CN112746360B - Weft knitting method suitable for moisture-absorbing and breathable fabric - Google Patents

Abstract

The invention belongs to the technical field of weaving methods, and particularly relates to a weft knitting method suitable for a moisture-absorbing breathable fabric. The yarn oiling mechanism has the advantages of proper yarn oiling amount, small resistance in the subsequent weaving process, no pollution to cloth, high stability of the oiling mechanism, flexible and adjustable oiling amount, capability of adjusting oiling speeds to be consistent by the upper and lower groups of yarn oiling structures, capability of eliminating influence factors of oil body hydraulic pressure on the oiling speed, controllability and check in the whole oiling process, high sealing performance, stable whole oiling operation and high efficiency.

Description

Weft knitting method suitable for moisture-absorbing and breathable fabric

Technical Field

The invention belongs to the technical field of weaving methods, and particularly relates to a weft knitting method suitable for a moisture-absorbing breathable fabric.

Background

The moisture-absorbing and breathable fabric refers to a class of fabric with strong moisture-absorbing capacity and air permeability, and common moisture-absorbing and breathable fabrics include pure cotton fabric, pure hemp fabric, cotton-hemp blended fabric, polyester-cotton blended fabric and the like.

In addition, the weaving method of the fabric mainly comprises warp knitting, weft knitting and warp knitting mixed knitting, wherein weft knitting is the most common method, and cotton yarns or linen yarns used by the fabric need to be subjected to spinning operation before weft knitting so as to enable the cotton yarns or the linen yarns to have at least proper surface finish.

On the other hand, most of the spinning operations of the weft knitting methods in the prior art have the problem that the surface treatment of the yarns is not in place to a certain extent, and the problem finally reflected is that the yarns are seriously worn during knitting and have large resistance when passing through a knitting needle, so that the weft knitting method with proper surface finish treatment of the yarns is urgently needed at present to ensure that the final weft knitting fabric has high quality and good quality.

The Chinese patent with patent publication No. CN 111647996A and publication No. 2020.09.11 discloses a method for manufacturing cotton and wool blended yarns, which comprises the following steps: s1, cutting the Australian wool tops into short fibers, and preparing an emulsifier with a certain concentration by using an oiling agent and water to oil the Australian wool short fibers; s2, covering the oiled Australian wool short fibers with a plastic film, standing for a set time, beating into wool bundles, and mixing 60% of cotton and 40% of wool on a disc bale plucker; and S3, preparing the cotton and wool blended spinning yarn through blowing, cotton carding, drawing, roving, spinning and doffing in sequence.

However, the cotton and wool mixed spinning manufacturing method disclosed by the invention has the problems of complex oiling operation and inconvenience in adjustment and control of the oiling amount of the yarn.

The patent publication is CN211496430U, and the china utility model patent that bulletins day is 2020.09.15 discloses a grooved drum formula cone winder with mechanism that oils, including the frame, install at the inside grooved drum of frame, install at frame surface's reel fixing base, set up reel and the mechanism that oils on the reel fixing base, the inside connection grooved drum that rotates of frame, the system has two rings of equidistance slots on the grooved drum, the reel passes through reel clamping mechanism activity centre gripping on the reel fixing base, be equipped with the oil storage tank in the frame, the oil storage tank internal rotation ground is provided with the axle of refueling of contradicting with the yarn.

However, the bobbin winder in the utility model has the problem that the adjusting range of the oil adding amount on the yarn is relatively small.

Disclosure of Invention

The invention provides a weft knitting method suitable for moisture-absorbing breathable fabric, which can accurately oil yarns by using a visual yarn oiling mechanism, so that the oiling amount of the yarns is controlled to be 0.5-3.5g/m, the running resistance of the yarns during knitting is finally ensured to be small, the abrasion degree is low, the quality of the fabric is ensured to be good enough, and scattered fluff on the yarns is reduced, and the visual yarn oiling mechanism comprises a bottom plate, a vertical plate, an oiling hole, an oiling box body unit, a transparent oil storage box body unit and a combined pipe unit, so that the oiling amount of the yarns is finally controllable and adjustable, the oil amount of a plurality of yarns is ensured to be consistent, the problems that the oiling is insufficient, the abrasion degree of the yarns is still considerable, and the fabrics are polluted due to excessive oiling are solved.

The technical scheme adopted by the invention for solving the problems is as follows: a weft knitting method suitable for moisture-absorbing breathable fabric sequentially comprises a spinning stage and a knitting stage, wherein the spinning stage sequentially comprises yarn oiling and yarn drying operations, the ratio of the amount of oil in the yarn oiling operation to the warp length of the yarn is 0.5-3.5g/m, and the drying temperature in the yarn drying operation is 38-45 ℃.

