CN110172836A - Dress ornament spring function drape forming technique - Google Patents

Abstract

Present invention discloses dress ornament spring function drape forming techniques, include the following steps: to cut out dress ornament cut-parts；Deploy high-elastic heat preservation base fluid；High-elastic heat preservation zone coating；Baking and curing and obtained dress ornament.The present invention carries out formula improvement to traditionally high resiliency restoring degree elastic gum, is added to Graphene powder, meets the distributing homogeneity of Graphene powder, while meeting the elastic restoring degree and flexibility in spring function region, is also equipped with more preferably contact comfort level.So that dress ornament has high heat preservation ground spring function region, meet people to the wearing demand of heat preservation and magnetic strength.Dress ornament cut-parts use the high-elastic restoring degree fabric of big aperture, combine with small guide vane functional area, meet different building shape crowd to the wearing demand of dress ornament, meanwhile, the tightening of functional area is combined with heat preservation, realizes more consumingly part thermal sensation demand.

Description

Dress ornament spring function drape forming technique

Technical field

The present invention relates to dress ornament spring function drape forming techniques, belong to the technical field of dress ornament cut-parts treatment process.

Background technique

It is also higher and higher to the comfort level requirement of dress ornament as people's lives level improves, in particular for docile skin Dress ornament of skin, such as underwear, underpants, movement tight, abdomen drawing belt, acquisition myoelectricity clothes etc., general dress ornament has various logical It is to be able to satisfy primary demand by selecting suitable model with model.But one-size-fits-all dress ornament made from traditional fabric is used to be difficult It adapts to individual to have differences, causes comfort level poor.

Currently, usually being tightened in the edge of dress ornament using elastic rib, elastic rib to improve the applicability of one-size-fits-all There are more disadvantages, will cause the curling of tightening portion fabric, influence the aesthetics of dress ornament under natural conditions；Elastic rib can make skin At extruding, it is also easy to produce Le trace；Fracture easy to aging；Some parts can not be useful in.

In the prior art there is also using glue film as the dress ornament locally tightened, the biggish glue film that limits of traditional glue film covers The transverse and longitudinal aperture of capping material, and the response rate of fabric is decayed, it is unable to satisfy the demand of figure more overweight people.In addition, There is situations such as washing season cracking in traditional glue film, and phenomena such as easily cause skin allergy.

For this phenomenon, applicant it is proposed that a kind of high resiliency restoring degree elastic gum, by hydroxy silicon oil, crosslinking agent, Hydrocarbon solvent, colorant, catalyst, thickener form base rubber liquid, combine to obtain without viscous, soft, thin high-elastic heat with cloth Cured layer.

And with people's living standard promoted, exist to the elasticity of dress ornament and requires ground it is also desirable to have certain Ground is functional, wherein graphene has the effects of heat preservation, magnetic strength as a kind of brand-new material, as dress material The effects of intervention medium can play heat preservation, Chinese invention patent CN106515110A discloses a kind of constant temperature face dilute based on graphite Material and preparation method, the dilute EVA coating of graphitiferous is realized by way of pad pasting realizes insulation effect, but it deposits covering On base fabric surface layer, intolerant to washing, while it is poor to contact comfort level.

The dilute powder of graphite is directly added in the base rubber liquid that our company has disclosed, will cause elastic gum suppleness missing and Elastic restoring degree loss, therefore this case is dedicated to obtaining suppleness, elastic restoring degree and heat insulating ability by formula and process improving It realizes in the dress ornament local function region that can be taken into account.

Summary of the invention

Present invention aim to address above-mentioned the deficiencies in the prior art, and for the elastic gum addition dilute powder of graphite, there are suppleness The problem of missing and elastic restoring degree loss, propose dress ornament spring function drape forming technique.

In order to achieve the above object, the technical scheme adopted by the invention is as follows:

Dress ornament spring function drape forming technique, includes the following steps:

S1 dress ornament is cut,

Cut out dress ornament cut-parts；

S2 deploys high-elastic heat preservation base fluid,

The high-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils,

12~15 parts of hydroxy dimethyl silicone oil emulsions,

0.5~1 part of Graphene powder,

1~2 part of crosslinking agent,

3~4 parts of thickeners；

The high-elastic heat preservation zone coating of S3,

The high-elastic heat preservation base fluid of allotment is coated in the high-elastic heat preservation zone of dress ornament substrate, and controls high-elastic heat preservation base fluid Penetration depth and surface smoothness；

S4 baking and curing,

Baking and curing is carried out to heat preservation base fluid high-elastic in high-elastic heat preservation zone and forms high-elastic heat preservation zone；

Dress ornament is made in S5,

Dress ornament is made by quilting.

Preferably, in the step S1, the laterally and longitudinally aperture of dress ornament cut-parts is X and response rate is more than 95%, 130 °≤X≤200%；

In the step S4, the laterally and longitudinally aperture of the high-elastic heat preservation zone of dress ornament cut-parts is 0.7~0.9X and response rate More than 93%.

