of the limiting rod 26 are respectively sleeved with a first rotating plate 27 and a second rotating plate 28, the outer end of the first rotating plate 27 is rotationally clamped with the fixing rod 21, a protruding ring correspondingly matched with the inner end of the first rotating plate 27 is arranged on the surface of the limiting rod 26, a limiting sleeve 29 is arranged at the outer end of the second rotating plate 28, the limiting sleeve 29 is in sliding fit with the first sliding rod 20, an annular tooth correspondingly meshed with the second gear 18 is arranged on the inner side face of the limiting sleeve 29, and the inner end of the second rotating plate 28 is in sliding fit with the limiting rod 26. Starting the air cylinder, pulling the supporting rod 14 to move up and down by the air cylinder through the moving plate 13, driving the first gear 17 on the surface of the rotating rod 16 to slide on the surface of the rack 19 by the supporting rod 14, enabling the rotating rod 16 to rotate by the meshing effect of the first gear 17 and the rack 19, driving the second gear 18 to synchronously rotate by the rotating rod 16, and driving the whole adjusting plate 22 to move up and down conveniently by the meshing fit of the first gear 17 and the rack 19 as the limiting sleeve 29 is separated from the second gear 18, and the limiting sleeve 29 on the outer side end of the first rotating plate 27 and the limiting sleeve 29 on the outer side end of the second rotating plate 28 respectively rotate on the surfaces of the fixing rod 21 and the first sliding rod 20 at the two ends of the rotating rod 16; because the top roller 35 and the bottom roller 31 utilize the pressure of the positioning plate 30 to the adjusting plate 22, the pressure of the adjusting plate 22 acts on the inner side ends of the first rotating plate 27 and the second rotating plate 28, the inner side surfaces of the two sliding carriages 25 are attached to each other by the pressure of the adjusting plate 22, the positioning plate 30 of the adjusting plate 22 is limited by the convex frame 11 through the positioning rod 38, the adjusting plate 22 is prevented from swinging, the adjusting plate 22 can stably move up and down in the dyeing tank 1, after the bottom surface of the adjusting plate 22 is level with the horizontal plane of the dyeing agent in the dyeing tank 1, the air cylinder stops working, the second rotating plate 28 is pushed to move, and the outer side end of the second rotating plate 28 is meshed with the second gear 18 through the limiting sleeve 29 at the moment. Thereby can be according to the inside dyeing agent horizontal plane adjustment adjusting plate 22's of dyeing pond 1 actual position, the convenient actual position according to how much real-time adjustment adjusting plate 22 of dyeing agent guarantees that 4 extrudees of cloth can not contact the inside dyeing agent of dyeing pond 1.

In fig. 1 and 2, the positioning plates 30 are disposed on two sides of the top surface of the adjusting plate 22, two bottom rollers 31 are correspondingly disposed between the two positioning plates 30 in parallel, a bottom rod 32 penetrates through the center of each bottom roller 31, the two ends of each bottom rod 32 penetrate through the surfaces of the two positioning plates 30 respectively, a vertical rod 33 vertically penetrating through the end of each bottom rod 32 is disposed on the surface of each positioning plate 30, a spring 34 is sleeved on the surface of each vertical rod 33, and the spring 34 is located at the bottom of the bottom rod 32. When adjusting plate 22 utilizes spring 34 of locating plate 30 to drive bottom bar 32 to move up, bottom bar 32 drives bottom roll 31 and moves up this moment, because nut 39 is to the injecing of ejector pin 36, bottom roll 31 and top roll 35 produce the extrusion force, when adjusting plate 22 continues to move up, the extrusion force of top roll 35 to bottom roll 31 makes bottom roll 31 utilize bottom bar 32 to extrude spring 34 this moment, utilize spring 34's elasticity to guarantee top roll 35 and bottom roll 31 to the extrusion power of cloth 4, avoid simultaneously that the extrusion power between top roll 35 and the bottom roll 31 is too big to lead to cloth 4 to appear damaged situation.

