CN114261826A - Production process of printed knitted fabric for manufacturing school clothing - Google Patents

Abstract

The invention discloses a production process of printed knitted fabric, which comprises the following steps: (1) cloth paving: spreading the knitted fabric blank; (2) spreading: unfolding and smoothing creases on the spread cloth blank; (3) sizing and curing the fabric blank: applying glue to the non-printing surface of the spread and smoothed cloth blank and solidifying to keep the spread cloth blank in a crease-free state; (4) printing: printing patterns on the cloth blank by using a digital printing machine; (5) and (3) steaming and removing glue: carrying out steam heating on the dyed cloth, removing glue on the cloth blank and wetting the cloth; (6) and (3) drying: drying the steamed dyed cloth; (7) cloth rolling: and rolling up the dried dyed cloth. By applying glue and solidifying on the unfolded and flattened cloth blank, the digital printing machine can be conveniently used for printing patterns on the cloth blank in the follow-up process. The glue is arranged on the cloth blank, so that the cloth blank is more convenient to print. After printing, the glue on the fabric blank is removed through steaming and removing the glue, so that the softness of the fabric is ensured.

Description

Production process of printed knitted fabric for manufacturing school clothing

Technical Field

The invention relates to the technical field of school uniform manufacturing, in particular to a production process for manufacturing printed knitted fabrics for school uniforms.

Background

School generally needs the student to wear the dress for standard management, in the daily life of school, wears the school clothes and can show the one side that student spirit is shaken up, vigor is flying, also is the exclusive sign of student's youth era, in order to distinguish the school that the student belongs to, the stamp on the school clothes of different schools is different, therefore the used cloth of school clothes need carry out the stamp processing.

Traditional stamp technique is not high in production efficiency, and is more troublesome to the flattening of cloth base, and soft cloth base leads to the part to fold together easily in the stamp, produces the defective products and leads to extravagant, and the production step is more, is unfavorable for improving production efficiency.

In view of the above, the applicant has made an intensive study on the above-mentioned defects in the prior art, and has made this invention.

Disclosure of Invention

The invention mainly aims to provide a production process of a printed knitted fabric for manufacturing school uniforms, which is characterized by specifically improving the efficiency of a knitted fabric printing process.

In order to achieve the above purpose, the solution of the invention is:

a production process of printed knitted fabric comprises the following steps:

(1) cloth paving: spreading the knitted fabric blank;

(2) spreading: unfolding and smoothing creases on the spread cloth blank;

(3) sizing and curing the fabric blank: applying glue to the non-printing surface of the spread and smoothed cloth blank and solidifying to keep the spread cloth blank in a crease-free state;

(4) printing: printing patterns on the cloth blank by using a digital printing machine;

(5) and (3) steaming and removing glue: carrying out steam heating on the dyed cloth, removing glue on the cloth blank and wetting the cloth;

(6) and (3) drying: drying the steamed dyed cloth;

(7) cloth rolling: and rolling up the dried dyed cloth.

Further, in the step (3), gluing the flattened cloth blank by a gluing device to make glue adhere to the cloth blank; the gluing device comprises a gluing roller for gluing the flattened cloth blank, a storage box for storing glue and a rotation driving device for driving the gluing roller to rotate; a rolling groove for accommodating the gluing roller and allowing the gluing roller to rotate is formed at the upper end of the storage box, and the gluing roller is arranged in the rolling groove and is rotationally connected with the storage box; the output end of the rotation driving device is connected with the gluing roller.

Further, in the step (3), heating the cloth blank to be glued by a heating device; cooling the fabric blank by a cooling device after the fabric blank is glued; the heating device and the cooling device are respectively positioned at the upstream end and the downstream end of the gluing device relative to the cloth conveying direction.

Further, in the step (2), the folding marks on the cloth blank are unfolded and smoothed by a cloth unfolding mechanism; the cloth spreading mechanism is connected with a driving mechanism for driving the cloth spreading mechanism; the cloth spreading mechanism comprises a first cloth spreading component and a second cloth spreading component; first exhibition cloth subassembly includes a plurality of first exhibition cloth rollers that lean out the setting along the direction of delivery of cloth, second exhibition cloth subassembly includes a plurality of second exhibition cloth rollers that lean out the setting along the direction of delivery of cloth.

