CN114223984A - Processing technology of warm-keeping down jacket - Google Patents

Abstract

The invention belongs to the technical field related to garment manufacturing, solves the technical problem that the overall warmth retention property of a down jacket is easily reduced by a processing method of the existing down jacket, and provides a processing technology of a warm-keeping down jacket, which comprises the following steps: cutting the surface layer, the middle layer and the inner layer into initial garment pieces of each part according to a preset sample plate; overlapping the cut surface layer and the cut middle layer on a template, and sewing the diffraction lines according to the diffraction line graph to form a plurality of down feather cavities; adhering hot-melt adhesive tapes on two sides of the diffraction line of the middle layer, and compounding the cut inner layer and the cut inner layer on one surface of the middle layer to form a plurality of two-layer down feather cavities; performing edge running on the periphery of a garment piece formed by compounding the surface layer, the middle layer and the inner layer, and reserving a down filling opening; filling preset down feather into each of the first-layer down feather cavity and the second-layer down feather cavity, and then sealing down feather filling openings; and sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down drawing to form the initial warm-keeping down jacket.

Description

Processing technology of warm-keeping down jacket

Technical Field

The invention relates to the technical field related to garment manufacturing, in particular to a processing technology of a warm-keeping down jacket.

Background

The manufacturing process of the down jacket is generally divided into two categories at present, one category is glue pressing and direct filling category, the other category is thread drawing embroidery category, the glue pressing and direct filling category is characterized in that the fabric is not obviously worn, the phenomenon of down running can be well prevented, the inner layer fabric and the outer layer fabric can adopt fabrics with different colors and patterns, bright points of style design are increased, but the bonding firmness of the two layers of fabrics is established, the width of an adhesive tape is generally more than 0.6 cm, the displayed effect is single, the style of the ready-made jacket is relatively fixed, for example, the glue pressing and direct filling category can not display the down jacket with a simple lattice shape; the threading embroidery has the advantages that the styles can be more diversified, the lines can be cut more randomly and smoothly, the defects are that threading embroidery parts cannot be filled with velvet, open lines penetrate through the fabric, the possibility of velvet running is increased, the fabric with two color systems cannot be selected for inner and outer layer fabrics under common conditions, otherwise, different color threading on the back side is easily penetrated to the front side, and the aesthetic feeling is influenced; in the two modes, the glue pressing line part of the glue pressing direct filling type and the derivative line part of the derivative line embroidery type are only overlapped by the base layer fabric, so that the separation of the down feather is avoided, and the overall heat retention of the down jacket is easily reduced.

Disclosure of Invention

The embodiment of the invention provides a processing technology of a warm-keeping down jacket, which is used for solving the technical problems that in the existing processing method of the down jacket, glue pressing lines of glue pressing direct filling type and thread extending embroidery type are only overlapped by base fabric, so that the blocking of down is avoided, and the overall warm keeping performance of the down jacket is easily reduced.

The embodiment of the invention provides a processing technology of a warm-keeping down jacket, the warm-keeping down jacket comprises a sheet type down jacket fabric, the sheet type down jacket fabric comprises three layers of fabrics or garment pieces which are respectively used as a surface layer, a middle layer and an inner lining layer, a plurality of first-layer down cavities are formed between the surface layer and the middle layer through sewing a thread or embroidery, a plurality of second-layer down cavities are formed between the middle layer and the inner lining layer through adhering a hot-melting adhesive tape, and down feather is arranged in the first-layer down cavities and the second-layer down cavities, the processing technology comprises the following steps: step S1, cutting the surface layer, the middle layer and the inner layer into initial garment pieces of each part according to a preset sample plate, wherein the initial garment pieces comprise a front garment piece, a rear garment piece, sleeves and a collar; step S2, overlapping and clamping the cut surface layer and the cut intermediate layer on a template of a template machine, and sewing the diffraction lines according to a preset diffraction line graph to form a plurality of down feather cavities; step S3, adhering hot melt adhesive tapes on two sides of the extension lines of the middle layer, and compounding the cut inner layer on one surface of the middle layer adhered with the hot melt adhesive tapes through a hot-pressing compound machine to form a plurality of two-layer down feather cavities; step S4, performing edge running on the periphery of a garment piece formed by compounding the surface layer, the middle layer and the inner layer, and reserving a down filling opening; step S5, filling preset down feather into each down feather cavity of the first layer and the down feather cavity of the second layer, and then sealing down feather filling openings; and step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form the original warm-keeping down jacket.