In fig. 2, still be provided with top roll 35 between two locating plates 30, top roll 35 is in the center department top of two bottom rollers 31 connecting wire, and top roll 35 is the same with bottom rollers 31's length, top roll 35 both ends terminal surface and bottom rollers 31 both ends tip correspond the laminating with two locating plates 30 medial surfaces respectively, top roll 35 center department runs through and is provided with ejector pin 36, locating plate 30 surface is provided with the spout 37 that corresponds the matching with ejector pin 36, locating plate 30 top surface center department runs through and is provided with locating lever 38, locating lever 38 one end and protruding frame 11 top surface fixed connection, and the locating lever 38 other end runs through locating plate 30 and ejector pin 36 in proper order, and locating lever 38 surface spiral shell cover has screw cap 39, screw cap 39 is in ejector pin 36 top. Can rotate nut 39, nut 39 and locating lever 38's spiral effect and then make nut 39 can reciprocate on locating lever 38 surface, conveniently change the position of ejector pin 36 at the inside reality of spout 37, thereby can be according to the thickness of cloth 4 adjustment top roll 35 and two initial contact effects between the bottom roll 31, make things convenient for top roll 35 and bottom roll 31 cooperation to extrude the dewatering processing to the cloth 4 of different thickness, utilize the extrusion effect of top roll 35 and bottom roll 31, the convenience is detached the moisture on 4 surfaces of cloth, and the extrusion dewatering of top roll 35 and bottom roll 31 can further improve the tight degree of cloth 4.

s1, correspondingly placing the winding roller 6 on the tops of the two substrates 5, wherein the winding roller 6 is arranged corresponding to the discharge port 3, after the cloth 4 sequentially passes through the feed port 2, the stabilizing device, the extruding device and the discharge port 3, the end part of the cloth 4 is wound on the surface of the winding roller 6, and then the coloring agent is poured into the dyeing tank 1;

s2, adjusting the position of an adjusting plate 22 of the extrusion device according to the level of the dyeing agent in the dyeing tank 1, fixedly connecting the center of the top surface of a movable plate 13 with the output end of an air cylinder, connecting the other end of the air cylinder with the bottom of a fixed frame, pushing a second rotating plate 28 to move, sliding the inner end of the second rotating plate 28 on the surface of a limiting rod 26, sliding the outer end of the second rotating plate 28 on the surface of a first sliding rod 20 by using a limiting sleeve 29 until the limiting sleeve 29 is separated from a second gear 18, starting the air cylinder, pulling a support rod 14 to move up and down by using the movable plate 13, pulling a first gear 17 and a second gear 18 to synchronously move by using the support rod 16, improving the moving stability of the support rod 16 by using a strip groove 15, rotating the support rod 16 by the meshing effect of the first gear 17 and a rack 19, driving the second gear 18 to synchronously rotate by using the support rod 16, and separating the limiting sleeve 29 from the second gear 18, wherein the limiting sleeves 29 at the outer end of the first rotating plate 27 and the outer end of the second rotating plate 28 are respectively on the two ends of the support rod 16 The fixed rod 21 and the surface of the first sliding rod 20 rotate, and the whole adjusting plate 22 is conveniently driven to move up and down by utilizing the meshing fit of the first gear 17 and the rack 19;

s3, because the top roller 35 and the bottom roller 31 utilize the pressure of the positioning plate 30 to the adjusting plate 22, at this time, the pressure of the adjusting plate 22 acts on the inner side ends of the first rotating plate 27 and the second rotating plate 28, the pressure of the adjusting plate 22 enables the inner side surfaces of the two carriages 25 to be mutually attached, the convex frame 11 utilizes the positioning rod 38 to limit the positioning plate 30 of the adjusting plate 22, the adjusting plate 22 is prevented from swinging, the adjusting plate 22 can stably move up and down in the dyeing tank 1, after the bottom surface of the adjusting plate 22 is level with the horizontal plane of the dyeing agent in the dyeing tank 1, the air cylinder stops working and pushes the second rotating plate 28 to move, at this time, the outer side end of the second rotating plate 28 is meshed with the second gear 18 through the limiting sleeve 29;

s4, a motor is started, the motor works to drive a winding roller 6 to rotate, the winding roller 6 winds the cloth 4, when the cloth 4 moves in the dyeing tank 1 at the moment, due to the limitation of a rubber ring 9, a plurality of steering rollers 7 synchronously rotate in the dyeing tank 1 at the moment, the rotating speeds of the steering rollers 7 are guaranteed to be the same, the rubber ring 9 is attached to the front outer side surface and the rear outer side surface of the dyeing tank 1, when the steering rollers 7 synchronously rotate by utilizing the rubber ring 9 at the moment, the cloth 4 is prevented from moving too fast by utilizing the friction force of the rubber ring 9 and the dyeing tank 1, the tightening effect of the cloth 4 in the dyeing tank 1 is guaranteed, and the condition that the cloth 4 is wrinkled in the dyeing process is avoided;