Further, in the step (1), after the cloth blank is spread, the cloth blank is conveyed through a cloth conveying mechanism; the cloth conveying mechanism comprises a first conveying device and a second conveying device; the cloth spreading mechanism is arranged above the second conveying device; the first conveying device comprises a first conveying belt and a first power driving device for driving the first conveying belt to transmit; the second conveying device comprises a second conveying belt and a second power driving device used for driving the second conveying belt to transmit.

Further, in the step (5), steaming the printed cloth blank by a continuous steamer; the continuous steamer comprises a steaming tunnel, a supporting roller, a first glue removing assembly and a second glue removing assembly, wherein a steam main pipe is arranged in the steaming tunnel, a plurality of steam branch pipes are arranged on the steam main pipe, and a plurality of steam holes are formed in the steam branch pipes; the supporting rollers are arranged in the steaming tunnel at intervals in parallel, and are uniformly arranged at intervals along the length direction of the steaming tunnel; the supporting roller is placed on the lower surface of the cloth blank; the first glue removing assembly and the second glue removing assembly are arranged at intervals along the conveying direction of the fabric blank, and are arranged in the steaming tunnel close to the outlet of the steaming tunnel;

the first glue removing assembly comprises a first glue removing brush and a first pressing block, and the second glue removing assembly comprises a second glue removing brush and a second pressing block; the first glue removing brush and the first pressing block clamp the cloth blank in the middle, the first glue removing brush is positioned on the lower surface of the cloth blank, and the first pressing block is positioned on the upper surface of the cloth blank; the second glue removing brush and the second pressing block clamp the cloth blank in the middle, the second glue removing brush is positioned on the upper surface of the cloth blank, and the second pressing block is positioned on the lower surface of the cloth blank; the inner cavity bottom surface of the evaporation tunnel is obliquely arranged, and scraped glue is collected.

Further, an adhesive collecting groove is arranged below an outlet of the evaporation tunnel, and an adhesive collecting cylinder is arranged below the adhesive collecting groove.

Further, the second glue removing brush is provided with a V-shaped glue removing head, the tip of the glue removing head points to the incoming material direction of the fabric blank, and the V-shaped glue removing head scrapes the glue towards the two sides of the fabric blank.

Further, the steam holes are positioned on the upper surface of the cloth blank.

Further, the top of the evaporation tunnel is provided with two first temperature regulating fans, and the side of the evaporation tunnel is provided with a second temperature regulating fan.

After the structure is adopted, the production process of the printed knitted fabric, provided by the invention, has at least the following beneficial effects:

firstly, glue applying and curing are carried out on the unfolded and flattened cloth blank, so that patterns can be conveniently and subsequently printed on the cloth blank by using a digital printing machine. The glue is arranged on the cloth blank, so that the cloth blank is more convenient to print. After printing, the glue on the fabric blank is removed through steaming and removing the glue, so that the softness of the fabric is ensured.

Spreading, flattening and curing the fabric blank through a mechanical device, replacing manual spreading, flattening and curing, so that the fabric blank is more uniformly spread and cured through glue, and the cured fabric blank is subjected to printing treatment, so that the printing effect is ensured, the yield is improved, and the waste of the fabric blank is avoided; when the labor cost is reduced, the production efficiency of the whole production line is improved by adopting automatic production, and the method has great economic benefit.

Thirdly, through setting up continuous rapid steamer for the glue on the cloth base can be got rid of to the cloth base of process and moist cloth, because the cloth base is in the ageing tunnel, the removing of cloth base is continuous, along with the transmission of cloth base, removes to glue and goes on in step in succession, and efficiency is higher.

Drawings

Fig. 1 is a process flow diagram of a production process of printed knitted cloth according to the invention.

Fig. 2 is a schematic top view of the spreading mechanism.

FIG. 3 is a schematic side view of the glue applicator.

FIG. 4 is a schematic sectional view of the continuous steamer.

FIG. 5 is a schematic perspective view of a continuous steamer.

Fig. 6 is an enlarged schematic view of a portion a in fig. 4.

FIG. 7 is a schematic view of the second glue removing brush in use.