Further, the step of step S1 is preceded by: and step S0, the surface layer, the middle layer and the inner layer are made into fabrics with consistent thermal shrinkage through a preheating machine.

Further, the step S6 is followed by: step S7, adsorbing and cleaning down exposed outside on the sewed original warm-keeping down jacket by using a dust remover; and step S8, edge wrapping is carried out on the seams of the initial warm-keeping down jacket with the redundant down removed by the edge wrapping strips, and ironing finishing is carried out to form the final warm-keeping down jacket.

Further, the specific step of step S1 includes: a. manufacturing a preset sample plate of the warm-keeping down jacket according to a preset down jacket drawing, wherein the sample plate comprises a front coat plate, a rear coat plate, a coat sleeve plate and a collar plate; b. cutting the surface layer, the middle layer and the inner layer which are subjected to thermal shrinkage into initial garment pieces according to the preset sample plate, wherein the initial garment pieces comprise front garment pieces, rear garment pieces, sleeves and collars;

the surface layer, the middle layer and the inner layer after thermal shrinkage are respectively cut into a front garment piece according to a front garment board, a rear garment piece according to a rear garment board, sleeves according to a sleeve board and a collar according to a collar board.

Furthermore, edge running is carried out at the position, which is 0.8 cm away from the side line, of the periphery of the garment piece formed by compounding the surface layer, the middle layer and the inner layer.

Further, the outer surface of the surface layer is provided with a preset first stamp.

The working principle is as follows:

the outer surface is provided with a first stamp which can be sewn on the outer side surface of the fabric of the outer surface in a direct embroidery mode and can also be adhered on the outer side surface of the fabric of the outer surface in a bonding mode, namely the outer surface is used as the garment outer surface of the warm-keeping down jacket.

Further, the inner lining layer is provided with a preset second stamp.

The working principle is as follows:

the second printing is arranged on the inner surface, and can be sewn on the inner side surface of the fabric of the inner layer in a direct embroidery mode or bonded on the inner side surface of the fabric of the inner layer in a bonding mode, namely the inner surface is used as a garment outer surface of the warm-keeping down jacket.

Furthermore, in the processing technology of the warm-keeping down jacket, the fabrics which are used as the surface layer, the middle layer and the inner layer respectively adopt the fabrics which are subjected to down prevention treatment.

Further, the processing technology of the warm-keeping down jacket is used for manufacturing the down jacket or cotton jacket ready-made clothes.

In conclusion, the beneficial effects of the invention are as follows:

according to the processing technology of the warm-keeping down jacket, provided by the invention, two compounding modes of glue pressing and thread spreading are combined, the diversity of the finishing effect of the down jacket is ensured, the down filling amount is increased, the down is uniformly distributed, the warm keeping property is higher, the down running condition is effectively reduced, the whole technological process is simple and reasonable, the operation is convenient, the economic benefit is good, and the processing technology is suitable for popularization and use.

Drawings

FIG. 1 is a schematic flow chart of one embodiment of a process for manufacturing the thermal down jacket of the present invention;

FIG. 2 is a schematic structural diagram according to the embodiment of FIG. 1;

FIG. 3 is a schematic flow diagram based on the embodiment of FIG. 1;

FIG. 4 is a schematic flow chart based on another embodiment of FIG. 1;

FIG. 5 is a schematic flow chart based on the embodiment of FIG. 4;

fig. 6 is a schematic flow chart of another embodiment of a processing process of the thermal down jacket.

In the figure: 101. a surface layer; 102. an intermediate layer; 103. an inner lining layer; 104. a derivative line; 105. a layer of down feather cavity; 106. hot melting adhesive tapes; 107. two layers of down feather cavities.