s5, the dyed cloth 4 needs to be extruded, the air cylinder is started, the air cylinder works, the movable plate 13 pulls the support rod 14 to move upwards, at the moment, the support rod 14 drives the rotating rod 16 to move upwards, the first gear 17 at one end of the rotating rod 16 is meshed with the rack 19 to enable the rotating rod 16 to rotate, the second gear 18 at the other end of the rotating rod 16 drives the limiting sleeve 29 to synchronously rotate, the limiting sleeve 29 drives the second rotating plate 28 to rotate, the inner side end of the second rotating plate 28 pushes the sliding frame 25 to move upwards by the limiting rod 26, the two sliding frames 25 gradually move away in the process of sliding on the surface of the second sliding rod 24, the sliding frame 25 drives the adjusting plate 22 to move upwards by the second sliding rod 24 and the limiting plate 23, the adjusting plate 22 drives the two bottom rods 32 to move upwards by the spring 34 inside the positioning plate 30, at the moment, the two bottom rods 32 and the two bottom rollers 31 synchronously move upwards, because the convex frame 11 limits the positioning plate 30 by the positioning rod 38, and the nut 39 on the surface of the positioning rod 38 extrudes the top rod 36, the top roller 35 is limited by the top rod 36, the bottom roller 31 is gradually close to the top roller 35, the water on the surface of the cloth 4 is conveniently removed by utilizing the extrusion effect of the top roller 35 and the bottom roller 31, and the tightness of the cloth 4 can be further improved by the extrusion water removal of the top roller 35 and the bottom roller 31;

s6, after the adjusting plate 22 moves upwards for a certain distance through the work of the air cylinder, the air cylinder stops working, the winding roller 6 is utilized to rotate to conveniently wind the cloth 4 extruded by the top roller 35 and the bottom roller 31, after the winding roller 6 completes winding, the end part of the winding roller 6 is separated from the output end of the motor, the cloth 4 can be cut from the position of the discharge port 3, after the winding roller 6 is taken down, the new winding roller 6 is installed on the substrate 5, the end part of the new winding roller 6 is connected with the output end of the motor, the cut end part of the cloth 4 is wound on the surface of the new winding roller 6, the dyed cloth 4 is conveniently wound by the new winding roller 6, and the continuous working capacity of the whole dyeing production line is ensured.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a non-woven fabrics dyeing production line, includes dyeing tank (1), its characterized in that: dyeing pond (1) side top is provided with feed inlet (2), and dyeing pond (1) another side top is provided with discharge gate (3), feed inlet (2) and discharge gate (3) set up relatively, and dyeing pond (1) is inside to be provided with stabilising arrangement and extrusion device respectively, and cloth (4) pass through feed inlet (2), stabilising arrangement, extrusion device and discharge gate (3) in proper order, discharge gate (3) both sides of dyeing pond (1) all are provided with base plate (5), wind-up roll (6) have been placed at base plate (5) top, wind-up roll (6) one end is connected with the motor output.

2. The non-woven fabric dyeing production line according to claim 1, characterized in that: the stabilizing device comprises four steering rollers (7), a plurality of limiting sleeves (8) which are in one-to-one correspondence with the four steering rollers (7) are arranged on the front inner side wall and the rear inner side wall of the dyeing tank (1), two ends of each steering roller (7) respectively penetrate through the front inner side wall and the rear inner side wall of the dyeing tank (1), rubber rings (9) which are correspondingly matched with the two ends of each steering roller (7) are arranged on the front outer side portion and the rear outer side portion of the dyeing tank (1), and the end portions of the steering rollers (7) are matched and rotatably connected through the rubber rings (9); the two sides of the surface of the steering roller (7) are spirally sleeved with rotating sleeves (10), and the two rotating sleeves (10) are respectively positioned at the two side edges of the cloth (4).

3. The non-woven fabric dyeing production line according to claim 1, characterized in that: the inside wall all is provided with protruding frame (11) around dyeing pond (1), inside standing groove (12) of being provided with of protruding frame (11), extrusion device includes movable plate (13), movable plate (13) both sides bottom all is provided with branch (14), and just two protruding frames (11) all utilize standing groove (12) to correspond and place two branch (14), protruding frame (11) both sides face all is provided with strip groove (15), branch (14) surface runs through and is provided with bull stick (16), and bull stick (16) both ends respectively with protruding frame (11) both sides strip groove (15) sliding fit.

4. The non-woven fabric dyeing production line according to claim 3, characterized in that: the utility model discloses a dyeing pond, including bull stick (16), dyeing pond (1), rack (11), bull stick (16) both ends are provided with first gear (17) and second gear (18) respectively, the inside wall all is provided with rack (19) around dyeing pond (1), first gear (17) and rack (19) meshing, first gear (17) medial surface and second gear (18) medial surface correspond the laminating with protruding frame (11) both sides face respectively, the one end at second gear (18) place of bull stick (16) is provided with first slide bar (20), first slide bar (20) one end and second gear (18) lateral surface center department fixed connection, the one end at first gear (17) place of bull stick (16) is provided with dead lever (21), dead lever (21) one end and first gear (17) lateral surface center department fixed connection.

