CN205529503U - Three -dimensional proofed breathable fabric structure - Google Patents

Abstract

The utility model discloses a three -dimensional proofed breathable fabric structure, it blocks the water droplet business turn over after through hot press unit hot briquetting and lets the aqueous vapor molecule pass through. Three -dimensional proofed breathable fabric structure contains and weaves convex region territory and hot melt concave region. Weave the convex region territory and contain and weave thickness and a plurality of holes of weaving, weave the convex region territory and dial crisscross the weaving of water fibres and form with many by many hot melt fibres, weave the hole and have the aperture of weaving, and weave the diameter that the aperture is greater than water droplet and aqueous vapor molecule. Hot melt concave region contains hot melt thickness and a plurality of hot melt holes, and hot melt thickness is less than weaves thickness, and hot melt concave region dials with many that the water fibres are crisscross to be woven and form through hot press unit hot pressing by many hot melt fibres, and the hot melt hole has the hot melt aperture, and the hot melt aperture is less than the diameter of water droplet and is greater than the diameter of aqueous vapor molecule. Therefore, the utility model discloses a three -dimensional proofed breathable fabric structure can produce solid, waterproof and ventilative efficiency.

Description

Three-dimensional proofed breathable fabric structure

Technical field

The utility model relates to a kind of proofed breathable fabric structure, particularly relate to a kind of printable surface and There is the three-dimensional proofed breathable fabric structure of concaveconvex shape.

Background technology

The shoes of the various prior aries such as playshoes, sport footwear or the leather shoes circulated on the market at present, mainly Being joint vamp on sole, this vamp is in order to be coated on the foot of wearer, and is with multiple sheet materials Material is pieced together, is sewed and constituted.Have on the market many material elements (such as: textile, micro-pore of polymer, Polymer flake, leather or synthetic leather) it is used for manufacturing vamp existingly.These material elements can be chosen To give the zones of different stretch-resistance of vamp, wearability, pliability, gas permeability, compressibility, to relax Appropriateness or moisture resistance.

Having heterogeneity for giving the zones of different of vamp, material elements can be combined into by some prior aries Sandwich construction is to give the multiple character of the same area.Along with the material elements being incorporated to vamp number and Type increases, and transports, stores, cuts and time and cost that bond material element is associated also can increase Add.This kind of multilayer vamp often high cost, vamp manufacture efficiency low, and lack good ventilative Property.

Separately have a kind of existing breathable fabric structure, its be with an appropriate number of warp thread side by side weft yarn with Bearded needle mode weaves, and knit out warp thread, weft yarn interlocks the fabric semi-finished product passed around.Then, then via Dyeing procedure and whole boiling hot program, or the action flattening, drying directly is carried out via whole boiling hot program, form For required layer stereo fabric construction.But, above-mentioned breathable fabric structure to knit knotting strength the best, Easily cause being forced to the warp thread to place or weft yarn generation expanded support slight crack because of the compeling to support of foreign object, and then shorten fabric Service life and destroy attractive in appearance.

Having again a kind of existing fabric construction, it first passes through cutting and punching operation produces desirable pattern layer, Then by patterned layer and bottom applying hot melt adhesives, finally via hot pressing mode by two-layer in addition hot melt adhesive Generate layer stereo fabric construction.But, this manufacture method needs a number of artificial and multiple tracks work Getting the raw materials ready cost and process time of sequence, therefore its cost is high and prouctiveness is low.Additionally, this kind of fabric Though structure has good water proofing property, but gas permeability is the most not enough, and it is applied on vamp to easily cause vexed Pin occurs with uncomfortable situation.

From the foregoing, lack in the market, one has third dimension and printing, the number of plies is few and has foot Enough knotting strength, low cost, prouctiveness knitted are high and can have three-dimensional waterproof and breathable that is waterproof and that breathe freely concurrently and knit Thing structure, therefore relevant dealer is all seeking its solution.