The further preferred technical scheme is as follows: the yarn oiling operation is completed through a visual yarn oiling mechanism.

The further preferred technical scheme is as follows: visual type yarn mechanism of oiling includes the bottom plate, sets up riser on the bottom plate sets up a tank filler sleeve on the riser sets up on the riser side and closing cap the tank filler sleeve is used for going up the oiling box unit of fat liquoring toward the yarn, sets up transparent oil storage tank body unit on the riser another side, and insert just have the velocity of flow regulatory function of oiling on the tank filler sleeve and be used for connecting respectively transparent oil storage tank body unit and a combination pipe unit of box unit of oiling.

The further preferred technical scheme is as follows: the box unit that oils includes that the box opening side is kept away from the horizontal box of riser sets up horizontal box side bottom plate is last and be used for inserting the installation the box trompil of combination pipe unit sets up horizontal box top box body board is last and be used for the yarn to pass the wire casing portion that oils, sets up the box opening side of horizontal box is used for bypassing the yarn, adjusts the transparent sealing plate portion of combination pipe unit sets up the riser with trompil sealing washer between the horizontal box, and set up and be in body sealing washer in the box trompil.

The further preferred technical scheme is as follows: the wire groove portion comprises an arc-shaped straight channel arranged on the upper surface of the transverse box body, and a vertical upper oil hole and a side oil hole which are formed in the transverse box body and communicated with the arc-shaped straight channel are formed in the transverse box body.

The further preferred technical scheme is as follows: transparent sealing plate is including setting up box opening side's transparent plate sets up horizontal box with opening sealing washer between the transparent plate sets up respectively the horizontal both ends position department of transparent plate just passes the riser is used for the installation the combination tube unit with by pass around the fastening bolt of tensioning yarn, and set up fastening bolt is last and be located the fastening nut of riser opposite side.

The further preferred technical scheme is as follows: transparent oil storage tank body unit is including setting up just be higher than one on the riser the box mounting panel of tank filler sleeve sets up transparent oil storage tank on the box mounting panel sets up on the transparent oil storage tank bottom plate and the vertical defeated oil pipe that the lower extreme sealed, and set up be in be used for the installation on the vertical defeated oil pipe a horizontal defeated oil pipe of combination pipe unit.

The further preferred technical scheme is as follows: the combined pipe unit comprises a first hard pipe inserted into the oil filling hole and inwards inserted into the hole of the box body, a first soft pipe arranged on the transverse oil conveying pipe, a second soft pipe arranged on the exposed end of the first hard pipe, a second hard pipe arranged between the first soft pipe and the second soft pipe, and a pulling rope part, wherein one end of the pulling rope part is arranged on the second hard pipe, the other end of the pulling rope part is arranged on the fastening bolt, and the pulling rope part is used for balancing the initial flow rates of the combined pipe unit at different positions up and down in a mode of reducing the effective pipe diameter of the first soft pipe through elongation.

The further preferred technical scheme is as follows: the pulling rope part comprises an adjusting nut, two rings of annular bulges, a clamping ring and a pulling rope, wherein the adjusting nut is arranged on the fastening bolt and positioned on the outer side of the fastening nut, the two rings of annular bulges are arranged on the outer annular surface of the second hard tube, the clamping ring is clamped between the two rings of annular bulges, and the pulling rope is arranged between the clamping ring and the adjusting nut, pulls the second hard tube and contracts the first soft tube when the adjusting nut rotates inwards.

The further preferred technical scheme is as follows: the number of the adjusting nuts is two, and the adjusting nuts are arranged on the two fastening bolts respectively.

The yarn oiling mechanism has the advantages of proper yarn oiling amount, small resistance in the subsequent weaving process, no pollution to cloth, high stability of the oiling mechanism, flexible and adjustable oiling amount, capability of adjusting oiling speeds to be consistent by the upper and lower groups of yarn oiling structures, capability of eliminating influence factors of oil body hydraulic pressure on the oiling speed, controllability and check in the whole oiling process, high sealing performance, stable whole oiling operation and high efficiency.

Drawings

Fig. 1 is a schematic front structural view of a visual yarn oiling mechanism in the invention.

Fig. 2 is a schematic view of a position structure of the transparent oil storage tank body unit according to the present invention.

Fig. 3 is a schematic structural diagram of the position of the oiling box unit in the top view.