Detailed Description

Example 1:

as shown in fig. 1 and 2, a process for manufacturing a thermal down jacket, the thermal down jacket comprising three layers of fabrics as a surface layer 101, a middle layer 102 and an inner layer 103, the process comprising the following steps:

step S1, cutting the surface layer 101, the middle layer 102 and the inner layer 103 into initial cut pieces of each part according to a preset sample plate, wherein the initial cut pieces comprise a front cut piece, a rear cut piece, sleeves and a collar;

step S2, overlapping and clamping the cut surface layer 101 and the cut intermediate layer 102 on a template of a template machine, and sewing the diffraction lines 104 according to a preset diffraction line 104 diagram to form a plurality of down feather cavities 105;

step S3, adhering hot melt adhesive tapes 106 on two sides of the extension lines 104 of the middle layer 102, and compounding the cut inner layer 103 on one surface of the middle layer 102 adhered with the hot melt adhesive tapes 106 through a hot-pressing compound machine to form a plurality of two-layer down feather cavities 107;

step S4, performing edge running on the periphery of a garment piece formed by compounding the surface layer 101, the middle layer 102 and the inner layer 103, and reserving a down filling opening;

step S5, filling preset down feather into each of the first-layer down feather cavity 105 and the second-layer down feather cavity 107, and then sealing down feather filling openings;

and step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form the original warm-keeping down jacket.

Example 2:

as shown in fig. 2 and 3, a process for manufacturing a thermal down jacket, the thermal down jacket includes three layers of fabrics as a surface layer 101, a middle layer 102 and an inner layer 103, respectively, the process includes the following steps:

step S0, the surface layer 101, the middle layer 102 and the inner layer 103 are made into fabrics with consistent thermal shrinkage through a preheating machine;

step S1, cutting the surface layer 101, the middle layer 102 and the inner layer 103 into initial cut pieces of each part according to a preset sample plate, wherein the initial cut pieces comprise a front cut piece, a rear cut piece, sleeves and a collar;

step S2, overlapping and clamping the cut surface layer 101 and the cut intermediate layer 102 on a template of a template machine, and sewing the diffraction lines 104 according to a preset diffraction line 104 diagram to form a plurality of down feather cavities 105;

step S3, adhering hot melt adhesive tapes 106 on two sides of the extension lines 104 of the middle layer 102, and compounding the cut inner layer 103 on one surface of the middle layer 102 adhered with the hot melt adhesive tapes 106 through a hot-pressing compound machine to form a plurality of two-layer down feather cavities 107;

step S4, performing edge running on the periphery of a garment piece formed by compounding the surface layer 101, the middle layer 102 and the inner layer 103, and reserving a down filling opening;

step S5, filling preset down feather into each of the first-layer down feather cavity 105 and the second-layer down feather cavity 107, and then sealing down feather filling openings;

and step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form the original warm-keeping down jacket.

Example 3:

as shown in fig. 2 and 4, a process for manufacturing a thermal down jacket, the thermal down jacket includes three layers of fabrics as a surface layer 101, a middle layer 102 and an inner layer 103, respectively, the process includes the following steps:

step S0, the surface layer 101, the middle layer 102 and the inner layer 103 are made into fabrics with consistent thermal shrinkage through a preheating machine;

step S1, cutting the surface layer 101, the middle layer 102 and the inner layer 103 into initial cut pieces of each part according to a preset sample plate, wherein the initial cut pieces comprise a front cut piece, a rear cut piece, sleeves and a collar;

step S2, overlapping and clamping the cut surface layer 101 and the cut intermediate layer 102 on a template of a template machine, and sewing the diffraction lines 104 according to a preset diffraction line 104 diagram to form a plurality of down feather cavities 105;

step S3, adhering hot melt adhesive tapes 106 on two sides of the extension lines 104 of the middle layer 102, and compounding the cut inner layer 103 on one surface of the middle layer 102 adhered with the hot melt adhesive tapes 106 through a hot-pressing compound machine to form a plurality of two-layer down feather cavities 107;

step S4, performing edge running on the periphery of a garment piece formed by compounding the surface layer 101, the middle layer 102 and the inner layer 103, and reserving a down filling opening;

step S5, filling preset down feather into each of the first-layer down feather cavity 105 and the second-layer down feather cavity 107, and then sealing down feather filling openings;

step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form an initial warm-keeping down jacket;

step S7, adsorbing and cleaning down exposed outside on the sewed original warm-keeping down jacket by using a dust remover;

and step S8, edge wrapping is carried out on the seams of the initial warm-keeping down jacket with the redundant down removed by the edge wrapping strips, and ironing finishing is carried out to form the final warm-keeping down jacket.