Utility model content

Therefore, the purpose of this utility model is to provide a kind of three-dimensional proofed breathable fabric structure, and it is heat Molten fiber knits body with the mixed of drying fiber.This mixed body of knitting can make drying originally fine by the hot pressing of hot-press arrangement The meldable fibre that the hole of dimension is melted by heat is filled up and is reduced, and then produces three-dimensional, waterproof and ventilative Effect.Additionally, by the hot-press arrangement hot pressing of special shape, a part of film forming of fabric construction can be made And reducing hole, another part then maintains the shape of fabric originally, causes surface to produce stereo concave-convex shape. It addition, the utility model may utilize previous printing treatment program combines follow-up hot-pressing processing program, allow Fabric construction has impressionability and can cook up pattern miscellaneous.Furthermore, meldable fibre and drying Fiber may utilize jacquard loom braiding and forms, and it is adjusted by lines of jacquard loom and hot-press arrangement Shape or position change, can freely control meldable fibre and be distributed in three-dimensional proofed breathable fabric structure Position, and then reach the effect that local is waterproof.

An embodiment of the present utility model is a kind of three-dimensional proofed breathable fabric structure, and it is filled by hot pressing Put hot-forming after block water droplet turnover and allow aqueous vapor molecule pass through.This three-dimensional proofed breathable fabric structure bag Containing braiding convex domain and hot melt concave region.Braiding convex domain comprises braiding thickness and multiple braiding holes, compiles Knitting convex domain to be formed with a plurality of drying fiber weaving by a plurality of meldable fibre, each braiding hole has volume Knit aperture, and braiding aperture is more than the diameter of water droplet and the diameter of aqueous vapor molecule.Furthermore, hot melt concave region Comprising hot melt thickness and multiple hot melt holes, hot melt thickness is less than braiding thickness.This hot melt concave region is by many Strip hot melt fiber and a plurality of drying fiber weaving are also formed by hot-press arrangement hot pressing.Each hot melt hole There is hot melt aperture, the hot melt aperture diameter less than water droplet and the diameter more than aqueous vapor molecule.

Whereby, three-dimensional proofed breathable fabric structure of the present utility model can make former by the hot pressing of hot-press arrangement The meldable fibre that the hole of this drying fiber is melted by heat is filled up and is reduced, and then produces three-dimensional, waterproof And ventilative effect.Form additionally, meldable fibre and drying fiber may utilize jacquard loom braiding, its Adjusted by the lines of jacquard loom and the shape of hot-press arrangement or position are changed, can freely control heat Molten fiber is distributed in the position in three-dimensional proofed breathable fabric structure, and then realizes the effect that local is waterproof.

Other embodiments according to aforementioned embodiments are as follows: aforementioned hot melt concave region can comprise hot melt surfaces, Printing ink layer on this hot melt surfaces.Aforementioned braiding convex domain can comprise braiding surface, on this braiding surface Printing ink layer.The temperature of aforementioned hot-press arrangement can be more than 110 DEG C and less than 150 DEG C, or rather, The temperature of hot-press arrangement is equal to 130 DEG C.Additionally, aforementioned hot melt concave region has total surface area, wherein dial Water cellulose is distributed in the four corner of total surface area, and meldable fibre is then distributed in the portion of total surface area Divide scope.It addition, aforementioned hot-press arrangement can comprise protuberance and recess, wherein the shape correspondence hot melt of protuberance The shape of concave region, the shape of the shape of recess then corresponding braiding convex domain.

Combine at follow-up hot pressing from the foregoing, the utility model may utilize previous printing treatment program Reason program, allows three-dimensional proofed breathable fabric structure have impressionability and can cook up pattern miscellaneous. Additionally, by the hot-press arrangement hot pressing of special shape, a part for three-dimensional proofed breathable fabric structure can be made Film forming and reduce hole, another part then maintains the shape of originally fabric, makes surface produce stereo concave-convex shape.

