CN111038015A - Crease-resistant laser embroidery fabric - Google Patents

Abstract

The invention discloses a crease-resistant laser embroidery fabric which comprises a fabric surface layer, a fabric base layer and a fabric lining, wherein the fabric base layer is fixedly arranged on one side of the fabric surface layer, the fabric lining is fixedly arranged on one side of the fabric base layer far away from the fabric surface layer, the fabric base layer, the fabric lining are pasted through an adhesive, and the fabric base layer and the fabric lining are sewn through stitches. According to the invention, the fabric can effectively present crease-resistance characteristics by carrying out the processes of pre-drying, air cooling, liquid ammonia padding, drying, steaming, washing, roller drying and the like on the fabric base layer, the inner layer of the fabric is bonded on one side of the fabric base layer, so that the embroidery laser all-in-one machine can be worn more comfortably, the outer layer of the fabric is bonded on the other side of the fabric base layer, so that the embroidery laser all-in-one machine can embroider on the surface layer of the fabric, the fabric is more beautiful to watch, and the crease-resistance characteristics can be effectively realized.

Description

Crease-resistant laser embroidery fabric

Technical Field

The invention relates to the technical field of laser embroidery fabrics, in particular to a crease-resistant laser embroidery fabric.

Background

The fabric is a material for manufacturing the clothes, is one of three elements of the clothes, can explain the style and the characteristics of the clothes, directly controls the expression effects of the color and the shape of the clothes, and needs to be embroidered by an embroidery laser all-in-one machine in the manufacturing process of the fabric.

The existing fabric is easy to wrinkle in the daily use process, and after the fabric is processed through the embroidery laser all-in-one machine, the fabric is ugly after the wrinkle is displayed, the fabric can be ironed only through an electric iron at the moment, and the fabric is not convenient to wear in daily life.

Disclosure of Invention

The invention aims to provide a crease-resistant laser embroidery fabric to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the crease-resistant laser embroidery fabric comprises a fabric surface layer, a fabric base layer and a fabric lining, wherein the fabric base layer is fixedly arranged on one side of the fabric surface layer, the fabric lining is fixedly arranged on one side, away from the fabric surface layer, of the fabric base layer, the fabric surface layer and the fabric base layer, and the fabric base layer and the fabric lining are all pasted through an adhesive, and the fabric base layer and the fabric lining are sewn through stitches.

A manufacturing method of crease-resistant laser embroidery fabric comprises the following steps:

step S1: pre-drying, namely placing the fabric base layer into a dryer to dry the fabric base layer, so that the moisture content of the fabric can be reduced, the moisture content of the fabric can be prevented from being different, and the effect of the subsequent process is improved;

step S2: air cooling, namely placing the dried fabric base layer in an air cooling device, and cooling the fabric base layer by cold air blown out by a cold distribution device to cool a high-temperature cloth cover, wherein the cloth cover temperature of the fabric base layer is lower when the fabric base layer enters a liquid ammonia tank so as to achieve a better liquid ammonia effect;

step S3: padding liquid ammonia, and placing the air-cooled fabric base layer into a liquid ammonia tank, wherein the fabric base layer is fully contacted with the liquid ammonia;

step S4: drying, namely wrapping the fabric base layer between a large drying cylinder and a wool felt, gasifying and drying cloth surface liquid ammonia through the high temperature of the large drying cylinder, and carrying out violent reaction on liquid ammonia molecules and fiber molecules of the fabric during gasification;

step S5: steaming, namely placing the fabric base layer into a steam steaming chamber, directly spraying high-temperature steam onto the cloth surface, washing non-steamed liquid ammonia on the cloth surface by the high-temperature steam, and taking away the liquid ammonia in a form of a mixture of the steam and the ammonia, wherein the liquid ammonia on the cloth surface is basically removed;

