CN204561057U - Anti-velvet fabric - Google Patents

Abstract

The utility model relates to a kind of anti-velvet fabric, comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.Above-mentioned anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and by changing the mutual access node of layer in table, the junction of crossover location is top-stitching, therefore, compared with the fabric of traditional manufacture down jackets, the anti-velvet fabric that the application obtains changes layer in self table carry out cross-woven owing to adopting, and therefore junction does not exist pin hole, can reach the effect of effective anti-chiseling down.

Description

Anti-velvet fabric

Technical field

The utility model relates to weaving face fabric, particularly relates to a kind of anti-velvet fabric.

Background technology

In today that garment technology industry is increasingly flourishing, the requirement of people to clothes quality also improves thereupon, and constantly pursuing the most high-quality of clothes, therefore the making of clothes is also thereupon rigorous, more pays attention to detail.And fabric is as the material making clothes, it uses the quality directly having influence on final finished clothes.

Down jackets, as the one of traditional dress, comprise fabric, lining and courage material mostly, and all will through anti-suede process, then through dress designing, cutting with make, finally become consumer's down jackets with it.In recent years the down jackets without the anti-suede of courage risen only include fabric and lining, and fabric and lining are all through anti-suede process, equally through dress designing, cutting with make, finally become consumer's frivolous down jackets with it.But the anti-suede effect of the feather dress fabric of these two kinds of ways is unstable, more difficultly qualitatively to check on, and owing to all needing through making, when one side is made and taken a lot of work, not only affect production efficiency, and production cost is higher, there is the problem of boring suede in the position of pin hole on the other hand, and effect is worn in impact.In addition, also can adopt a kind of by two panels all through the cloth of anti-suede process, be bonded into by glue horizontal stripe, vertical bar or the grid that spacing differs in size, subsequently through dress designing, cutting with make, finally become consumer's down jackets with it.But, when adopting glue bonding, there is fastness difference, the glue problem affecting outward appearance easy to change.

In sum, the fabric of traditional manufacture down jackets easily bores suede when making, and effect is worn in impact.

Utility model content

Based on this, be necessary that the fabric for traditional manufacture down jackets easily bores the problem of suede when making, a kind of anti-velvet fabric not easily boring suede is provided.

A kind of anti-velvet fabric, comprise the first surface bed of material and second precoat of cross-woven, the described first surface bed of material and described second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the described first surface bed of material and described second precoat in described table.

Above-mentioned anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and by changing the mutual access node of layer in table, the junction of crossover location is top-stitching, therefore, compared with the fabric of traditional manufacture down jackets, the anti-velvet fabric that the application obtains changes layer in self table carry out cross-woven owing to adopting, and therefore junction does not exist pin hole, can reach the effect of effective anti-chiseling down.

Wherein in an embodiment, the described first surface bed of material is synthetic fiber layer or natural fiber layer, and described second precoat is synthetic fiber layer or natural fiber layer.

Wherein in an embodiment, the described first surface bed of material is formed by the first organizine and the first tram cross-woven, and described first organizine is at least one in synthetic fibers and natural fiber, and described first tram is at least one in synthetic fibers and natural fiber;

Described second precoat is formed by the second organizine and the second tram cross-woven, and described second organizine is at least one in synthetic fibers and natural fiber, and described second tram is at least one in synthetic fibers and natural fiber.

Wherein in an embodiment, the D number/F number of described synthetic fibers is less than 1, the fiber number of described natural fiber be 50 English prop up ~ 120 English prop up.

Wherein in an embodiment, described first organizine and described second organizine are half light terylene, and described first tram and described second tram are combed cotton.

Wherein in an embodiment, described first organizine is half light terylene, and described first tram is cation terylene, and described second organizine and described second tram are half light terylene.

Wherein in an embodiment, described first organizine is half light terylene, and described first tram is cation terylene and half light terylene, and described second organizine and described second tram are half light terylene.

Wherein in an embodiment, described synthetic fibers are terylene, polyamide fibre or spandex.

Wherein in an embodiment, the number of described top-stitching is at least two, line parallel or crossing between described in adjacent two.

The fastness of the anti-velvet fabric obtained owing to adopting above-mentioned method for weaving is good, no matter be that how low temperature is, all can not be out of shape and harden, and makes the down jackets made have excellent wearability, has more advantage in extremely cold area.In addition, be combined on same fabric by two shell fabrics, that saves a large amount of clothing factories makes man-hour, adapts to the fashionable dress that fast fashion brand releases rapidly oneself.

Accompanying drawing explanation

Fig. 1 is the structural representation of the anti-velvet fabric of an embodiment;

Fig. 2 is the structural representation of the anti-velvet fabric of another embodiment;

Fig. 3 is the institutional framework schematic diagram of the anti-velvet fabric of another embodiment;

Fig. 4 is the flow chart of the method for weaving of the anti-velvet fabric of an embodiment.