Another embodiment of the present utility model is a kind of three-dimensional proofed breathable fabric structure, and it passes through hot pressing Block water droplet turnover after device is hot-forming and allow aqueous vapor molecule pass through.This three-dimensional proofed breathable fabric structure Comprising hot melt concave region, hot melt concave region comprises multiple hot melt hole, and hot melt concave region is by many strip hot melts Fiber and a plurality of drying fiber weaving are also formed by hot-press arrangement hot pressing.Each hot melt hole has heat Molten aperture, the hot melt aperture diameter less than water droplet and the diameter more than aqueous vapor molecule.

Whereby, three-dimensional proofed breathable fabric structure of the present utility model can make former by the hot pressing of hot-press arrangement The meldable fibre that the hole of this drying fiber is melted by heat is filled up and is reduced, and then produces three-dimensional, waterproof And ventilative effect.Furthermore, meldable fibre can be formed by jacquard loom braiding with drying fiber, and it leads to Cross jacquard loom lines adjust and the shape of hot-press arrangement or position change, can freely control hot melt Fiber is distributed in the position in three-dimensional proofed breathable fabric structure, and then realizes the effect that local is waterproof.

Other embodiments according to aforementioned embodiments are as follows: aforementioned hot melt concave region can comprise hot melt surfaces, Printing ink layer on this hot melt surfaces.The temperature of aforementioned hot-press arrangement is more than 110 DEG C and less than 150 DEG C, more Speaking by the book, the temperature of hot-press arrangement is equal to 130 DEG C.It addition, aforementioned hot melt concave region has total surface face Long-pending, drying fiber is distributed in the four corner of total surface area, and meldable fibre is then distributed in total surface face Long-pending part range.Furthermore, aforementioned hot-press arrangement can comprise protuberance, and the shape correspondence hot melt of this protuberance is recessed The shape in region.

Combine at follow-up hot pressing from the foregoing, the utility model may utilize previous printing treatment program Reason program, allows three-dimensional proofed breathable fabric structure have impressionability and can cook up pattern miscellaneous. It addition, by the hot-press arrangement hot pressing of special shape, a part for three-dimensional proofed breathable fabric structure can be made Film forming and reduce hole, another part then maintains the shape of originally fabric, causes surface to produce stereo concave-convex Shape.

Accompanying drawing explanation

Fig. 1 illustrates the breathable fabric structure schematic diagram before the hot pressing of an embodiment of the present utility model.

Fig. 2 illustrates the breathable fabric structure schematic diagram through hot-press arrangement hot pressing of Fig. 1.

Fig. 3 illustrates the breathable fabric structure of Fig. 2 three-dimensional proofed breathable fabric structural representation after hot pressing.

Fig. 4 illustrates three-dimensional proofed breathable fabric structure and water droplet, the relation schematic diagram of aqueous vapor molecule of Fig. 3.

Fig. 5 illustrates meldable fibre and the drying weaving convex domain in the three-dimensional proofed breathable fabric structure of Fig. 3 The braiding schematic diagram of fiber.

Fig. 6 A illustrates the sterogram on the braiding surface of the three-dimensional proofed breathable fabric structure of Fig. 3.

Fig. 6 B illustrates the sterogram of the hot melt surfaces of the three-dimensional proofed breathable fabric structure of Fig. 3.

Fig. 7 illustrates the schematic perspective view of the three-dimensional proofed breathable fabric structure of Fig. 3.

Detailed description of the invention

Hereinafter with reference to graphic explanation multiple embodiments of the present utility model.As clearly stated, many Details in practice will be explained in the following description.It should be appreciated, however, that thin in these practices Joint is not applied to limit the utility model.It is to say, in the utility model section Example, these Details in practice is non-essential.Additionally, for simplify graphic for the sake of, some existing usual structures with Element will illustrate in the drawings in the way of simple signal；And the element repeated will use identical Numbering represents.