In the above process, the specific step of step S1 includes:

a. manufacturing a preset sample plate of the warm-keeping down jacket according to a preset down jacket drawing, wherein the sample plate comprises a front coat plate, a rear coat plate, a coat sleeve plate and a collar plate;

b. cutting the surface layer 101, the middle layer 102 and the inner layer 103 which are subjected to thermal shrinkage into initial cut pieces according to the preset sample plate, wherein the initial cut pieces comprise front cut pieces, rear cut pieces, sleeves and collars;

the surface layer 101, the middle layer 102 and the inner layer 103 after thermal shrinkage are respectively cut into a front garment piece according to a front garment board, a rear garment piece according to a rear garment board, sleeves according to a sleeve board and a collar according to a collar board.

Example 4:

as shown in fig. 2 and 5, a process for manufacturing a thermal down jacket, the thermal down jacket includes three layers of fabrics as a surface layer 101, a middle layer 102 and an inner layer 103, respectively, the process includes the following steps:

step S0, the surface layer 101, the middle layer 102 and the inner layer 103 are made into fabrics with consistent thermal shrinkage through a preheating machine;

step S1, cutting the surface layer 101, the middle layer 102 and the inner layer 103 into initial cut pieces of each part according to a preset sample plate, wherein the initial cut pieces comprise a front cut piece, a rear cut piece, sleeves and a collar;

step S2, overlapping and clamping the cut surface layer 101 and the cut intermediate layer 102 on a template of a template machine, and sewing the diffraction lines 104 according to a preset diffraction line 104 diagram to form a plurality of down feather cavities 105;

step S3, adhering hot melt adhesive tapes 106 on two sides of the extension lines 104 of the middle layer 102, and compounding the cut inner layer 103 on one surface of the middle layer 102 adhered with the hot melt adhesive tapes 106 through a hot-pressing compound machine to form a plurality of two-layer down feather cavities 107;

step S4, performing edge running at the position which is 0.8 cm away from the side line around the garment piece formed by compounding the surface layer 101, the middle layer 102 and the inner layer 103, and reserving a down filling opening;

step S5, filling preset down feather into each of the first-layer down feather cavity 105 and the second-layer down feather cavity 107, and then sealing down feather filling openings;

step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form an initial warm-keeping down jacket;

step S7, adsorbing and cleaning down exposed outside on the sewed original warm-keeping down jacket by using a dust remover;

step S8, edge wrapping is carried out on the seams of the initial warm-keeping down jacket with the redundant down removed by the edge wrapping strips, and ironing finishing is carried out to form a final warm-keeping down jacket;

the outer surface of the surface layer 101 can be provided with a preset first stamp, the first stamp can be sewn on the outer side of the fabric on the outer surface in a direct embroidery manner, and can also be bonded on the outer side of the fabric on the outer surface in a bonding manner, namely, the outer surface is used as a garment outer surface of the thermal down jacket;

the second number of preset prints can also be arranged on the inner layer 103, and the second number of prints can be sewn on the inner side surface of the fabric of the inner layer 103 in a direct embroidery mode and can also be bonded on the inner side surface of the fabric of the inner layer 103 in a bonding mode, namely, the inner side is used as a garment outer surface of the thermal down coat;

comprehensively, the preset first printing is arranged on the outer surface of the surface layer 101, and the preset second printing is arranged on the inner layer 103, namely, the outer surface can be used as the garment outer surface of the thermal down jacket, the inner surface can be used as the garment outer surface of the thermal down jacket, the effect that the front side and the back side of the down jacket are worn is achieved, and different garment effects are achieved on the two sides.