step S6: washing, namely respectively placing the fabric into a first washing tank, a second washing tank and a third washing tank in sequence, wherein the first washing tank is used for washing residual liquid ammonia on the fabric base layer, the second washing tank is used for neutralizing residual alkalinity on the fabric base layer, and the third washing tank is used for washing neutralizing liquid in the second washing tank;

step S7: drying the fabric base layer by a roller, namely placing the fabric base layer into a roller dryer to dry the fabric base layer;

step S8: bonding for the first time, namely bonding the fabric base layer and the fabric inner layer through an adhesive;

step S9: bonding for the second time, wherein the fabric base layer and the fabric surface layer are bonded through an adhesive;

step S10: embroidering, namely, embroidering the fabric by placing the fabric into the embroidery laser all-in-one machine and enabling the surface layer of the fabric to be upward and embroidering the fabric by the embroidery laser all-in-one machine.

Further, the temperature for pre-drying the fabric base layer in the step S1 is 130 ℃.

Furthermore, in the step S3, the processing sequence of non-fluorescence before fluorescence, light color before dark color is required to prevent staining and fluorescence.

Further, the steam pressure inside the steaming chamber in the step S5 is 0.55 MPa.

Further, the temperatures of the first water washing tank, the second water washing tank and the third water washing tank in the step S6 are 60 ℃, 70 ℃ and 80 ℃, respectively.

Furthermore, in the step S8, the fabric base layer and the fabric lining are sewn by the needle thread, so that the fabric base layer and the fabric lining are firmer.

Furthermore, the adhesive used in steps S8 and S9 is JL-808 aqueous PVC patch glue, and the acid ester ethylene/propylene copolymer emulsion containing special functional monomers has super strong adhesive force to the non-stick base material, has good temperature resistance, high solid content, excellent adhesion, heat resistance, water resistance, alkali resistance, yellowing resistance, good thickening property, soft adhesive film, good fluidity, and good operation safety.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the fabric can effectively present crease-resistance characteristics by carrying out the processes of pre-drying, air cooling, liquid ammonia padding, drying, steaming, washing, roller drying and the like on the fabric base layer, the inner layer of the fabric is bonded on one side of the fabric base layer, so that the embroidery laser all-in-one machine can be worn more comfortably, the outer layer of the fabric is bonded on the other side of the fabric base layer, so that the embroidery laser all-in-one machine can embroider on the surface layer of the fabric, the fabric is more beautiful to watch, and the crease-resistance characteristics can be effectively realized.

Drawings

FIG. 1 is a schematic view of the overall structure of a crease-resistant laser embroidery fabric of the present invention;

fig. 2 is a schematic flow diagram of the crease-resistant laser embroidery fabric.

In the figure: 1. a surface layer of the fabric; 2. a fabric base layer; 3. and the inner layer of the fabric.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a crease-resistant laser embroidery surface fabric, includes surface fabric top layer 1, surface fabric basic unit 2 and surface fabric nexine 3, and 1 one side of surface fabric is fixed and is provided with surface fabric basic unit 2, and surface fabric basic unit 2 is fixed in the one side of keeping away from surface fabric top layer 1 and is provided with surface fabric nexine 3, and surface fabric top layer 1 and surface fabric basic unit 2, surface fabric basic unit 2 all paste through the adhesive with surface fabric nexine 3, and surface fabric basic unit 2 and surface fabric nexine 3 sew up through the needle thread.

A manufacturing method of crease-resistant laser embroidery fabric comprises the following steps:

step S1: pre-drying, namely placing the fabric base layer 2 into a dryer and drying the fabric base layer 2, so that the moisture content of the fabric surface can be reduced, the moisture content of the fabric surface can be prevented from being different, and the effect of subsequent processes is improved;

step S2: air cooling, namely placing the dried fabric base layer 2 in an air cooling device, and cooling the fabric base layer 2 by cold air blown out by a cold distribution device to cool a high-temperature cloth cover, wherein the cloth cover temperature of the fabric base layer 2 is lower when the fabric base layer enters a liquid ammonia tank so as to achieve a better liquid ammonia effect;