Fig. 4 is a schematic view of the position structure of the combined pipe unit of the present invention.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in the attached drawings 1, 2, 3 and 4, the weft knitting method suitable for the moisture-absorbing and breathable fabric sequentially comprises a spinning stage and a knitting stage, wherein the spinning stage sequentially comprises yarn oiling and yarn drying operations, the ratio of the amount of oil in the yarn oiling operation to the warp length of the yarn is 0.5-3.5g/m, and the drying temperature in the yarn drying operation is 38-45 ℃.

In the embodiment, the variety of the oil used in the yarn oiling operation is the existing white flower oil, the oiling amount of 0.5-3.5g/m can ensure that the resistance of the yarn on a knitting machine is small, the final cloth is not polluted, and finally the oiling effect can be further consolidated through the drying operation at 38-45 ℃.

The yarn oiling operation is completed through a visual yarn oiling mechanism.

In the embodiment, the visual yarn oiling mechanism has the most basic oil visual effect, so that the oiling speed of the yarn is relatively controllable and adjustable.

Visual type yarn mechanism of oiling includes bottom plate 11, sets up riser 12 on the bottom plate 11 sets up a oiling hole 1 on the riser 12 sets up on the riser 12 side and closing cap oiling hole 1 is used for going up oiling box unit 2 of fat liquoring on the yarn, sets up transparent oil storage tank unit 3 on the riser 12 another side, and insert just have oiling velocity of flow regulatory function on the oiling hole 1 and be used for connecting respectively transparent oil storage tank unit 3 is with a combination pipe unit 4 of oiling box unit 2.

In this embodiment, one transparent oil storage tank body unit 3 is toward all inject fluid in the box unit 2 that oils, and one the box unit 2 that oils corresponds a yarn an, just so can guarantee visual type yarn mechanism that oils has the efficient advantage of carrying out the operation of oiling to many yarns an simultaneously.

However, in the process, the oiling hydraulic pressures are different due to the different heights of the oiling box units 2, and the expression mode is that the oiling speed of the oiling box unit 2 at the lower part is high, the oiling speed of the oiling box unit 2 at the upper part is low, and finally the oiling amounts of the plurality of yarns a cannot be accurately controlled to be consistent, so that the combined pipe unit 4 is introduced, the harmful factor that the upper and lower oiling hydraulic pressures are different is balanced in a mode that the effective pipe diameter of the combined pipe unit 4 matched with the oiling box unit 2 which is located downwards is smaller, the oiling amounts of the upper and lower yarns a can be adjusted to a numerical value, the oiling operation of the whole yarn is accurate and reliable, and the problems that the resistance reducing effect is insufficient due to less oil or the cloth is polluted due to more oil are solved.

The oil box unit 2 that oils includes that the box opening side is kept away from horizontal box 201 of riser 12 sets up on the bottom plate of horizontal box 201 side and be used for inserting the installation the box trompil 202 of combination pipe unit 4 sets up on the box board of horizontal box 201 top and be used for the yarn to pass the wire casing portion 203 that oils, sets up the box opening side of horizontal box 201 is used for bypassing the yarn, adjusts the transparent sealing plate portion 204 of combination pipe unit 4 sets up riser 12 with trompil sealing washer 205 between the horizontal box 201, and set up and be in body sealing washer 206 in the box trompil 202.

In this embodiment, the oil flow path sequentially includes the transparent oil storage tank body unit 3, the combination pipe unit 4, the tank opening 202, the horizontal tank 201 and the linear groove portion 203, and finally it is ensured that the yarn a on the linear groove portion 203 can "pick up" a sufficient and appropriate amount of oil, wherein the pipe sealing ring 206 is used to ensure the sealing performance between the combination pipe unit 4 and the tank opening 202, and the opening sealing ring 205 is used to further supplement the sealing performance at the pipe sealing ring 206.

The linear groove part 203 comprises an arc-shaped straight channel 203a arranged on the upper surface of the transverse box body 201, and a vertical upper oil hole 203b and a side oil hole 203c which are arranged from the inside of the transverse box body 201 outwards and communicated with the arc-shaped straight channel 203 a.

In this embodiment, the plurality of side oil holes 203c may be provided, so as to ensure that the approximately cylindrical yarn a can be uniformly oiled for as long as possible, and the vertical oil hole 203b has a shorter path, so that the diameter of the hole is smaller than that of the side oil hole 203c, thereby avoiding the problems of insufficient oiling on two sides of the yarn a, i.e., the upper portion and the bottom portion.