5. The non-woven fabric dyeing production line according to claim 4, characterized in that: the extrusion device further comprises an adjusting plate (22), the adjusting plate (22) is located between the two convex frames (11), limiting plates (23) are arranged on two sides of the bottom surface of the adjusting plate (22), the two limiting plates (23) are fixedly connected through a plurality of second sliding rods (24), sliding carriages (25) are arranged on two sides of the center of the bottom of the adjusting plate (22), the second sliding rods (24) penetrate through the two sliding carriages (25), limiting rods (26) are arranged at the bottoms of the sliding carriages (25), and the center lines of the limiting rods (26) are perpendicular to the center line of the second sliding rods (24).

6. The non-woven fabric dyeing production line according to claim 5, characterized in that: the utility model discloses a gear limiting device, including limiting rod (26), first commentaries on classics board (27) and second commentaries on classics board (28) medial extremity are cup jointed respectively to limiting rod (26) both ends surface, first commentaries on classics board (27) outside end rotates the joint with dead lever (21), and limiting rod (26) surface is provided with the bulge loop that corresponds the matching with first commentaries on classics board (27) medial extremity, second commentaries on classics board (28) outside end is provided with limiting sleeve (29), limiting sleeve (29) and first slide bar (20) sliding fit, and limiting sleeve (29) medial surface is provided with the annular tooth that corresponds the meshing with second gear (18), and second commentaries on classics board (28) medial extremity and limiting rod (26) sliding fit.

7. The non-woven fabric dyeing production line according to claim 5, characterized in that: adjusting plate (22) top surface both sides all are provided with locating plate (30), correspond between two locating plates (30) and are provided with two bottom rollers (31) side by side, and bottom roller (31) center department runs through and is provided with sill bar (32), two locating plate (30) surfaces are run through respectively at sill bar (32) both ends, locating plate (30) surface is provided with vertical montant (33) that run through sill bar (32) tip, spring (34) have been cup jointed on montant (33) surface, spring (34) are in sill bar (32) bottom.

8. The non-woven fabric dyeing production line according to claim 7, characterized in that: a top roller (35) is also arranged between the two positioning plates (30), the top roller (35) is positioned at the top of the center of the connecting line of the two bottom rollers (31), the top roller (35) and the bottom roller (31) have the same length, the end surfaces of the two ends of the top roller (35) and the end parts of the two ends of the bottom roller (31) are respectively correspondingly attached to the inner side surfaces of the two positioning plates (30), a top rod (36) penetrates through the center of the top roller (35), a sliding groove (37) correspondingly matched with the top rod (36) is arranged on the surface of the positioning plate (30), a positioning rod (38) is arranged at the center of the top surface of the positioning plate (30) in a penetrating way, one end of the positioning rod (38) is fixedly connected with the top surface of the convex frame (11), the other end of the positioning rod (38) sequentially penetrates through the positioning plate (30) and the ejector rod (36), and the surface of the positioning rod (38) is spirally sleeved with a screw cap (39), and the screw cap (39) is positioned at the top of the ejector rod (36).

9. The process for dyeing nonwoven fabrics according to any one of claims 1 to 8, characterized in that: the method comprises the following steps:

s1, correspondingly placing the winding rollers (6) on the tops of the two substrates (5), wherein the winding rollers (6) are arranged correspondingly to the discharge hole (3), after the cloth (4) sequentially passes through the feed hole (2), the stabilizing device, the extruding device and the discharge hole (3), the end parts of the cloth (4) are wound on the surfaces of the winding rollers (6), and then pouring a coloring agent into the dyeing tank (1);

s2, adjusting the position of an adjusting plate (22) of the extrusion device according to the level of the dyeing agent in the dyeing tank (1), fixedly connecting the center of the top surface of a movable plate (13) with the output end of a cylinder, connecting the other end of the cylinder with the bottom of a fixed frame, pushing a second rotating plate (28) to move, sliding the inner end of the second rotating plate (28) on the surface of a limiting rod (26), sliding the outer end of the second rotating plate (28) on the surface of a first sliding rod (20) by using a limiting sleeve (29) until the limiting sleeve (29) is separated from a second gear (18), starting the cylinder, pulling a support rod (14) to move up and down by using the movable plate (13), pulling a first gear (17) and a second gear (18) to synchronously move by using the rotating rod (16) for the support rod (14), improving the moving stability of the rotating rod (16) by using a strip groove (15), and enabling the rotating rod (16) to rotate by the meshing effect of the first gear (17) and a rack (19), the rotating rod (16) drives the second gear (18) to synchronously rotate, and due to the fact that the limiting sleeve (29) is separated from the second gear (18), the limiting sleeves (29) at the outer side end of the first rotating plate (27) and the outer side end of the second rotating plate (28) respectively rotate on the surfaces of the fixing rod (21) and the first sliding rod (20) at the two ends of the rotating rod (16), and the whole adjusting plate (22) is conveniently driven to move up and down by means of meshing and matching of the first gear (17) and the rack (19);