step S3: padding liquid ammonia, placing the air-cooled fabric base layer 2 into a liquid ammonia tank, and fully contacting the fabric base layer 2 with the liquid ammonia;

step S4: drying, namely wrapping the fabric base layer 2 between a large drying cylinder and a wool felt, gasifying and drying cloth surface liquid ammonia through the high temperature of the large drying cylinder, and carrying out violent reaction on liquid ammonia molecules and fiber molecules of the fabric during gasification;

step S5: steaming, namely placing the fabric base layer 2 into a steam steaming chamber, directly spraying high-temperature steam onto the cloth surface, washing non-steamed liquid ammonia on the cloth surface by the high-temperature steam, and taking away the liquid ammonia in a form of a mixture of the steam and the ammonia, wherein the liquid ammonia on the cloth surface is basically removed;

step S6: washing, namely respectively placing the fabric into a first washing tank, a second washing tank and a third washing tank in sequence, wherein the first washing tank is used for washing liquid ammonia remained on the fabric base layer 2, the second washing tank is used for neutralizing the remained alkalinity on the fabric base layer 2, and the third washing tank is used for washing the neutralizing liquid in the second washing tank;

step S7: drying the fabric base layer 2 in a roller, namely, drying the fabric base layer 2 by placing the fabric base layer 2 into a roller dryer;

step S8: the first bonding is carried out by bonding the fabric base layer 2 and the fabric inner layer 3 through an adhesive;

step S9: the second time of bonding, the base layer 2 of the fabric and the surface layer 1 of the fabric are bonded through an adhesive;

step S10: embroidering, namely, putting the fabric into the embroidery laser all-in-one machine, enabling the surface layer 1 of the fabric to be upward, and embroidering the fabric by the embroidery laser all-in-one machine;

in the present invention, the temperature for pre-drying the fabric base layer 2 in step S1 is 130 ℃.

In the invention, in the step S3, the processing sequence of non-fluorescence and fluorescence of the fabric is required, and the processing sequence of light color and dark color is required to prevent staining and fluorescence.

The steam pressure inside the steaming chamber in step S5 of the present invention was 0.55 MPa.

In the present invention, the temperatures of the first water washing tank, the second water washing tank and the third water washing tank in step S6 are 60 ℃, 70 ℃ and 80 ℃, respectively.

In the invention, in the step S8, the fabric base layer 2 and the fabric lining layer 3 are sewn through the needle thread, so that the fabric base layer 2 and the fabric lining layer 3 are firmer.

The adhesive used in the steps S8 and S9 is JL-808 water-based PVC (polyvinyl chloride) patch glue, and the acid ester ethylene/propylene copolymer emulsion containing special functional monomers has super-strong adhesive force to a difficult-to-adhere base material, has quite good temperature resistance, high solid content, particularly good adhesion, heat resistance, water resistance, alkali resistance, yellowing resistance, good tackifying property, soft adhesive film, good fluidity and good operation safety.

The working principle is as follows: according to the invention, the fabric base layer 2 can effectively present crease-resistance characteristics through the processes of pre-drying, air cooling, liquid ammonia padding, drying, steaming, washing, roller drying and the like on the fabric base layer 2, the lining layer 3 of the fabric is bonded on one side of the fabric base layer 2, so that the embroidery laser all-in-one machine can embroider on the surface layer 1 of the fabric by bonding the surface layer 1 of the fabric on the other side of the fabric base layer 2, so that the fabric is more beautiful to watch, and the crease-resistance characteristics can be effectively realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a crease-resistant laser embroidery surface fabric, includes surface fabric top layer (1), surface fabric basic unit (2) and surface fabric inlayer (3), its characterized in that: the fabric is characterized in that a fabric base layer (2) is fixedly arranged on one side of the fabric surface layer (1), a fabric lining (3) is fixedly arranged on one side, away from the fabric surface layer (1), of the fabric base layer (2), the fabric surface layer (1) and the fabric base layer (2), the fabric base layer (2) and the fabric lining (3) are pasted through an adhesive, and the fabric base layer (2) and the fabric lining (3) are sewn through stitches.