See also Fig. 1 to Fig. 5.It is saturating that Fig. 1 illustrates before the hot pressing of an embodiment of the present utility model Gas fabric construction 100 schematic diagram.Fig. 2 illustrates the breathable fabric structure 100 of Fig. 1 through hot-press arrangement 300 Schematic diagram during hot pressing.It is waterproof that Fig. 3 illustrates the breathable fabric structure 100 of Fig. 2 solid after hot pressing Gas fabric construction 200 schematic diagram.Fig. 4 illustrates three-dimensional proofed breathable fabric structure 200 and the water droplet of Fig. 3 410, the relation schematic diagram of aqueous vapor molecule 420.Fig. 5 illustrates the three-dimensional proofed breathable fabric structure 200 of Fig. 3 The meldable fibre 250 of middle braiding convex domain A1 and the braiding schematic diagram of drying fiber 260.As it can be seen, Three-dimensional proofed breathable fabric structure 200 of the present utility model is to be filled through hot pressing by breathable fabric structure 100 Putting 300 and hot-forming, this three-dimensional proofed breathable fabric structure 200 can block water droplet 410 and pass in and out and allow Aqueous vapor molecule 420 passes through.This three-dimensional proofed breathable fabric structure 200 comprises braiding convex domain A1 and hot melt Concave region A2.

Braiding convex domain A1 comprises braiding thickness T1, braiding surface 210, multiple braiding hole 212 (ginseng Read Fig. 6 A) and weave bottom surface 230, and this weaves convex domain A1 by a plurality of meldable fibre 250 with a plurality of Drying fiber 260 weaving forms.Each braiding hole 212 has braiding aperture, and this braiding aperture is big Diameter in water droplet 410.And weave hole 212 and connect braiding surface 210 and braiding bottom surface 230, change Sentence is talked about, and braiding hole 212 is between braiding surface 210 and braiding bottom surface 230.Due to known water Drip the diameter of 410 more than the diameter of aqueous vapor molecule 420, thus the braiding aperture of braiding hole 212 also greater than The diameter of aqueous vapor molecule 420.From the foregoing, water droplet 410 all can freely be worn with aqueous vapor molecule 420 More braiding convex domain A1.Furthermore, braiding surface 210 can be printed the ink layer 270 of special pattern, this The shape of ink layer 270, color and composition are prior art, therefore repeat no more.

Hot melt concave region A2 comprises hot melt thickness T2, hot melt surfaces 220, multiple hot melt hole 222 (ginseng Read Fig. 6 B) and hot melt bottom surface 240, and this hot melt concave region A2 by a plurality of meldable fibre 250 with a plurality of Drying fiber 260 weaving is also formed by hot-press arrangement 300 hot pressing.Hot melt thickness T2 is less than braiding Thickness T1.Each hot melt hole 222 has hot melt aperture, and hot melt aperture is less than the diameter of water droplet 410 and big Diameter in aqueous vapor molecule 420.In other words, water droplet 410 cannot be through hot melt concave region A2 and aqueous vapor Molecule 420 can pass hot melt concave region A2.From the foregoing, by meldable fibre 250 and drying fiber The mixed body of knitting of 260 can make the hole of drying fiber 260 originally be melted by heat by the hot pressing of hot-press arrangement 300 The meldable fibre 250 changed is filled up and is reduced, and it combines drying fiber 260 and has the characteristic not absorbed water, can Pass in and out to allow the hole after reducing block water droplet 410 and make aqueous vapor molecule 420 pass through, and then produce waterproof And ventilative effect.

