CN115142155A

CN115142155A - Combined carding machine for micro-nano fiber companion-spinning perfuming wool tops and working method of combined carding machine

Info

Publication number: CN115142155A
Application number: CN202210723966.2A
Authority: CN
Inventors: 王荣武; 熊成东; 罗彬�; 王黎明; 覃小红
Original assignee: Donghua University
Current assignee: Donghua University
Priority date: 2022-06-24
Filing date: 2022-06-24
Publication date: 2022-10-04

Abstract

A combined carding machine for micro-nano fiber companion-spinning perfuming wool tops comprises a wool type carding machine, an electrostatic spinning machine, a cluster bell mouth and a sliver can, wherein the electrostatic spinning machine comprises a negative pressure adsorption device, the negative pressure adsorption device comprises a circulating fiber net curtain, a negative pressure adsorber is arranged inside the circulating fiber net curtain, a spinning liquid supply table is arranged on an object placing flat plate, a mixture of essence microcapsules and spinning liquid is filled in the spinning liquid supply table, a spherical spray head is arranged on the spinning liquid supply table, the spinning liquid supply table is electrically connected with a high-voltage generator, the micro-nano fiber and a wool fiber net form a blended composite fiber net under the dual actions of electric field force and adsorption force of the negative pressure adsorber, the blended composite fiber net is further clasped and blended through the cluster bell mouth to form the micro-nano fiber companion-spinning perfuming wool tops, and the prepared micro-nano fiber companion-spinning perfuming wool tops not only preserve the original intrinsic characteristics of the wool tops, but also increase the slow-release lasting fresh fragrance.

Description

Combined carding machine for micro-nano fiber companion-spinning perfuming wool tops and working method of combined carding machine

Technical Field

The invention relates to the technical field of carding machine production, in particular to a combined carding machine for micro-nano fiber and worsted fragrant wool tops and a working method thereof.

Background

The natural fiber has comfortable skin feeling, is green and healthy, and is always the preferred of daily wearing in daily life. The clothes are a fashion pursuing beauty and health in the society of rapid development of economy at present. The aromatic textile processed by special treatment can make consumers feel relaxed and happy like bathing in spring. Therefore, how to bring the skin-friendly feeling of the fabric and the fragrance from the nature to the human is both practical requirements of clothes and health trend of new times. However, due to the special surface scale structure of wool and the grease layer, modification and finishing of the product become difficult and complicated. In particular, the functional endowment and the wearing use development of the product have the defects of multiple chemical treatment processes and high energy consumption. Therefore, the development of the green low-pollution technology of the perfumed wool fiber product is always the key for production and preparation, and the perfumed wool fiber product is a green functional wearable safe-driving pilot.

The traditional functional development of wool fiber products needs to peel off or damage the scale structure of wool, which causes the loss of the curling intrinsic property of wool, thereby causing the reduction of the basic mechanical strength and the hand feeling comfort.

In view of the above problems, an effective solution is urgently needed.

Disclosure of Invention

The invention mainly aims to provide a combined carding machine for micro-nano fibers and worsted fragrant wool tops and a working method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a little nanofiber companion spins combined carding machine of perfuming wool top, includes wool type carding machine and can, its characterized in that: the discharge gate of wool type carding machine is provided with first upper pressure live-rollers and first lower pressure live-rollers, the feed inlet of a sliver can is provided with second upper pressure live-rollers and second lower pressure live-rollers relatively, the clearance between first upper pressure live-rollers, first lower pressure live-rollers and the clearance of second upper pressure live-rollers, second lower pressure live-rollers have formed a horizontal transport face, the centre of horizontal transport face is provided with electrostatic spinning machine, electrostatic spinning machine includes negative pressure adsorption equipment, negative pressure adsorption equipment includes circulating fiber net curtain, circulating fiber net curtain passes through the driving roller and drives, the inside negative pressure adsorber that is provided with of circulating fiber net curtain, circulating fiber net curtain's bottom surface is located horizontal transport face's top and with horizontal transport face is parallel, the below of horizontal transport face is provided with puts the thing flat board, it is provided with the spinning confession liquid platform to put the spinning, the mixture of essence and spinning liquid is equipped with in the spinning confession liquid supply platform, be provided with spherical shower nozzle on the spinning confession liquid supply platform with spinning generator electric connection, horizontal transport face with horn is tied in the sliver can.