Example 5:

as shown in fig. 2 and 6, a process for manufacturing a thermal down jacket, the thermal down jacket includes three layers of fabrics as a surface layer 101, a middle layer 102 and an inner layer 103, respectively, the process includes the following steps:

step S0, selecting the fabric subjected to anti-velvet treatment as the fabric of the surface layer 101, the middle layer 102 and the inner layer 103, and making the surface layer 101, the middle layer 102 and the inner layer 103 into the fabric with consistent heat shrinkage rate through a preheating machine, wherein the anti-velvet treatment mode can adopt coating anti-velvet, calendaring anti-velvet, film pasting anti-velvet and other modes;

step S1, cutting the surface layer 101, the middle layer 102 and the inner layer 103 into initial garment pieces of each part according to a preset sample plate, wherein the initial garment pieces comprise a front garment piece, a rear garment piece, sleeves and a collar, and the initial garment pieces also comprise door towels;

step S2, overlapping and clamping the cut surface layer 101 and the cut intermediate layer 102 on a template of a template machine, and sewing the diffraction lines 104 according to a preset diffraction line 104 diagram to form a plurality of down feather cavities 105;

step S3, adhering hot melt adhesive tapes 106 on two sides of the extension lines 104 of the middle layer 102, and compounding the cut inner layer 103 on one surface of the middle layer 102 adhered with the hot melt adhesive tapes 106 through a hot-pressing compound machine to form a plurality of two-layer down feather cavities 107;

step S4, performing edge running at the position which is 0.8 cm away from the side line around the garment piece formed by compounding the surface layer 101, the middle layer 102 and the inner layer 103, and reserving a down filling opening;

step S5, filling preset cotton into each of the first-layer down feather cavity 105 and the second-layer down feather cavity 107, and then sealing down feather filling openings;

step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with cotton together according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form an initial warm-keeping down jacket;

step S7, adsorbing and cleaning down exposed outside on the sewed original warm-keeping down jacket by using a dust remover;

and step S8, edge wrapping the seams of the initial warm-keeping down jacket with the redundant down removed by the edge wrapping strips, and finishing by ironing to form a final warm-keeping down jacket, wherein the final warm-keeping down jacket is a cotton jacket.

Example 6:

as shown in fig. 2, a sheet type down jacket fabric is provided, the sheet type down jacket fabric comprises three layers of fabrics or garment pieces which are respectively used as a surface layer 101, a middle layer 102 and an inner layer 103, a plurality of first-layer down cavities 105 are formed between the surface layer 101 and the middle layer 102 through sewing threads 104 or embroidery, a plurality of second-layer down cavities 107 are formed between the middle layer 102 and the inner layer 103 through bonding hot melting adhesive tapes 106, and down feather is arranged in both the first-layer down cavities 105 and the second-layer down cavities 107;

one mode is that in the scheme of forming a plurality of down feather cavities 105 on one layer through embroidery, the shape of the embroidery is diversified, hot melt adhesive sheets with different shapes can be adhered to gaps of the embroidery according to the shape of the embroidery, and then the hot melt adhesive sheets are compounded with the inner lining 103 after the down feather leakage prevention treatment; in another mode, in the scheme of forming a plurality of down cavities 105 by using the extension threads, hot melt adhesive tapes are adhered to two sides of the reverse side part of the extension threads and then compounded with the other inner layer 103 after down run prevention treatment.

The invention provides a processing technology of a warm-keeping down jacket, which combines two compounding modes of glue pressing and thread forming by performing thread forming sewing on an overlapped surface layer and an intermediate layer and hot-pressing compounding an inner lining layer at one side of the intermediate layer provided with a hot-melt adhesive tape after the thread forming sewing, thereby ensuring the diversity of the finished effect of the down jacket, improving the down filling amount, keeping the uniform distribution of down, having higher warm keeping performance, effectively reducing the overflow of down silk and down ash, being capable of not adding lining cloth, saving working hours, having simple and reasonable whole technological process, being convenient to operate, being capable of realizing industrial batch production, having good economic benefit and being suitable for popularization and use.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A processing technology of a warm-keeping down jacket is characterized in that the warm-keeping down jacket comprises a piece type down jacket fabric, the piece type down jacket fabric comprises three layers of fabrics or garment pieces which are respectively used as a surface layer, a middle layer and an inner lining layer, a plurality of one-layer down feather cavities are formed between the surface layer and the middle layer through sewing threads or embroidery, a plurality of two-layer down feather cavities are formed between the middle layer and the inner lining layer through adhering hot-melt adhesive strips, and down feathers are arranged in the one-layer down feather cavity and the two-layer down feather cavities respectively, and the processing technology comprises the following steps:

