CN106676709B - There is the barrier fabric and its manufacturing method of high-transmission rate in visible region - Google Patents

Abstract

The present invention discloses a kind of barrier fabric and its manufacturing method in visible region with high-transmission rate, this barrier fabric includes to be processed into filament by effectively insulating film, then filament is coated on to the yarn of fabric to be weaved into；Again to weave device through braiding combined knittings different from other yarns into fabric, and different thermal isolation film yarn combinations, the transmission of visible light and heat insulation of barrier fabric can be influenced, with formation to excellent thermal insulation fabric of the visible region with high-transmission rate.

Description

There is the barrier fabric and its manufacturing method of high-transmission rate in visible region

Technical field

The present invention relates to heat-insulated and knitting knitting skills, more particularly, to one kind with excellent thermal insulation effect, and Visible region has the barrier fabric and its manufacturing method of high-transmission rate.

Background technology

As economy accelerates to globalize, textile industry faces powerful competition and transition pressure, it is therefore necessary to constantly be promoted And integrating traditional textile technology, the new product development of surcharge is carried out, to promote industrial competitiveness.In recent years, people for Textile product other than requiring beauty, for cope with varying environment demand, also require it is various comfortably with the function of protection.Based on this Kind trend, the braided fabric with more functionals have become the popular development in textile industry.

In previous skill, to make ability of the braided fabric with infrared resistant, ultraviolet light, more typically, being will be each Kind light barrier additive is added among high molecular polymer, then is polymerized object and fiber is made, and recycles its fiber to make and compiles Fabric (I418676, I445684, CN103668512,448254, CN104195709), or utilize the fibre with barrier light (I425129) and light reflecting membrane (424811) are tieed up, to merge braiding, to reach heat insulation；But high score is added in additive Son can cause dispersibility bad because of agglomeration, and then influence to resist the effect of infrared ray, ultraviolet light, also, be not suitable for Different additives is added in macromolecule together, so, made fiber, braided fabric, are intended to reach in this way Infrared resistant and anti-ultraviolet function will be limited to；Furthermore merged made by braiding using above-mentioned light reflecting membrane Braided fabric because used reflective membrane be with suitable thickness polyester (polyester, abbreviation PET) film, The surface of PET film covers one layer containing for example：The thin layer of the metals such as nickel, silver, aluminium, chromium, or increase by one layer and contain no engine dyeing The dyeing thin layer of material simultaneously also will also generate visible light although having the effect of excellent infrared resistant, ultraviolet light Barrier, light transmittance are extremely limited completely；Similarly, using reflective fiber merge braiding made of fabric, also have it is identical not Place ideal to the greatest extent.

Thermal isolation film must be fixed on glass or transparent by general commercially available heat-insulating membrana paster to reach heat-insulated, energy-saving effect And on firm material, such as glass of building, vehicle window can not increase figure because of its structure, material property in thermal isolation film Case is also limited in color selection, also, thermal isolation film is once attached on glass, i.e., can not random removal, therefore not In the case that need are heat-insulated (such as wintry weather is colder, when needing sunlight), barrier sunlight can be generated because of the thermal isolation film instead Phenomenon causes to use upper inconvenience.

Invention content

The present inventor is in view of this, and according to being engaged in the correlation experience in this field, meticulous inspection and research for many years, and match Scientific principle utilization is closed, and then is proposed a kind of rationally and effective of the invention.

The main object of the present invention is to provide a kind of barrier fabric and its manufacturer in visible region with high-transmission rate Method.

In order to achieve the above object, the present invention provides a kind of tool heat insulation obtained by heat-barrier material and fabric combination And there is the barrier fabric and its weaving method of high-transmission rate in visible region, wherein the weaving method includes the following steps：

A) material all in one piece step：An at least energy-saving heat-insulating film is chosen, and the thermal isolation film is tailored into heat-insulated membrane filament in advance, it is heat-insulated Film has preferable infrared resistant rate (being more than 80%) and/or uvioresistant rate (being more than 80%) and transmission of visible light is more than 50%；

B) application step：By the adhesive agent of selection be spread evenly across plural warp yarn and plural weft threads at least within it At one surface, the surface for the yarn being applied is caused respectively to form an adhesive agent coating layer；

C) encapsulation steps：The heat-insulated membrane filament is wrapped around with 100% respectively and is furnished with adhesive agent painting in the surface The warp yarn of layer of cloth and/or the surface of weft threads；And

D) step is woven：The plural number item is finally coated with to warp yarn and/or the weft threads collocation braiding of heat-insulated membrane filament Device and carry out longitude and latitude weaving operation with the warp yarn of other uncoated heat-insulated membrane filaments and/or weft threads, you can obtain this hair Bright barrier fabric.

The present invention is according to above-mentioned steps, you can offer is a kind of to have both heat-insulated and high transparency fabric, by selected An at least energy-saving heat-insulating membrane filament around overlaying on scheduled yarn, then between plural warp yarn and/or plural weft threads into Row knitting forming, you can obtain with heat insulation and have both the barrier fabric of visible light high-transmission rate.

Description of the drawings

Fig. 1 is the structural form schematic diagram of the first preferable barrier fabric of the invention.

Fig. 2 is the manufacturing method flow chart of barrier fabric of the present invention.

Fig. 3-1 to Fig. 3-3 is that barrier fabric shown in Fig. 1 of the present invention shows according to the fabric construction corresponding to flow shown in Fig. 2 It is intended to.