Optionally, the conveying speed of the horizontal conveying surface is 0.01-1 m/s.

Optionally, the content of the essence microcapsule in the spinning solution is 0.1wt% to 30wt%.

Optionally, the electrostatic spinning machine has the following process parameters: the voltage is 20-60 kV, the receiving distance is 5-30 cm, the diameter of the spherical nozzle is 2-20 cm, the rotating speed is 0.01-30 rpm, the supply rate of the mixture of the essence microcapsule and the spinning solution is 10-100 ml/h, the ambient temperature is 10-90 ℃, and the ambient humidity is 20-80%.

Optionally, the wool type carding machine comprises a chest cylinder, a main cylinder and a doffer, wherein the chest cylinder, the main cylinder and the doffer are sequentially butted, the front end of the chest cylinder is butted with a licker-in, the licker-in is butted with a feeding roller, the main cylinder is provided with a working roller and a wool stripping roller, a transfer roller is arranged between the main cylinder and the doffer, and the rear end of the doffer is butted with a condensing roller and a wool stripping roller.

Optionally, the working method is as follows:

s1, wool loose fibers enter a wool type carding machine to be carded to obtain a wool fiber net;

s2, the wool fiber net is conveyed on a horizontal conveying surface after coming out of a discharge port of a wool type carding machine, the wool fiber net is tightly attached to a circulating fiber net curtain under the action of a negative pressure absorber in the conveying process, meanwhile, under the action of a high-pressure generator, a mixture of spinning solution and essence microcapsules in a spinning solution supply table generates a large number of micro-nano fibers on a spherical nozzle, and the micro-nano fibers are accompanied on the wool fiber net to form a blended composite fiber net under the dual actions of electric field force and the negative pressure absorber;

s3, further cohesion and blending of the blended composite fiber net through a cluster horn mouth to form micro-nano fiber companion spinning perfuming wool tops;

and S4, finally, allowing the micro-nano fiber companion spinning perfuming wool tops to fall into a can.

The invention provides a combined carding machine for micro-nano fiber companion-spinning perfuming wool tops and a working method thereof, and the combined carding machine has the following beneficial effects:

the loss of fibers is reduced under the action of negative pressure adsorption, the accompanying force of the wool fiber net and the micro-nano fibers is enhanced, the micro-nano fibers and the wool fiber net form a blended composite fiber net under the dual actions of electric field force and the adsorption force of a negative pressure adsorber, then the blended composite fiber net is further cohered and blended through a cluster horn mouth to form micro-nano fiber accompanying spinning fragrant wool tops, and the prepared micro-nano fiber accompanying spinning fragrant wool tops not only preserve the original intrinsic characteristics of the wool tops, but also increase the slow-release lasting fresh fragrance.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the radial structure of the micro-nanofiber companion-spinning perfuming wool top prepared by the invention.

In the figure:

1. a wool card; 11. chest cylinder; 12. a main cylinder; 13. a doffer; 14. a licker-in; 15; a feed roller; 16. a work roll; 17. stripping a wool roller; 18. a transfer roll; 19. a condensing roller; 20. a wool stripping roller; 2. an electrostatic spinning machine; 21. circulating the web of fibers; 22. a negative pressure adsorber; 23. a driving roller; 24. placing a flat plate; 25. a spinning solution supply table; 26. a spherical nozzle; 27. a high voltage generator; 3. a first upper pressure rotating roller; 4. a first lower pressure rotating roller; 5. a second upper pressure rotating roller; 6. a second press-down rotating roller; 7. a horizontal conveying surface; 8. a cluster bell mouth; 9. and (4) barrel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