Detailed description of the invention

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail detailed description of the invention of the present utility model below in conjunction with accompanying drawing.Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar improvement without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public concrete enforcement.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

The anti-velvet fabric 100 of one embodiment, as shown in Figure 1, comprise the first surface bed of material 110 and second precoat 120 of cross-woven, the first surface bed of material 110 and the second precoat 120, by changing the mutual access node of layer in table, change the top-stitching 130 of layer place formation in order to connect the first surface bed of material and the second precoat in table.Top-stitching 130 is positioned at the crossover location of the first surface bed of material 110 and the second precoat 120, and the region between adjacent two top-stitchings 130 of anti-velvet fabric 100 can be hollow or non-hollow.

The first surface bed of material 110 can be synthetic fiber layer or natural fiber layer, and the second precoat 120 can be synthetic fiber layer or natural fiber layer.

The first surface bed of material 110 is formed by the first organizine and the first tram cross-woven, and the first organizine can be at least one in synthetic fibers and natural fiber, and the first tram can be at least one in synthetic fibers and natural fiber.

Second precoat 120 is formed by the second organizine and the second tram cross-woven, and the second organizine can be at least one in synthetic fibers and natural fiber, and the second tram can be at least one in synthetic fibers and natural fiber.

Synthetic fibers itself do not contain the material of cellulose or protein as oil, coal, natural gas, lime stone or agricultural byproducts from some, processes the organic substance extract, then make fiber by the method for chemical synthesis and machining.

D number/F the number of synthetic fiber layer is less than 1.D represents thickness, and D number is higher shows that fiber is thicker.F represents radical, and the number of fiber namely in every rhizoid, the fiber F number of same D number is larger then more soft.The anti-velvet fabric of the application adopts high F synthetic fibers, high thread count of simultaneously arranging in pairs or groups, make the fabric be made into do not need through any physics or the Final finishing of chemistry, just can reach the effect of anti-suede.

Synthetic fibers can be terylene, polyamide fibre or spandex.

The fiber number of natural fiber is that 50 English prop up (s) ~ 120 English and prop up (s).Fiber number larger expression yarn is thinner.

The fiber that natural fiber refers to nature growth or formed.Be preferably cotton.

In two-layer fabric tissue, upper and lower two layers of tissue through closely linking together, is called tied double weave by access node.

The principle of compositionality of face-back-changing weave is the position along woven designs profile place's exchange table back warp weft yarn, is unified into an entirety by two-layer in table simultaneously.As shown in Figure 1, the first surface bed of material 110 is positioned at the upper surface position of wider hollow layer 140, second precoat 120 is positioned at the lower surface position of wider hollow layer 140, and change after layer weaves in table, at extremely narrow hollow layer 150 place, the first surface bed of material 110 is positioned at lower surface position, and now the second precoat 120 is positioned at upper surface position.

The anti-velvet fabric 100 be made into forms the hollow horizontal stripe that width differs, extremely narrow hollow layer 150 place similarly is sewing thread, play the effect of sewing thread, the first surface bed of material 110 and the second precoat 120 are closely linked together, and eider down or feather and down between wider hollow layer 140, can be filled, thus form the eiderdown shell fabric without sewing thread.

Line parallel between adjacent two in above-mentioned embodiment, but not as limit, adjacent two top-stitchings can also intersect, and are namely arranged to arbitrary shape, specifically can determine according to demand.And many top-stitchings of the anti-velvet fabric of the application can also form vertical bar or grid that width differs, specifically can determine as required.The first surface bed of material is identical with the width of the second precoat, and the width in the region surrounded by adjacent two top-stitchings of anti-velvet fabric can be arbitrary value.

As shown in Figures 2 and 3, anti-velvet fabric 200 comprises the first surface bed of material 210 and second precoat 220 of cross-woven, the first surface bed of material 210 and the second precoat 220, by changing the mutual access node of layer in table, change the top-stitching 230 of layer place formation in order to connect the first surface bed of material 210 and the second precoat 220 in table.Top-stitching 230 is positioned at the crossover location of the first surface bed of material 210 and the second precoat 220.Region between adjacent two top-stitchings 230 of anti-velvet fabric 200 is hollow layer 240 or hollow layer 250, and hollow layer 240 is identical with the width of hollow layer 250.

X-direction in Fig. 3 is warp-wise, and Y-direction is broadwise, and white space represents that parallel covers above warp, and non-blank-white region representation warp covers above parallel.Selvage weave is formed by the 1st, 2 row organizine of X-direction and the tram weave in of Y-direction.By the first organizine of the 3rd, 5,7,9,11,13 row of X-direction and Y-direction the 1st, 3,5,7,9, the first tram of 11 row interweaves and forms the first surface bed of material 210 of Part I 260.By the second organizine of the 4th, 6,8,10,12,14 row of X-direction and Y-direction the 2nd, 4,6,8,10, the second tram of 12 row interweaves and forms the second precoat 220 of Part I 260.Region between adjacent two top-stitchings 230 of the anti-velvet fabric 200 of Part I 260 is hollow layer 240.