Hot-press arrangement 300 in order to hot pressing breathable fabric structure 100 to form three-dimensional proofed breathable fabric structure 200.The temperature of hot-press arrangement 300 can be more than 110 DEG C and less than 150 DEG C, the hot-press arrangement of the present embodiment The temperature of 300 is equal to 130 DEG C.Additionally, hot-press arrangement 300 comprises protuberance 310 and recess 320, wherein Protuberance 310 has polishing minute surface 312, the wherein shape of shape correspondence hot melt concave region A2 of protuberance 310, The shape of the shape of recess 320 then corresponding braiding convex domain A1.Hot-press arrangement 300 can be metal material The pinch roller of matter.When concavo-convex hot-press arrangement 300 hot pressing breathable fabric structure 100, protuberance 310 Polishing minute surface 312 can first be pressed onto the regional area of breathable fabric structure 100 and form the film that thickness is less, This region is hot melt concave region A2, and is positioned at the breathable fabric structure 100 of recess 320 position because of the most straight Contact, thus unaffected and maintain source textile structure, and this region is braiding convex domain A1.This practicality The hot pressing of the novel hot-press arrangement 300 by special shape, can make three-dimensional proofed breathable fabric structure 200 A part of film forming and reduce hole, another part then maintains the shape of originally fabric, causes three-dimensional waterproof The surface of breathable fabric structure 200 produces stereo concave-convex shape.Additionally it is noted that solid is waterproof Gas fabric construction 200 is after hot pressing, and the density of texture of its hot melt concave region A2 is more than braiding convex domain The density of texture of A1, the change of this density can effectively block water droplet 410 by and make aqueous vapor molecule 420 Pass through.

Fig. 6 A illustrates the sterogram on the braiding surface 210 of the three-dimensional proofed breathable fabric structure 200 of Fig. 3. Fig. 6 B illustrates the sterogram of the hot melt surfaces 220 of the three-dimensional proofed breathable fabric structure 200 of Fig. 3.By scheming Knowable in, there is the hot melt hole 222 of three-dimensional proofed breathable fabric structure 200 of hot pressing compared to without hot pressing The braiding hole 212 of three-dimensional proofed breathable fabric structure 200 reduce significantly, wherein hot melt surfaces 220 Hot melt hole 222 can effectively block water droplet 410 and pass in and out and make aqueous vapor molecule 420 pass through, and then Produce waterproof and ventilative effect.

Hot melt concave region A2 of another embodiment of the present utility model is to knit mixed partly for drying fiber 260 Meldable fibre 250, in other words, hot melt concave region A2 has total surface area, wherein drying fiber 260 Being distributed in the four corner of total surface area, meldable fibre 250 is then distributed in the part of total surface area Scope.Wherein meldable fibre 250 and drying fiber 260 may utilize jacquard loom braiding form, it passes through The lines adjustment of jacquard loom and the shape of hot-press arrangement 300 or position are changed, and can freely control heat Molten fiber 250 is distributed in the position in three-dimensional proofed breathable fabric structure 200, and it coordinates hot-press arrangement 300 Hot pressing can reach the most waterproof effect in local.

Fig. 7 illustrates the schematic perspective view of the three-dimensional proofed breathable fabric structure 200 of Fig. 3.Wherein hot melt table The ink layer 270 of special pattern, the oil of hot melt surfaces 220 all can be printed on face 220 or braiding surface 210 Layer of ink 270 is all realized by printing treatment program with the ink layer 270 on braiding surface 210 before hot pressing. The utility model utilizes previous printing treatment program to combine follow-up hot-pressing processing program, can allow fabric Structure has impressionability and can cook up pattern miscellaneous.

From above-mentioned embodiment, the utility model has the advantage that one, by meldable fibre with The mixed body of knitting of drying fiber can make the hole of drying fiber originally be melted by heat by the hot pressing of hot-press arrangement Meldable fibre fill up and reduce, this reduce after hole can block water droplet turnover and allow aqueous vapor molecule pass through, And then produce waterproof and ventilative effect.Its two, by the hot-press arrangement hot pressing of special shape, can make to knit A part of film forming of thing structure and reduce hole, another part then maintains the shape of fabric originally, causes table Face produces stereo concave-convex shape.Its three, utilize previous printing treatment program to combine follow-up hot-pressing processing journey Sequence, can allow fabric construction have impressionability and can cook up pattern miscellaneous.Its four, hot melt Fiber and drying fiber may utilize jacquard loom braiding and form, its adjusted by lines of jacquard loom and The shape of hot-press arrangement or position change, can freely control meldable fibre and be distributed in three-dimensional waterproof and breathable and knit Position in thing structure, and then reach the effect that local is waterproof.