In the figure: fabric blank 1; a gluing device 2; a sizing roller 21; a heating device 22; a cooling device 23; a cloth spreading mechanism 3; a first spreader roll 31; a second spreader roll 32; a steaming tunnel 4; a support roller 41; a first glue removal assembly 42; a first glue removing brush 421; a first press block 422; a second glue removing assembly 43; a second glue removing brush 431; a second compact 432; a steam header 44; a steam branch pipe 441; the steam vents 442; a glue collecting tank 45; a glue collecting barrel 451; a first temperature-adjusting fan 461; a second temperature-adjusting fan 462.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 7, the present invention relates to a printed knitted fabric production process, which comprises the following steps:

(1) cloth paving: spreading the knitted fabric blank 1;

(2) spreading: unfolding and smoothing creases on the spread cloth blank 1;

(3) gluing and curing the fabric blank 1: applying glue to the non-printing surface of the spread and smoothed cloth blank 1 and solidifying to keep the cloth blank 1 in a spread state without crease marks;

(4) printing: printing patterns on the cloth blank 1 by using a digital printing machine;

(5) and (3) steaming and removing glue: carrying out steam heating on the dyed cloth, removing the glue on the cloth blank 1 and wetting the cloth;

(6) and (3) drying: drying the steamed dyed cloth;

(7) cloth rolling: and rolling up the dried dyed cloth.

Thus, according to the printed knitted fabric production process, the unfolded and flattened fabric blank 1 is subjected to glue application and solidification, so that patterns can be conveniently printed on the fabric blank 1 by using a digital printing machine in the subsequent process. Because the cloth blank 1 is provided with the glue, the cloth blank 1 is more convenient to print. After printing, the glue on the cloth blank 1 is removed through steaming and degumming, so that the softness of the cloth is ensured.

Further, in the step (3), gluing the flattened cloth blank 1 by a gluing device 2 to make glue adhere to the cloth blank 1; the gluing device 2 comprises a gluing roller 21 for gluing the flattened cloth blank 1, a storage box for storing glue and a rotation driving device for driving the gluing roller 21 to rotate; a rolling groove for accommodating the gluing roller 21 and allowing the gluing roller 21 to rotate is formed at the upper end of the storage box, and the gluing roller 21 is arranged in the rolling groove and is rotationally connected with the storage box; the output of the rotary drive is connected to the glue roller 21.

Preferably, in the step (3), heating the cloth blank 1 to be sized by the heating device 22 is further included; after the cloth blank 1 is glued, cooling the cloth blank 1 by a cooling device 23; the heating device 22 and the cooling device 23 are respectively positioned at the upstream end and the downstream end of the gluing device 2 relative to the cloth conveying direction.

Preferably, in the step (2), the creases on the cloth blank 1 are spread and smoothed by the spreading mechanism 3; the cloth spreading mechanism 3 is connected with a driving mechanism for driving the cloth spreading mechanism 3; the cloth spreading mechanism 3 comprises a first cloth spreading component and a second cloth spreading component; the first exhibition cloth subassembly includes a plurality of first exhibition cloth rollers 31 that incline outward along the direction of delivery of cloth setting, the second exhibition cloth subassembly includes a plurality of second exhibition cloth rollers 32 that incline outward along the direction of delivery of cloth setting. The first cloth spreading roller 31 and the second cloth spreading roller 32 form a certain included angle, so that when the cloth blank 1 passes through, the first cloth spreading roller 31 and the second cloth spreading roller 32 shift the edge of the cloth blank 1 to two sides of the cloth blank 1. Preferably, in the step (1), after the cloth blank 1 is spread, the cloth blank 1 is conveyed by a cloth conveying mechanism; the cloth conveying mechanism comprises a first conveying device and a second conveying device; the cloth spreading mechanism 3 is arranged above the second conveying device; the cloth blank 1 is positioned above the second conveying device and below the cloth spreading mechanism 3; the first conveying device comprises a first conveying belt and a first power driving device for driving the first conveying belt to transmit; the second conveying device comprises a second conveying belt and a second power driving device used for driving the second conveying belt to transmit.

The cloth blank 1 is spread, flattened and cured through a mechanical device, manual cloth spreading, flattening and curing are replaced, the cloth blank 1 is flattened and cured through glue more uniformly, and the cured cloth blank 1 is printed, so that the printing effect is ensured, the yield is improved, and the waste of the cloth blank 1 is avoided; when the labor cost is reduced, the production efficiency of the whole production line is improved by adopting automatic production, and the method has great economic benefit.