By the first organizine of the 3rd, 5,7,9,11,13 row of X-direction and Y-direction the 14th, 16,18,20,22, the first tram of 24 row interweaves and forms the first surface bed of material 210 of Part II 270.By the second organizine of the 4th, 6,8,10,12,14 row of X-direction and Y-direction the 13rd, 15,17,19,21, the second tram of 23 row interweaves and forms the second precoat 220 of Part II 270.Region between adjacent two top-stitchings 230 of the anti-velvet fabric 200 of Part II 270 is hollow layer 250.

Part I 260 and Part II 270 are adjacent fabric tissue, in the present embodiment adjacent two hollow layers and hollow layer 240 identical with the width of hollow layer 250, the hollow horizontal stripe width that anti-velvet fabric 200 is now formed is identical, all can fill eider down or feather and down in hollow layer 240 and hollow layer 250, form the eiderdown shell fabric without sewing thread.And the top-stitching 230 of anti-velvet fabric 200 plays the effect of sewing thread, the first surface bed of material 210 and the second precoat 220 realize changing layer in table by top-stitching 230, due to the not pin hole through making, can play the effect preventing from boring suede.But it is not as limit, the width of adjacent two hollow layers can also be any different value.

In addition, it should be noted that, Part I 260 and Part II 270 can repeat to weave arbitrary number of times respectively, specifically determine according to the width of required hollow horizontal stripe.

In a preferred embodiment, the first organizine and the second organizine are half light terylene, and the first tram and the second tram are combed cotton.

In a preferred embodiment, the first organizine is half light terylene, and the first tram is cation terylene, and the second organizine and the second tram are half light terylene.

In a preferred embodiment, the first organizine is half light terylene, and the first tram is cation terylene and half light terylene, and the second organizine and the second tram are half light terylene.

Above three kinds of preferred embodiments have employed the fabric of unlike material, in conjunction with each advantage of different fabric, can obtain the anti-velvet fabric meeting other demands different.

Above-mentioned anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and by changing the mutual access node of layer in table, the junction of crossover location is top-stitching, therefore, compared with the fabric of traditional manufacture down jackets, the anti-velvet fabric that the application obtains changes layer in self table carry out cross-woven owing to adopting, and therefore junction does not exist pin hole, can reach the effect of effective anti-chiseling down.

Because the fastness of above-mentioned anti-velvet fabric is good, no matter be that how low temperature is, all can not be out of shape and harden, make the down jackets made have excellent wearability, have more advantage in extremely cold area.In addition, be combined on same fabric by two shell fabrics, that saves a large amount of clothing factories makes man-hour, adapts to the fashionable dress that fast fashion brand releases rapidly oneself.

The method for weaving of above-mentioned anti-velvet fabric as shown in Figure 4, comprises the following steps:

S10, parallel weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain anti-velvet fabric, anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

The anti-velvet fabric that this method for weaving obtains comprises the first surface bed of material and second precoat of cross-woven, and by changing the mutual access node of layer in table, the junction of crossover location is top-stitching, therefore, compared with the fabric of traditional manufacture down jackets, the anti-velvet fabric that the application obtains changes layer in self table carry out cross-woven owing to adopting, and therefore junction does not exist pin hole, can reach the effect of effective anti-chiseling down.

Be detailed description of the invention below:

Embodiment 1

Choose the polyester fiber of 30D/48F respectively as the first surface bed of material and the second precoat, through warping, sizing axle, leasing, gait and upper axle, utilize full-automatic dobby machine to walk abreast and weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain the anti-velvet fabric of grey cloth density 820T.Anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

Carry out grey cloth inspection, concise and dyeing and finishing subsequently, obtain the anti-velvet fabric of bilayer that finished product density is about 900T.

Fill above-mentioned anti-velvet fabric with 90% white duck down, carry out anti-chiseling down Performance Detection, as shown in table 1:

The sample detection data of table 1 embodiment 1

Sample ID	The sample of 90% white duck down+embodiment 1
		Sample number	220g+1 rice
Test basis	GB/T 14272-2011 " down coat "
		Interventions Requested	Anti-chiseling down/root
Technical requirement	≤ 15
		Assay	3
Single item evaluation	Qualified

As can be seen from Table 1, the anti-velvet fabric of embodiment 1 is certified products, can reach the effect of effective anti-chiseling down.