The transparent sealing plate portion 204 comprises a transparent plate 204a arranged on the opening side of the box body, an opening sealing ring 204b arranged between the transverse box body 201 and the transparent plate 204a, fastening bolts 204c which are respectively arranged at the positions of the two transverse ends of the transparent plate 204a and penetrate through the vertical plate 12 and are used for installing the combined pipe unit 4 and the tensioned yarns, and fastening nuts 204d which are arranged on the fastening bolts 204c and are positioned on the other side of the vertical plate 12.

In this embodiment, the transparent plate 204a is made of a conventional transparent resin, and the fastening bolt 204c and the fastening nut 204d can stably press the horizontal box 201 on the perforated sealing ring 205, thereby preventing oil from easily leaking.

In addition, the fastening bolt 204c extends a distance beyond the riser 12 for installing and adjusting the modular pipe unit 4.

Finally, the middle part of the fastening bolt 204c is not provided with threads, so that the yarn a passing below the fastening bolt is not greatly abraded with the threads, and the yarn a can ensure that the yarn has enough and proper pressure on the arc-shaped straight channel 203a after passing below the fastening bolt 204c, so as to ensure that the yarn is fully contacted with oil.

Transparent batch oil tank body unit 3 is including setting up on riser 12 and be higher than one the box mounting panel 301 of tank filler sleeve 1 sets up transparent batch oil tank 302 on the box mounting panel 301 sets up on the transparent batch oil tank 302 bottom plate and the vertical defeated oil pipe 303 that the lower extreme sealed, and set up and be in vertical defeated oil pipe 303 is last and be used for the installation a horizontal defeated oil pipe 304 of combination pipe unit 4.

In this embodiment, the transparent oil storage tank 302 is made of the existing transparent resin, and the number and the positions of the horizontal oil pipes 304 are all aligned with the oil filling holes 1, so as to ensure that the yarn a, the horizontal oil pipes 304 and the upper oil tank unit 2 all correspond to each other.

The combined pipe unit 4 includes a first hard pipe 401 inserted into the oil filling hole 1 and inserted into the tank opening 202, a first soft pipe 402 disposed on the horizontal oil pipe 304, a second soft pipe 403 disposed on an exposed end of the first hard pipe 401, a second hard pipe 404 disposed between the first soft pipe 402 and the second soft pipe 403, and a pulling rope portion 405 having one end disposed on the second hard pipe 404 and the other end disposed on the fastening bolt 204c and used for balancing initial flow rates of the combined pipe unit 4 at different positions up and down in such a manner that an effective pipe diameter of the first soft pipe 402 is reduced by elongation. The pulling string 405 includes an adjusting nut 405a disposed on the fastening bolt 204c and located outside the fastening nut 204d, two rings of annular protrusions 405b disposed on an outer circumferential surface of the second hard tube 404, a snap ring 405c snapped between the two rings of annular protrusions 405b, and a pulling string 405d disposed between the snap ring 405c and the adjusting nut 405a and pulling the second hard tube 404 to contract the first soft tube 402 when the adjusting nut 405a is rotated inward. The number of the adjusting nuts 405a is two, and the adjusting nuts are respectively arranged on the two fastening bolts 204 c.

In this embodiment, the combined pipe unit 4 is used to adjust the flow rate of the oil entering the horizontal box 201, so that the effective pipe diameter of the combined pipe unit 4 above the combined pipe unit is relatively larger, and the effective pipe diameter of the combined pipe unit 4 below the combined pipe unit is relatively smaller, so as to balance the hydraulic factors of "large top and small bottom", thereby ensuring that the oil outlet speeds of the upper and lower grooves 203 are consistent, and thus, the multiple yarns a can obtain the consistent oil feeding amount.

The mode of adjusting the actual effective pipe diameter of the combined pipe unit 4 is to elongate the first soft pipe 402, and the pipe diameter of the whole combined pipe unit 4 is adjusted by reducing the effective pipe diameter of the first soft pipe 402, that is, the adjusting nut 405a in the combined pipe unit 4 above elongates the first soft pipe 402 relatively slightly, and the adjusting nut 405a in the combined pipe unit 4 below elongates the first soft pipe 402 relatively greatly, so as to achieve the effect of adjusting the effective pipe diameter.