Preferably, in the step (5), the printed cloth blank 1 is steamed by a continuous steamer; the continuous steamer comprises a steaming tunnel 4, a supporting roller 41, a first glue removing assembly 42 and a second glue removing assembly 43, wherein a steam main pipe 44 is arranged in the steaming tunnel 4, a plurality of steam branch pipes 441 are arranged on the steam main pipe 44, and a plurality of steam holes 442 are arranged on the steam branch pipes 441; a plurality of supporting rollers 41 are arranged in the steaming tunnel 4 in parallel at intervals, and a plurality of supporting rollers 41 are arranged in the length direction of the steaming tunnel 4 at even intervals; the support roller 41 is placed on the lower surface of the fabric blank 1; the first glue removing assembly 42 and the second glue removing assembly 43 are arranged at intervals along the conveying direction of the fabric blank 1, and the first glue removing assembly 42 and the second glue removing assembly 43 are arranged in the steaming tunnel 4 close to the outlet of the steaming tunnel 4.

The first glue removing assembly 42 comprises a first glue removing brush 421 and a first pressing block 422, and the second glue removing assembly 43 comprises a second glue removing brush 431 and a second pressing block 432; the first glue removing brush 421 and the first pressing block 422 clamp the cloth blank 1 in the middle, the first glue removing brush 421 is positioned on the lower surface of the cloth blank 1, and the first pressing block 422 is positioned on the upper surface of the cloth blank 1; the second glue removing brush 431 and the second pressing block 432 clamp the cloth blank 1 in the middle, the second glue removing brush 431 is positioned on the upper surface of the cloth blank 1, and the second pressing block 432 is positioned on the lower surface of the cloth blank 1; the inner cavity bottom surface of the evaporation tunnel 4 is obliquely arranged, and scraped glue is collected.

Through setting up continuous rapid steamer for glue on cloth base 1 and moist cloth can be got rid of to cloth base 1 that passes through, because cloth base 1 is in ageing tunnel 4, the glue that removes of cloth base 1 is continuous, along with the transmission of cloth base 1, removes to glue and goes on in step in succession, and efficiency is higher.

Preferably, a glue collecting groove 45 is arranged below the outlet of the steaming tunnel 4, and a glue collecting cylinder 451 is arranged below the glue collecting groove 45. The glue scraped from the cloth blank 1 falls into the bottom of the evaporation tunnel 4, flows to the outlet of the evaporation tunnel 4 along the bottom surface of the inclined inner cavity, and is collected by the glue collecting groove 45. Preferably, the included angle between the bottom surface of the inner cavity of the steaming tunnel 4 and the horizontal plane is 5-15 degrees (preferably 10 degrees), in order to ensure the fluidity of the scraped glue, the bottom surface of the inner cavity of the steaming tunnel 4 is further provided with a heat preservation device and a flowing water auxiliary flushing device, and warm water is indirectly or continuously introduced at the high position of the bottom surface of the inner cavity of the steaming tunnel 4 to flush the bottom surface of the inner cavity of the steaming tunnel 4.

While fabric blank 1 is in the steaming tunnel 4, preferably fabric blank 1 is arranged with its printing side facing up and the glue side of fabric blank 1 facing down, most of the glue is scraped off by first glue removal assembly 42. The second glue removing brush 431 is provided with a V-shaped glue removing head, the tip of the glue removing head points to the incoming material direction of the fabric blank 1, and the V-shaped glue removing head scrapes the glue towards the two sides of the fabric blank. The glue removing head is propped against the upper part of the cloth blank 1, and the glue scraped by the glue removing head

Preferably, steam vents 442 are located on the upper surface of blank 1. Preferably, two first temperature adjusting fans 461 are arranged at the top of the evaporation tunnel 4, and one second temperature adjusting fan 462 is arranged at the side of the evaporation tunnel 4. By arranging the first temperature adjusting fan 461 and the second temperature adjusting fan 462, when the temperature of the fabric blank 1 in the steaming tunnel 4 is too high, the first temperature adjusting fan 461 at the top exhausts air outwards, and the second temperature adjusting fan 462 intakes air inwards, so that the steam acting on the fabric blank 1 is reduced. When the temperature of the fabric blank 1 in the steaming tunnel 4 is too low, the first temperature adjusting fan 461 at the top part is used for feeding air inwards, the second temperature adjusting fan 462 is used for exhausting air outwards, and steam is added to act on the fabric blank 1.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. A production process of printed knitted fabric is characterized by comprising the following steps:

(1) cloth paving: spreading the knitted fabric blank;

(2) spreading: unfolding and smoothing creases on the spread cloth blank;

(3) sizing and curing the fabric blank: applying glue to the non-printing surface of the spread and smoothed cloth blank and solidifying to keep the spread cloth blank in a crease-free state;

(4) printing: printing patterns on the cloth blank by using a digital printing machine;

(5) and (3) steaming and removing glue: carrying out steam heating on the dyed cloth, removing glue on the cloth blank and wetting the cloth;

(6) and (3) drying: drying the steamed dyed cloth;

(7) cloth rolling: and rolling up the dried dyed cloth.