2. The manufacturing method of the crease-resistant laser embroidery fabric is characterized by comprising the following steps of:

step S1: pre-drying, namely placing the fabric base layer (2) into a dryer to dry the fabric base layer (2), so that the moisture content of the fabric can be reduced, the moisture content of the fabric can be prevented from being different, and the effect of the subsequent process is improved;

step S2: air cooling, namely placing the dried fabric base layer (2) in an air cooling device, and cooling the fabric base layer (2) by blowing cold air out of a cold distribution device to cool a high-temperature cloth cover, wherein the cloth cover temperature of the fabric base layer (2) is lower when the fabric base layer enters a liquid ammonia tank so as to achieve a better liquid ammonia effect;

step S3: padding liquid ammonia, and placing the air-cooled fabric base layer (2) into a liquid ammonia tank, wherein the fabric base layer (2) is in full contact with the liquid ammonia;

step S4: drying, namely wrapping the fabric base layer (2) between a large drying cylinder and a wool felt, gasifying and drying cloth cover liquid ammonia through the high temperature of the large drying cylinder, and carrying out violent reaction on liquid ammonia molecules and fiber molecules of the fabric during gasification;

step S5: steaming, namely placing the fabric base layer (2) into a steam chamber, directly spraying high-temperature steam onto the cloth surface, washing non-steamed liquid ammonia on the cloth surface by the high-temperature steam, and taking away the liquid ammonia in the form of a mixture of the steam and the ammonia, wherein the liquid ammonia on the cloth surface is basically removed;

step S6: washing, namely respectively placing the fabric into a first washing tank, a second washing tank and a third washing tank in sequence, wherein the first washing tank is used for washing residual liquid ammonia on the fabric base layer (2), the second washing tank is used for neutralizing residual alkalinity on the fabric base layer (2), and the third washing tank is used for washing neutralizing liquid in the second washing tank;

step S7: drying the fabric base layer (2) by a roller, namely placing the fabric base layer (2) into a roller dryer to dry the fabric base layer (2);

step S8: the first bonding is carried out by bonding the fabric base layer (2) and the fabric inner layer (3) through an adhesive;

step S9: the second time of bonding, the fabric base layer (2) and the fabric surface layer (1) are bonded through an adhesive;

step S10: embroidering, namely, embroidering the fabric by the embroidery laser all-in-one machine by placing the fabric into the embroidery laser all-in-one machine and enabling the surface layer (1) of the fabric to be upward.

3. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: in the step S1, the temperature for pre-drying the fabric base layer (2) is 130 ℃.

4. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: in the step S3, the processing sequence of non-fluorescence and fluorescence, light color and dark color is required to prevent staining and fluorescence.

5. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: the steam pressure inside the steaming chamber in said step S5 was 0.55 MPa.

6. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: the temperatures of the first water washing tank, the second water washing tank and the third water washing tank in the step S6 are 60 ℃, 70 ℃ and 80 ℃, respectively.

7. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: in the step S8, the fabric base layer (2) and the fabric inner layer (3) are sewn together by stitches, so that the fabric base layer (2) and the fabric inner layer (3) are firmer.

8. The crease-resistant laser embroidery fabric according to claim 2, characterized in that: the adhesive used in the steps S8 and S9 is JL-808 water-based PVC patch glue, and the acid ester ethylene/propylene copolymer emulsion containing special functional monomers has super-strong adhesive force to a difficult-to-adhere base material, has quite good temperature resistance, high solid content, particularly good adhesion, heat resistance, water resistance, alkali resistance, yellowing resistance, good tackifying property, soft adhesive film, good fluidity and good operation safety.

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