Although the utility model is open as above with embodiment, so it is not limited to this practicality newly Type, any those skilled in the art, without departing from spirit and scope of the present utility model, each when making Planting variation and retouching, protection domain the most of the present utility model is when being as the criterion depending on as defined in claim.

Claims (13)

1. a three-dimensional proofed breathable fabric structure, its by hot-press arrangement hot-forming after block water droplet and enter Go out and allow aqueous vapor molecule pass through, it is characterised in that described three-dimensional proofed breathable fabric structure comprises:

Weaving convex domain, it comprises braiding thickness and multiple braiding holes, and described braiding convex domain is by a plurality of Meldable fibre forms with a plurality of drying fiber weaving, and each described braiding hole has braiding aperture, and Described braiding aperture is more than the diameter of described water droplet and the diameter of described aqueous vapor molecule；And

Hot melt concave region, it comprises hot melt thickness and multiple hot melt holes, and described hot melt thickness is less than described Braiding thickness, described hot melt concave region is compiled by described a plurality of meldable fibre and described a plurality of drying fiber are staggered Knitting and formed by described hot-press arrangement hot pressing, each described hot melt hole has hot melt aperture, described hot melt The aperture diameter less than described water droplet and the diameter more than described aqueous vapor molecule.

2. three-dimensional proofed breathable fabric structure as claimed in claim 1, it is characterised in that described hot melt Concave region also comprises hot melt surfaces, printing ink layer on described hot melt surfaces.

3. three-dimensional proofed breathable fabric structure as claimed in claim 1, it is characterised in that described braiding Convex domain also comprises braiding surface, printing ink layer on described braiding surface.

4. three-dimensional proofed breathable fabric structure as claimed in claim 1, it is characterised in that described hot pressing The temperature of device is more than 110 DEG C and less than 150 DEG C.

5. three-dimensional proofed breathable fabric structure as claimed in claim 4, it is characterised in that described hot pressing The temperature of device is equal to 130 DEG C.

6. three-dimensional proofed breathable fabric structure as claimed in claim 1, it is characterised in that described hot melt Concave region has total surface area, and described a plurality of drying fiber is distributed in whole models of described total surface area Enclosing, described a plurality of meldable fibre is distributed in the part range of described total surface area.

7. three-dimensional proofed breathable fabric structure as claimed in claim 1, it is characterised in that described hot pressing Device comprises protuberance and recess, the shape of the corresponding described hot melt concave region of the shape of described protuberance, described recessed The shape of the corresponding described braiding convex domain of the shape in portion.

8. a three-dimensional proofed breathable fabric structure, its by hot-press arrangement hot-forming after block water droplet and enter Go out and allow aqueous vapor molecule pass through, it is characterised in that described three-dimensional proofed breathable fabric structure comprises:

Hot melt concave region, it comprises multiple hot melt hole, described hot melt concave region by a plurality of meldable fibre with A plurality of drying fiber weaving is also formed by described hot-press arrangement hot pressing, and each described hot melt hole has Hot melt aperture, the described hot melt aperture diameter less than described water droplet and the diameter more than described aqueous vapor molecule.

9. three-dimensional proofed breathable fabric structure as claimed in claim 8, it is characterised in that described hot melt Concave region also comprises hot melt surfaces, printing ink layer on described hot melt surfaces.

10. three-dimensional proofed breathable fabric structure as claimed in claim 8, it is characterised in that described hot pressing The temperature of device is more than 110 DEG C and less than 150 DEG C.

11. three-dimensional proofed breathable fabric structures as claimed in claim 10, it is characterised in that described heat The temperature of pressure device is equal to 130 DEG C.

12. three-dimensional proofed breathable fabric structures as claimed in claim 8, it is characterised in that described hot melt Concave region has total surface area, and described a plurality of drying fiber is distributed in whole models of described total surface area Enclosing, described a plurality of meldable fibre is distributed in the part range of described total surface area.

13. three-dimensional proofed breathable fabric structures as claimed in claim 8, it is characterised in that described hot pressing Device comprises protuberance, the shape of the corresponding described hot melt concave region of the shape of described protuberance.