Preferably, the heat preservation rate of the high-elastic heat preservation zone is greater than the heat preservation rate of dress ornament cut-parts.

Preferably, the dress ornament cut-parts with a thickness of H, the high-elastic heat preservation zone with a thickness of L, 0mm≤L-H≤0.2mm.

Preferably, the high-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils,

12 parts of hydroxy dimethyl silicone oil emulsions,

1 part of Graphene powder,

2 parts of crosslinking agents,

3 parts of thickeners.

Preferably, in the step S2, crosslinking agent is vinyltriethoxysilane, and the thickener is silica increasing Thick dose.

Preferably, in the step S2, it is high-elastic heat preservation 25 DEG C of base fluid environment temperature when viscosity≤20 mpas.

Preferably, in the step S4, drying temperature is 90~105 DEG C.

The beneficial effects are mainly reflected as follows:

1. pair traditionally high resiliency restoring degree elastic gum carries out formula improvement, it is added to Graphene powder, meets Graphene powder Distributing homogeneity, while meeting the elastic restoring degree and flexibility in spring function region, be also equipped with more preferably contact comfort level.

2. dress ornament is made to have high heat preservation ground spring function region, meet people to the wearing demand of heat preservation and magnetic strength.

3. dress ornament cut-parts use the high-elastic restoring degree fabric of big aperture, combine, meets different with small guide vane functional area Figure crowd to the wearing demand of dress ornament, meanwhile, the tightening of functional area is combined with heat preservation, realizes more consumingly localized heat Sense demand.

Detailed description of the invention

Fig. 1 is the flow diagram of dress ornament spring function drape forming technique of the present invention.

Specific embodiment

The present invention provides dress ornament spring function drape forming technique.Technical solution of the present invention is carried out below in conjunction with attached drawing detailed Thin description, so that it is more readily understood and grasps.

Dress ornament spring function drape forming technique, as shown in Figure 1, including the following steps:

Dress ornament is cut, and cuts out dress ornament cut-parts, the laterally and longitudinally aperture of the dress ornament cut-parts is X and response rate is more than 95%, 130 °≤X≤200%.

Fabric is selected, has significantly aperture, meets different building shape crowd and dresses demand.

High-elastic heat preservation base fluid is deployed,

High-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils, 12~15 parts of hydroxy dimethyl silicone oil emulsions, 0.5~1 part of Graphene powder, 1~2 part of crosslinking Agent, 3~4 parts of thickeners.

The high-elastic heat preservation base fluid that the formula obtains can make the dilute powder of graphite be evenly distributed, and have after heat cure more preferably soft Toughness and elastic restoring degree.

In a preferred embodiment, it is high-elastic heat preservation 25 DEG C of base fluid environment temperature when viscosity≤20 mpas.This is viscous Degree is easy to spray printing, has the infiltration demand of compound dress ornament cut-parts demand, while meeting the smooth interior hair tension requirements in surface layer.

In a particular embodiment, the laterally and longitudinally aperture of the high-elastic heat preservation zone of dress ornament cut-parts is 0.7~0.9X and replys Rate is more than 93%.

The molding high-elastic heat preservation zone of this case has more preferably tensile force as a result, is provided simultaneously with more preferably flexibility and recovery Rate meets part tightening, heat preservation, magnetic strength and other effects.

It should be noted that the heat preservation rate of high-elastic heat preservation zone is greater than the heat preservation rate of dress ornament cut-parts.

In a heat preservation rate test, using cooling fin as experiment body, by dress ornament substrate and it is compounded with high-elastic heat preservation base The high-elastic heat preservation zone of liquid is respectively overlay on two cooling fins, and cooling fin initial temperature is 80 DEG C, and environment temperature is 26 DEG C.When After 30s, the heatsink temperature that high-elastic heat preservation zone is covered is 77 DEG C, and the heatsink temperature that dress ornament substrate is covered is 62 DEG C. After 1min, the heatsink temperature that high-elastic heat preservation zone is covered is 73.2 DEG C, and the heatsink temperature that dress ornament substrate is covered is 51 ℃.The time that the cooling fin that high-elastic heat preservation zone is covered finally is cooled to environment temperature is 23~24min, and dress ornament substrate is covered The time that the cooling fin of lid is finally cooled to environment temperature is 4.8min.

It follows that dress ornament substrate is compared in high-elastic heat preservation zone has more preferably heat insulating ability, has the function for reducing thermal loss Energy.

High-elastic heat preservation zone coating, the high-elastic heat preservation base fluid of allotment is coated in the high-elastic heat preservation zone of dress ornament substrate, and control Make the penetration depth and surface smoothness of high-elastic heat preservation base fluid.