In the first embodiment, as shown in fig. 1, a combined carding machine for micro-nano fiber companion spinning and perfuming wool tops comprises a wool type carding machine 1 and a sliver can 9, a discharge port of the wool type carding machine 1 is provided with a first upper pressure rotating roller 3 and a first lower pressure rotating roller 4, a feed port of the sliver can 9 is relatively provided with a second upper pressure rotating roller 5 and a second lower pressure rotating roller 6, a gap between the first upper pressure rotating roller 3 and the first lower pressure rotating roller 4 and a gap between the second upper pressure rotating roller 5 and the second lower pressure rotating roller 6 form a horizontal conveying surface 7, an electrostatic spinning machine 2 is arranged in the middle of the horizontal conveying surface 7, the electrostatic spinning machine 2 comprises a negative pressure adsorption device, the negative pressure adsorption device comprises a spinning fiber net curtain 21, the spinning fiber net curtain 21 is driven by a driving roller 23, a negative pressure adsorber 22 is arranged inside the spinning fiber net curtain 21, the bottom surface of the spinning fiber net curtain 21 is located above the horizontal conveying surface 7 and is parallel to the horizontal conveying surface 7, a material storage and material storage surface 7 is provided with a horizontal liquid supply and liquid supply platform 24, a liquid supply platform 25 is arranged below the spinning platform 25, and a microcapsule liquid supply platform 25 is arranged in which is connected with a microcapsule production platform 25, and a microcapsule production platform 25 are arranged in which are arranged, and a microcapsule production platform 25 are arranged in the spinning platform.

Wherein the conveying speed of the horizontal conveying surface 7 is 0.01-1 m/s, the content of the essence microcapsules in the spinning solution is 0.1-30 wt%, and the technological parameters of the electrostatic spinning machine 2 are as follows: the voltage is 20-60 kV, the receiving distance is 5-30 cm, the diameter of the spherical nozzle 26 is 2-20 cm, the rotating speed is 0.01-30 rpm, the supply rate of the mixture of the essence microcapsule and the spinning solution is 10-100 ml/h, the ambient temperature is 10-90 ℃, and the ambient humidity is 20-80%.

The working principle is as follows:

wool loose fibers enter a wool type carding machine 1 and are carded to obtain a wool fiber web, the wool fiber web is conveyed on a horizontal conveying surface 7 formed by a gap between a first upper pressure rotating roller 3 and a first lower pressure rotating roller 4 and a gap between a second upper pressure rotating roller 5 and a second lower pressure rotating roller 6 after coming out of a discharge port of the wool type carding machine 1, the wool fiber web is tightly attached to a circulating fiber net curtain 21 under the action of a negative pressure absorber 22 in the conveying process, meanwhile, the circulating fiber net curtain 21 serves as a receiving device, under the action of a high pressure generator 27, electric field force is generated between a spinning liquid supply table 25 and the circulating fiber net curtain 21, a mixture of spinning liquid and a fine capsule in the spinning liquid supply table 25 generates a large number of micro-nano fibers on a spherical spray nozzle 26, the micro-nano fibers are associated with the wool fiber net to form a blended composite fiber web under the double actions of the electric field force and the adsorption force of the negative pressure absorber 22, the blended composite fiber web is further clasped to form micro-nano-blended wool-blended sliver strips through a bundling horn 8, and finally, the blended wool-sliver is dropped into a wool-sliver barrel 9.

The fiber loss is reduced and the accompanying force of the wool fiber net and the micro-nano fibers is enhanced under the action of negative pressure adsorption, the micro-nano fibers and the wool fiber net form a blended composite fiber net through the dual action of the electric field force and the adsorption force of the negative pressure adsorber 22, and then the blended composite fiber net is further cohered and blended through the bundling bell mouth 8 to form the micro-nano fiber accompanying spinning perfuming wool top.