step S1, cutting the surface layer, the middle layer and the inner layer into initial garment pieces of each part according to a preset sample plate, wherein the initial garment pieces comprise a front garment piece, a rear garment piece, sleeves and a collar;

step S2, overlapping and clamping the cut surface layer and the cut intermediate layer on a template of a template machine, and sewing the diffraction lines according to a preset diffraction line graph to form a plurality of down feather cavities;

step S3, adhering hot melt adhesive tapes on two sides of the extension lines of the middle layer, and compounding the cut inner layer on one surface of the middle layer adhered with the hot melt adhesive tapes through a hot-pressing compound machine to form a plurality of two-layer down feather cavities;

step S4, performing edge running on the periphery of a garment piece formed by compounding the surface layer, the middle layer and the inner layer, and reserving a down filling opening;

step S5, filling preset down feather into each down feather cavity of the first layer and the down feather cavity of the second layer, and then sealing down feather filling openings;

and step S6, sewing the front garment piece, the rear garment piece, the sleeves and the collar filled with the down according to a preset down jacket drawing to form seams, and trimming the seams to be consistent in width and width to form the original warm-keeping down jacket.

2. The process for manufacturing a thermal down jacket according to claim 1, wherein the step of S1 is preceded by the steps of:

and step S0, the surface layer, the middle layer and the inner layer are made into fabrics with consistent thermal shrinkage through a preheating machine.

3. The process for manufacturing a thermal down jacket according to claim 1, wherein the step of S6 is further followed by the steps of:

step S7, adsorbing and cleaning down exposed outside on the sewed original warm-keeping down jacket by using a dust remover;

and step S8, edge wrapping is carried out on the seams of the initial warm-keeping down jacket with the redundant down removed by the edge wrapping strips, and ironing finishing is carried out to form the final warm-keeping down jacket.

4. The processing technology of the warm-keeping down jacket as claimed in claim 2, wherein the specific steps of the step S1 include:

a. manufacturing a preset sample plate of the warm-keeping down jacket according to a preset down jacket drawing, wherein the sample plate comprises a front coat plate, a rear coat plate, a coat sleeve plate and a collar plate;

b. cutting the surface layer, the middle layer and the inner layer which are subjected to thermal shrinkage into initial garment pieces according to the preset sample plate, wherein the initial garment pieces comprise front garment pieces, rear garment pieces, sleeves and collars;

the surface layer, the middle layer and the inner layer after thermal shrinkage are respectively cut into a front garment piece according to a front garment board, a rear garment piece according to a rear garment board, sleeves according to a sleeve board and a collar according to a collar board.

5. The processing technology of the warm-keeping down jacket as claimed in claim 1, wherein the edge is run at a position which is 0.8 cm away from the side line around the garment piece formed by compounding the surface layer, the middle layer and the inner layer.

6. The processing technology of the warm-keeping down jacket as claimed in claim 1, wherein the outer surface of the surface layer is provided with a preset first printing.

7. The processing technology of the warm-keeping down jacket as claimed in claim 1, wherein the inner lining layer is provided with a preset second printing.

8. The process for manufacturing a warm-keeping down jacket as claimed in any one of claims 1 to 7, wherein the fabrics respectively used as the surface layer, the middle layer and the inner layer are fabrics subjected to down-proof treatment.

9. A process for manufacturing a thermal down jacket according to any one of claims 1 to 8, wherein the process is used for manufacturing a down or cotton ready-made jacket.

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