Refinement ground, dress ornament cut-parts with a thickness of H, high-elastic heat preservation zone with a thickness of L, 0mm≤L-H≤0.2mm.

The glue-line of traditional containing graphene particle is unable to reach the thickness of 0.2mm, this thickness human contact's formula almost with For dress ornament substrate without transition, comfort is stronger.

Baking and curing carries out baking and curing to heat preservation base fluid high-elastic in high-elastic heat preservation zone and forms high-elastic heat preservation zone.

More refinement ground, drying temperature are 90~105 DEG C.This drying temperature ensures in high-elastic heat preservation base fluid curing process Stability, surface layer, which will not generate fold, influences contact comfort level, while will not injure dress ornament substrate, and general high-elastic substrate is using high Elastic fibre silk, there are polyester fiber etc., this temperature not will lead to high-elasticity fiber melting, it is ensured that base fabric network is remained stationary.

And all kinds of dress ornaments, including clothes, trousers, cap, shoes etc. can be made by quilting cut-parts.

In a specific embodiment, high-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils, 12 parts of hydroxy dimethyl silicone oil emulsions, 1 part of Graphene powder, 2 parts of crosslinking agents, 3 parts of thickeners. Wherein, crosslinking agent is vinyltriethoxysilane, and thickener is silicon dioxide thickening agents.

Using this high-elastic heat preservation base fluid, Graphene powder is evenly distributed in mixed liquor, has after solidification very good soft Toughness and surface layer contact flexibility, have more preferably elastic restoring degree in conjunction with dress ornament cut-parts.

By above description it can be found that dress ornament spring function drape forming technique of the present invention, extensive to traditionally high resiliency Multiplicity elastic gum carries out formula improvement, is added to Graphene powder, meets the distributing homogeneity of Graphene powder, while meeting elastic work The elastic restoring degree and flexibility in energy region are also equipped with more preferably contact comfort level.So that dress ornament has high heat preservation ground elastic work Energy region meets people to the wearing demand of heat preservation and magnetic strength.Dress ornament cut-parts use the high-elastic restoring degree fabric of big aperture, and small Aperture functional area combines, and meets different building shape crowd to the wearing demand of dress ornament, meanwhile, the tightening and heat preservation of functional area It combines, realizes more consumingly local thermal sensation demand.

Technical solution of the present invention is fully described above, it should be noted that specific embodiment party of the invention Formula is simultaneously not limited by the description set out above, the Spirit Essence of those skilled in the art according to the present invention structure, method or All technical solutions that function etc. is formed using equivalents or equivalent transformation, all fall within protection scope of the present invention Within.

Claims (8)

1. dress ornament spring function drape forming technique, it is characterised in that include the following steps:

S1 dress ornament is cut,

Cut out dress ornament cut-parts；

S2 deploys high-elastic heat preservation base fluid,

The high-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils,

12~15 parts of hydroxy dimethyl silicone oil emulsions,

0.5~1 part of Graphene powder,

1~2 part of crosslinking agent,

3~4 parts of thickeners；

The high-elastic heat preservation zone coating of S3,

The high-elastic heat preservation base fluid of allotment is coated in the high-elastic heat preservation zone of dress ornament substrate, and controls the infiltration of high-elastic heat preservation base fluid Depth and surface smoothness；

S4 baking and curing,

Baking and curing is carried out to heat preservation base fluid high-elastic in high-elastic heat preservation zone and forms high-elastic heat preservation zone；

Dress ornament is made in S5,

Dress ornament is made by quilting.

2. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

In the step S1, the laterally and longitudinally aperture of dress ornament cut-parts is X and response rate is more than 95%, 130 °≤X≤ 200%；

In the step S4, the laterally and longitudinally aperture of the high-elastic heat preservation zone of dress ornament cut-parts is 0.7~0.9X and response rate is more than 93%.

3. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

The heat preservation rate of the high-elastic heat preservation zone is greater than the heat preservation rate of dress ornament cut-parts.

4. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

The dress ornament cut-parts with a thickness of H, the high-elastic heat preservation zone with a thickness of L, 0mm≤L-H≤0.2mm.

5. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

The high-elastic heat preservation base fluid includes: according to mass fraction

100 parts of methyl-silicone oils,

12 parts of hydroxy dimethyl silicone oil emulsions,

1 part of Graphene powder,

2 parts of crosslinking agents,

3 parts of thickeners.

6. dress ornament spring function drape forming technique described in any one according to claim 1~5, it is characterised in that:

In the step S2, crosslinking agent is vinyltriethoxysilane, and the thickener is silicon dioxide thickening agents.

7. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

In the step S2, it is high-elastic heat preservation 25 DEG C of base fluid environment temperature when viscosity≤20 mpas.

8. dress ornament spring function drape forming technique according to claim 1, it is characterised in that:

In the step S4, drying temperature is 90~105 DEG C.