2. A printed knitted fabric production process according to claim 1, wherein in step (3), the flattened fabric blank is rubberized by a rubberizing device so that the glue adheres to the fabric blank; the gluing device comprises a gluing roller for gluing the flattened cloth blank, a storage box for storing glue and a rotation driving device for driving the gluing roller to rotate; a rolling groove for accommodating the gluing roller and allowing the gluing roller to rotate is formed at the upper end of the storage box, and the gluing roller is arranged in the rolling groove and is rotationally connected with the storage box; the output end of the rotation driving device is connected with the gluing roller.

3. A process for the production of printed knitted fabric according to claim 1, wherein in step (3), the process further comprises heating the fabric blank to be sized by means of a heating device; cooling the fabric blank by a cooling device after the fabric blank is glued; the heating device and the cooling device are respectively positioned at the upstream end and the downstream end of the gluing device relative to the cloth conveying direction.

4. A printed knitted fabric production process according to claim 1, wherein in step (2), the creases on the fabric blank are spread and smoothed by a cloth spreading mechanism; the cloth spreading mechanism is connected with a driving mechanism for driving the cloth spreading mechanism; the cloth spreading mechanism comprises a first cloth spreading component and a second cloth spreading component; first exhibition cloth subassembly includes a plurality of first exhibition cloth rollers that lean out the setting along the direction of delivery of cloth, second exhibition cloth subassembly includes a plurality of second exhibition cloth rollers that lean out the setting along the direction of delivery of cloth.

5. A printed knitted fabric production process according to claim 1, wherein in step (1), after the fabric blank is spread, the fabric blank is conveyed by a fabric conveying mechanism; the cloth conveying mechanism comprises a first conveying device and a second conveying device; the cloth spreading mechanism is arranged above the second conveying device; the first conveying device comprises a first conveying belt and a first power driving device for driving the first conveying belt to transmit; the second conveying device comprises a second conveying belt and a second power driving device used for driving the second conveying belt to transmit.

6. A printed knitted fabric production process according to claim 1, wherein in step (5), the printed fabric blank is subjected to steaming treatment by a continuous steamer; the continuous steamer comprises a steaming tunnel, a supporting roller, a first glue removing assembly and a second glue removing assembly, wherein a steam main pipe is arranged in the steaming tunnel, a plurality of steam branch pipes are arranged on the steam main pipe, and a plurality of steam holes are formed in the steam branch pipes; the supporting rollers are arranged in the steaming tunnel at intervals in parallel, and are uniformly arranged at intervals along the length direction of the steaming tunnel; the supporting roller is placed on the lower surface of the cloth blank; the first glue removing assembly and the second glue removing assembly are arranged at intervals along the conveying direction of the fabric blank, and are arranged in the steaming tunnel close to the outlet of the steaming tunnel;

the first glue removing assembly comprises a first glue removing brush and a first pressing block, and the second glue removing assembly comprises a second glue removing brush and a second pressing block; the first glue removing brush and the first pressing block clamp the cloth blank in the middle, the first glue removing brush is positioned on the lower surface of the cloth blank, and the first pressing block is positioned on the upper surface of the cloth blank; the second glue removing brush and the second pressing block clamp the cloth blank in the middle, the second glue removing brush is positioned on the upper surface of the cloth blank, and the second pressing block is positioned on the lower surface of the cloth blank; the inner cavity bottom surface of the evaporation tunnel is obliquely arranged, and scraped glue is collected.

7. A printed knitted fabric production process according to claim 6, wherein a glue collecting groove is arranged below the outlet of the steaming tunnel, and a glue collecting cylinder is arranged below the glue collecting groove.

8. The process for producing printed knitted fabric according to claim 6, wherein the second glue removing brush has a V-shaped glue removing head, the tip of the glue removing head points to the incoming direction of the fabric blank, and the V-shaped glue removing head scrapes off the fabric blank and pushes the fabric blank to the two sides of the fabric blank.

9. A process for producing printed knitted fabric according to claim 1, wherein the steam holes are located on the upper surface of the fabric blank.

10. A printed knitted fabric production process according to claim 9, wherein two first temperature regulating fans are provided on the top of the steaming tunnel, and a second temperature regulating fan is provided on the side of the steaming tunnel.

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