Embodiment 2

Choose the polyester fiber of 50D/144F respectively as the first surface bed of material and the second precoat, through warping, sizing axle, leasing, gait and upper axle, utilize full-automatic dobby machine to walk abreast and weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain the anti-velvet fabric of grey cloth density 660T.Anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

Carry out grey cloth inspection, concise and dyeing and finishing subsequently, obtain the anti-velvet fabric of bilayer that finished product density is about 740T.

Fill above-mentioned anti-velvet fabric with 90% white duck down, carry out anti-chiseling down Performance Detection, as shown in table 2:

The sample detection data of table 2 embodiment 2

Sample ID	The sample of 90% white duck down+embodiment 1
		Sample number	220g+1 rice
Test basis	GB/T 14272-2011 " down coat "
		Interventions Requested	Anti-chiseling down/root
Technical requirement	≤ 15
		Assay	3
Single item evaluation	Qualified

As can be seen from Table 2, the anti-velvet fabric of embodiment 2 is certified products, can reach the effect of effective anti-chiseling down.

Embodiment 3

Choosing half light terylene processing wire that organizine is 50D/144F and tram is that the combed cotton that props up of 60 English is as the first surface bed of material, choosing half light terylene processing wire that organizine is 50D/144F and tram is that the combed cotton that props up of 60 English is as the second precoat, through warping, sizing axle, leasing, gait and upper axle, utilize full-automatic dobby machine to walk abreast and weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain the anti-velvet fabric of grey cloth density 572T.Anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

Carry out grey cloth inspection, concise and dyeing and finishing subsequently, obtain the anti-velvet fabric of bilayer that finished product density is about 640T.

Embodiment 4

Choose half light terylene processing wire that the first organizine is 50D/144F and the first tram is that the cation terylene processing wire of 50D/72F is as the first surface bed of material, choose the second organizine and the second tram is the half light terylene processing wire of 50D/144F as the second precoat, through warping, sizing, and axle, leasing, gait and upper axle, utilize full-automatic dobby machine to walk abreast and weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain the anti-velvet fabric of grey cloth density 665T.Anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

Carry out grey cloth inspection, concise and dyeing and finishing subsequently, obtain the anti-velvet fabric of bilayer that finished product density is about 745T.

Embodiment 5

Choose the half light terylene processing wire that the first organizine is 50D/144F, second tram is that the mixed cloth of the cation terylene processing wire of 50D/72F and the half light terylene processing wire of 50D/144F is as the first surface bed of material, choose the second organizine and the second tram is the half light terylene processing wire of 50D/144F as the second precoat, through warping, sizing, and axle, leasing, gait and upper axle, utilize full-automatic dobby machine to walk abreast and weave the first surface bed of material and the second precoat, subsequently the first surface bed of material and the second precoat are formed top-stitching by changing layer cross-woven in table, repeat above-mentioned cross-woven step, obtain the anti-velvet fabric of grey cloth density 665T.Anti-velvet fabric comprises the first surface bed of material and second precoat of cross-woven, and the first surface bed of material and the second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the first surface bed of material and the second precoat in table.

Carry out grey cloth inspection, concise and dyeing and finishing subsequently, obtain the anti-velvet fabric of bilayer that finished product density is about 745T.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (8)

1. an anti-velvet fabric, it is characterized in that, comprise the first surface bed of material and second precoat of cross-woven, the described first surface bed of material and described second precoat, by changing the mutual access node of layer in table, change the top-stitching of layer place formation in order to connect the described first surface bed of material and described second precoat in described table.

2. anti-velvet fabric according to claim 1, is characterized in that, the described first surface bed of material is synthetic fiber layer or natural fiber layer, and described second precoat is synthetic fiber layer or natural fiber layer.

3. anti-velvet fabric according to claim 1, is characterized in that, the described first surface bed of material is formed by the first organizine and the first tram cross-woven, and described first organizine is synthetic fibers or natural fiber, and described first tram is synthetic fibers or natural fiber;

Described second precoat is formed by the second organizine and the second tram cross-woven, and described second organizine is synthetic fibers or natural fiber, and described second tram is synthetic fibers or natural fiber.

4. anti-velvet fabric according to claim 3, is characterized in that, the D number/F number of described synthetic fibers is less than 1, the fiber number of described natural fiber be 50 English prop up ~ 120 English prop up.

5. anti-velvet fabric according to claim 3, is characterized in that, described first organizine and described second organizine are half light terylene, and described first tram and described second tram are combed cotton.

6. anti-velvet fabric according to claim 3, is characterized in that, described first organizine is half light terylene, and described first tram is cation terylene, and described second organizine and described second tram are half light terylene.

7. anti-velvet fabric according to claim 3, is characterized in that, described synthetic fibers are terylene, polyamide fibre or spandex.

8. anti-velvet fabric according to claim 1, is characterized in that, the number of described top-stitching is at least two, line parallel or crossing between described in adjacent two.