In this example, the conveying speed of the wool fiber web is 0.1m/s, the content of the essence microcapsules in the mixture of the spinning solution and the essence microcapsules is 10wt%, and the process parameters of the electrostatic spinning machine 2 are as follows: the voltage was 40kV, the acceptance distance was 12cm, the diameter of the spherical nozzle 26 was 8cm, the rotation speed was 20rpm, the spinning solution feed rate was 20ml/h, the ambient temperature was 25 ℃ and the ambient humidity was 55%.

As shown in fig. 2, micro-nano single fibers 31 and wool single fibers 30 on the prepared micro-nano companion spinning perfuming wool top radial structure are well companion, and are uniformly dispersed and cohered.

In this embodiment, the essence microcapsule is a linalool/β -cyclodextrin inclusion compound, the base polymer is polyacrylonitrile, the contents of which are 4wt% and 12wt%, respectively, and the solvent is dimethylformamide, wherein the preparation method of the essence microcapsule comprises: dissolving 10% (w/v) of beta-cyclodextrin in a binary solvent (deionized water: absolute ethyl alcohol = 2).

In the second embodiment, as a further alternative of the first embodiment, the wool type carding machine 1 includes a chest cylinder 11, a main cylinder 12, and a doffer 13, the chest cylinder 11, the main cylinder 12, and the doffer 13 are sequentially butted, a licker-in roll 14 is butted at the front end of the chest cylinder 11, a feeding roll 15 is butted at the licker-in roll 14, a working roll 16 and a wool peeling roll 17 are arranged on the main cylinder 12, a transfer roll 18 is arranged between the main cylinder 12 and the doffer 13, a condensing roll 19 and a wool peeling roll 20 are butted at the rear end of the doffer 13, the feeding roll 15 and the licker-in roll 14 are feed inlets of the wool type carding machine 1, the condensing roll 19 and the wool peeling roll 20 are discharge outlets of the wool type carding machine 1, wool loose fibers enter the wool type carding machine 1 through the feeding roll 15 and the licker-in roll 14, the chest cylinder 11, the main cylinder 12, and the doffer 13 perform wool loose fibers on the wool loose fibers, the transfer roll 18 transfers the wool loose fibers from the main cylinder 13 to the doffer 13, and finally the wool loose fibers are output into a wool carding web through the stripping roll 19 and the carding roller 20.

As a further alternative of the first embodiment, the working method includes:

s1, wool loose fibers enter a wool type carding machine 1 to be carded to obtain a wool fiber net;

s2, the wool fiber net is conveyed on a horizontal conveying surface 7 after coming out of a discharge port of the wool type carding machine 1, the wool fiber net is tightly attached to a circulating fiber net curtain 21 under the action of a negative pressure absorber 22 in the conveying process, meanwhile, under the action of a high-pressure generator 27, a mixture of spinning solution and essence microcapsules in a spinning solution supply table 25 generates a large number of micro-nano fibers on a spherical spray nozzle 26, and the micro-nano fibers are accompanied on the wool fiber net to form a blended composite fiber net under the dual action of electric field force and the adsorption force of the negative pressure absorber 22;

s3, further cohesion and blending of the blended composite fiber net through a cluster bell mouth 8 to form micro-nano fiber companion spinning perfuming wool tops;