Finally, the adjusting nut 405a and the fastening nut 204d are both arranged on the fastening bolt 204c, so that the whole oiling mechanism has the advantages of compact structure and ingenious design.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (3)

1. A weft knitting method suitable for moisture-absorbing breathable fabric sequentially comprises a spinning stage and a knitting stage, and is characterized in that: the spinning stage sequentially comprises yarn oiling and yarn drying operations, wherein the oiling amount of each meter of yarn in the yarn oiling operation is 0.5-3.5g, and the drying temperature in the yarn drying operation is 38-45 ℃;

the yarn oiling operation is completed through a visual yarn oiling mechanism;

the visual yarn oiling mechanism comprises a bottom plate (11), a vertical plate (12) arranged on the bottom plate (11), a row of oiling holes (1) formed in the vertical plate (12), an oiling box body unit (2) which is arranged on the side surface of the vertical plate (12) and covers the oiling holes (1) and is used for oiling yarns, a transparent oil storage box body unit (3) arranged on the other side surface of the vertical plate (12), and a row of combined pipe units (4) which are inserted in the oiling holes (1), have an oiling flow speed adjusting function and are respectively used for connecting the transparent oil storage box body unit (3) with the row of oiling box body units (2);

the oiling box body unit (2) comprises a transverse box body (201) with a box body opening side far away from the vertical plate (12), a box body opening hole (202) which is formed in a side bottom plate of the transverse box body (201) and used for inserting and installing the combined pipe unit (4), a line groove part (203) which is formed in a box body plate above the transverse box body (201) and used for enabling yarns to penetrate through oiling, a transparent sealing plate part (204) which is formed in the box body opening side of the transverse box body (201) and used for bypassing the yarns and adjusting the combined pipe unit (4), an opening sealing ring (205) which is arranged between the vertical plate (12) and the transverse box body (201), and a pipe body sealing ring (206) which is arranged in the box body opening hole (202);

the transparent sealing plate part (204) comprises a transparent plate (204 a) arranged on the opening side of the box body, an opening sealing ring (204 b) arranged between the transverse box body (201) and the transparent plate (204 a), fastening bolts (204 c) which are respectively arranged at the positions of the two transverse ends of the transparent plate (204 a) and penetrate through the vertical plate (12) and are used for installing the combined pipe unit (4) and bypassing the tensioning yarns, and fastening nuts (204 d) which are arranged on the fastening bolts (204 c) and are positioned on the other side of the vertical plate (12);

the transparent oil storage tank body unit (3) comprises a tank body mounting plate (301) which is arranged on the vertical plate (12) and is higher than one row of oil filling holes (1), a transparent oil storage tank (302) which is arranged on the tank body mounting plate (301), a vertical oil conveying pipe (303) which is arranged on the bottom plate of the transparent oil storage tank (302) and the lower end of which is sealed, and a row of transverse oil conveying pipes (304) which are arranged on the vertical oil conveying pipe (303) and are used for mounting the combined pipe unit (4);

the combined pipe unit (4) comprises a first hard pipe (401) inserted into the oil filling hole (1) and inwards inserted into the box body opening hole (202), a first soft pipe (402) arranged on the transverse oil conveying pipe (304), a second soft pipe (403) arranged at the exposed end of the first hard pipe (401), a second hard pipe (404) arranged between the first soft pipe (402) and the second soft pipe (403), and a pulling rope part (405) with one end arranged on the second hard pipe (404) and the other end arranged on the fastening bolt (204 c) and used for balancing the initial flow rate of the combined pipe unit (4) at different positions up and down in a mode of reducing the effective pipe diameter of the first soft pipe (402) through elongation;

the pulling string part (405) includes an adjusting nut (405 a) disposed on the fastening bolt (204 c) and located outside the fastening nut (204 d), two rings of annular protrusions (405 b) disposed on an outer circumferential surface of the second hard tube (404), a snap ring (405 c) snapped between the two rings of annular protrusions (405 b), and a pulling string (405 d) disposed between the snap ring (405 c) and the adjusting nut (405 a) and pulling the second hard tube (404) and contracting the first soft tube (402) when the adjusting nut (405 a) is rotated inward.

2. The weft knitting method suitable for the moisture-absorbing breathable fabric according to claim 1, characterized in that: the linear groove part (203) comprises an arc straight channel (203 a) arranged on the upper surface of the transverse box body (201), and a vertical upper oil hole (203 b) and a side oil hole (203 c) which are arranged from the inside of the transverse box body (201) to the outside and are communicated with the arc straight channel (203 a).

3. The weft knitting method suitable for the moisture-absorbing breathable fabric according to claim 1, characterized in that: the number of the adjusting nuts (405 a) is two, and the adjusting nuts are respectively arranged on the two fastening bolts (204 c).

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