s3, because the top roller (35) and the bottom roller (31) utilize the pressure of the positioning plate (30) to the adjusting plate (22), at the moment, the pressure of the adjusting plate (22) acts on the inner side ends of the first rotating plate (27) and the second rotating plate (28), the pressure of the adjusting plate (22) enables the inner side surfaces of the two carriages (25) to be attached to each other, the convex frame (11) utilizes the positioning rod (38) to limit the positioning plate (30) of the adjusting plate (22), the adjusting plate (22) is prevented from swinging, the adjusting plate (22) can stably move up and down on the inner side of the dyeing tank (1), when the bottom surface of the adjusting plate (22) is level with the horizontal plane of the dyeing agent in the dyeing tank (1), the air cylinder stops working and pushes the second rotating plate (28) to move, and at the moment, the outer side end of the second rotating plate (28) is meshed with the second gear (18) through the limiting sleeve (29);

s4, a motor is started, the motor works to drive a winding roller (6) to rotate, the winding roller (6) winds the cloth (4), the cloth (4) moves in a dyeing pool (1) at the moment, due to the limitation of a rubber ring (9), a plurality of steering rollers (7) synchronously rotate in the dyeing pool (1) at the moment, the rotating speed of the steering rollers (7) is ensured to be the same, the rubber ring (9) is attached to the front outer side surface and the rear outer side surface of the dyeing pool (1), when the steering rollers (7) synchronously rotate by using the rubber ring (9), the cloth (4) is prevented from moving too fast by using the friction force of the rubber ring (9) and the dyeing pool (1), the tightening effect of the cloth (4) in the dyeing pool (1) is ensured, and the wrinkle of the cloth (4) in the dyeing process is avoided;

s5, extruding the dyed cloth (4), starting a cylinder, pulling a support rod (14) to move upwards by using a moving plate (13) when the cylinder works, driving a rotating rod (16) to move upwards by using the support rod (14), driving a limiting sleeve (29) to synchronously rotate by using a second gear (18) at the other end of the rotating rod (16) through the meshing effect of a first gear (17) at one end of the rotating rod (16) and a rack (19), driving a second rotating plate (28) to rotate by using the limiting sleeve (29), pushing a sliding frame (25) to move upwards by using a limiting rod (26) at the inner side end of the second rotating plate (28), gradually keeping away two sliding frames (25) in the sliding process of the surface of the second sliding rod (24), driving an adjusting plate (22) to move upwards by using the second sliding rod (24) and the limiting plate (23) of the sliding frame (25), driving two bottom rods (32) to move upwards by using a spring (34) at the inner side of a positioning plate (30) of the adjusting plate (22), at the moment, the two bottom rods (32) and the two bottom rollers (31) move upwards synchronously, the convex frame (11) limits the positioning plate (30) by using the positioning rod (38), the screw cap (39) on the surface of the positioning rod (38) extrudes the ejector rod (36), the ejector rod (36) limits the top roller (35), the bottom rollers (31) are gradually close to the top rollers (35), the water on the surface of the cloth (4) is conveniently removed by using the extrusion effect of the top rollers (35) and the bottom rollers (31), and the tightness of the cloth (4) can be further improved by the extrusion water removal of the top rollers (35) and the bottom rollers (31);

s6, after the adjusting plate (22) moves upwards for a certain distance through the work of the air cylinder, the air cylinder stops working, the winding roller (6) is rotated to conveniently wind the cloth (4) extruded by the top roller (35) and the bottom roller (31), after the winding roller (6) is wound, the end part of the winding roller (6) is separated from the output end of the motor, the cloth (4) can be cut from the position of the discharge hole (3), the winding roller (6) is taken down and then installed on the substrate (5), the end part of the new winding roller (6) is connected with the output end of the motor, the end part of the cut cloth (4) is wound on the surface of the new winding roller (6), the dyed cloth (4) is conveniently wound by the new winding roller (6), and the continuous working capacity of the whole dyeing production line is guaranteed.