and S4, finally, the micro-nano fiber companion spinning perfuming wool tops fall into a can 9.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; 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. A combined carding machine for micro-nano fiber companion spinning perfuming wool tops comprises a wool type carding machine (1) and a sliver can (9), and is characterized in that: the device is characterized in that a discharge port of the wool type carding machine (1) is provided with a first upper pressure rotating roller (3) and a first lower pressure rotating roller (4), a feed port of a can (9) is relatively provided with a second upper pressure rotating roller (5) and a second lower pressure rotating roller (6), a gap between the first upper pressure rotating roller (3) and the first lower pressure rotating roller (4) and a gap between the second upper pressure rotating roller (5) and the second lower pressure rotating roller (6) form a horizontal conveying surface (7), an electrostatic spinning machine (2) is arranged in the middle of the horizontal conveying surface (7), the electrostatic spinning machine (2) comprises a negative pressure adsorption device, the negative pressure adsorption device comprises a circulating fiber mesh curtain (21), the circulating fiber mesh curtain (21) is driven by a driving roller (23), a negative pressure adsorption device (22) is arranged inside the circulating fiber mesh curtain (21), the bottom surface of the circulating fiber mesh curtain (21) is positioned above the horizontal conveying surface (7) and is parallel to the horizontal conveying surface (7), a liquid supply and liquid supply platform (24) is arranged below the horizontal conveying surface (7), a microcapsule liquid supply platform (25) is arranged on the horizontal conveying surface (24) and a microcapsule spinning liquid supply platform (25) is arranged on the spinning platform, a microcapsule liquid supply platform (25) and a microcapsule liquid supply platform (25) are arranged on the spinning platform, a cluster horn mouth (8) is arranged between the horizontal conveying surface (7) and the can (9).

2. The combined carding machine for the micro-nano fiber companion-spun fragrant wool top according to claim 1, characterized in that: the conveying speed of the horizontal conveying surface (7) is 0.01-1 m/s.

3. The combined carding machine for the micro-nano fiber companion-spun fragrant wool top according to claim 1, characterized in that: the content of the essence microcapsule in the spinning solution is 0.1wt% -30 wt%.

4. The combined carding machine for the micro-nano fiber companion-spun fragrant wool top according to claim 1, characterized in that: the electrostatic spinning machine (2) has the following technological parameters: the voltage is 20-60 kV, the receiving distance is 5-30 cm, the diameter of the spherical nozzle (26) is 2-20 cm, the rotating speed is 0.01-30 rpm, the feeding speed of the mixture of the essence microcapsule and the spinning solution is 10-100 ml/h, the environmental temperature is 10-90 ℃, and the environmental humidity is 20-80%.

5. The combined carding machine for the micro-nano fiber companion-spun fragrant wool top according to claim 1, characterized in that: wool type carding machine (1) is including chest cylinder (11), main cylinder (12), doffer (13), chest cylinder (11), main cylinder (12), doffer (13) dock in proper order, the front end butt joint of chest cylinder (11) has licker-in (14), licker-in (14) are to having feeding roller (15), be provided with work roller (16) and shell roller (17) on main cylinder (12), be provided with between main cylinder (12) and the doffer (13) and shift roller (18), the rear end butt joint of doffer (13) has condensation roller (19) and shells a hair roller (20).

6. The working method of the combined carding machine for the companion-spun fragrant wool tops of micro-nano fibers according to claim 1, is characterized in that:

s1, wool loose fibers enter a wool type carding machine (1) and are carded to obtain a wool fiber net;

s2, a wool fiber net is conveyed on a horizontal conveying surface (7) after coming out of a discharge port of a wool type carding machine (1), the wool fiber net is tightly attached to a circulating fiber net curtain (21) under the action of a negative pressure absorber (22) in the conveying process, meanwhile, under the action of a high pressure generator (27), a mixture of spinning solution and essence microcapsules in a spinning solution supply table (25) generates a large number of micro-nano fibers on a spherical nozzle (26), and the micro-nano fibers are accompanied on the wool fiber net to form a blended composite fiber net under the dual actions of electric field force and the negative pressure absorber (22);

s3, further carrying out cohesion and blending on the blended composite fiber web through a bundling horn mouth (8) to form micro-nano fiber companion spinning perfuming wool tops;

and S4, finally, the micro-nano fiber companion spinning perfuming wool tops fall into a can (9).