The structural schematic diagram for the thermal isolation film possible embodiments that Fig. 4 is used for the present invention.

Fig. 5 is the structural form schematic diagram of second of preferable barrier fabric of the invention.

Fig. 6 is the structural form schematic diagram of the third preferable barrier fabric of the invention.

Fig. 7 is the structural form schematic diagram of the 4th kind of preferable barrier fabric of the invention.

Fig. 8 is the characteristic test comparison sheet of the possible embodiments and existing braided fabric comparative example of barrier fabric of the present invention.

Sign flag is described as follows in attached drawing：

1 is barrier fabric；11 be thermal isolation film；110 be heat-insulated membrane filament；111 be base cell；1111 be the first basement membrane； 1112 be the second basement membrane；1113 be first surface；1114 be second surface；112 be infrared resistant layer；113 be anti-scratching wearproof layer； 114 be uvioresistant layer；12 be warp yarn；13 be weft threads；S10 is material all in one piece step；S11 is application step；S12 is that cladding walks Suddenly；S13 is braiding step.

Specific implementation mode

Embodiment 1：

Refering to Figure 1, having the structural schematic diagram of the barrier fabric 1 of high-transmission rate, Fig. 2 to visible light for the present invention And Fig. 3-1 to Fig. 3-3 show the manufacturing method flow chart of above-mentioned barrier fabric 1, and corresponding the flow chart is revealed knits Object configuration state schematic diagram；Manufacturing method shown in it, includes the following steps：

Step S10：Material all in one piece step (Fig. 3-1)：An at least thermal isolation film 11 is chosen, which, which is preferably configured to have, is more than 80% infrared resistant rate and/or the uvioresistant rate more than 80%, and/or the transmission of visible light more than 50%；Such as it can No. 417192 patents of invention " multi-layer heat-insulating membrana paster " of I are announced with the TaiWan, China previously created using present invention applicant Thermal isolation film 11 (Fig. 4), include using the thermal isolation film 11：One base cell 111 is by total 20~200 layers of the first basement membrane 1111 and material be different from the first basement membrane 1111 the second basement membrane 1112 be combined, above-mentioned first basement membrane 1111 and second Overall thickness after basement membrane 1112 is compound is still in visible wavelength range, and the base cell 111 has a first surface 1113, with And one interval second surface 1114, and first basement membrane 1111 is acrylic acid series resin, and the second basement membrane 1112 is poly- to benzene Dioctyl phthalate butanediol ester or its copolymer；It is combined again with base cell 111 with primary antibody IR resisting layer 112, contains infrared resistant Nano-level coating, such as the resin containing tin-antiomony oxide and tin indium oxide；One uvioresistant layer 114 also with 111 knot of base cell Close, the infrared resistant layer 112 and the uvioresistant layer 114, be bonded respectively to the base cell 111 first surface 1113 and On second surface 1114, containing anti ultraviolet agent, such as there is the resin of benzotriazole；One anti-scratch wearing layer 113 selectively and Infrared resistant layer 112 or the fixation of uvioresistant layer 114 are cohered, containing anti-scratching wearproof agent, the anti-scratching wearproof agent can be containing The resin of lanthanum hexaboride, the thermal isolation film 11 utilize dual-beam UV/VIS/NIR sub-ray spectrometers (PerkinElmer LAMBDA 750) it is tested, obtains that transmission of visible light is 70%, infrared resistant rate is 90%, uvioresistant rate is 90%.

The film roll that selected thermal isolation film 11 is first cut into wide 145mm is sent to filament cutter, will with the linear velocity of 90M/min Thermal isolation film is processed into the filament 110 (Fig. 3-1) of wide 1mm；The short fine polyester yarn for taking number 10s/2 simultaneously is warp yarn 12, with And it is weft threads 13 to use the short fine polyester yarn of number 10/1；

Step S11 again：Application step：Using through glue machine that the polyurethane adhesive agent of viscosity 200cps, solid 50% is equal The even surface for being coated on warp yarn 12；And

Step S12：Encapsulation steps：Heat-insulated membrane filament 110 in step S10 is wrapped around with 100% or part in this Each 12 surface of warp yarn, and using the adhesive agent that the surface is coated with and in attaching coated state (Fig. 3-2) completely；And

Step S13：Weave step：Surface is coated with to the warp yarn 12 of heat-insulated membrane filament 110 and uncoated thermal isolation film again The weft threads 13 of filament 110, collocation braiding device carry out longitude and latitude weaving operation, you can obtain the barrier fabric 1 of item number 40 × 40 (Fig. 1 and Fig. 3-3)；Furthermore the wherein barrier fabric 1, be via the plural number warp yarn 12 and the plural number bar weft threads 13, with Any one of tatting method or knitting weave.According to this, if testing the barrier fabric, visible transmission Rate is 41%, infrared resistant rate is 70% and uvioresistant rate is 71%, which is loaded in the field of the embodiment 1 of Fig. 8 In.

Embodiment 2：

The implementation steps of the embodiment of the present invention 2 and composition material, structure are substantially same as Example 1, the difference is that： The heat-insulated membrane filament 110 of wide 1mm is wrapped around in this respectively with 100% in step S11 application steps, step S12 encapsulation steps 13 surface of weft threads, then carry out weaving operation；According to this, manufactured barrier fabric is tested, visible light transmittance rate is 40%, infrared resistant rate is 73%, uvioresistant rate is 72%, and test result is loaded in the field of implementation 2 of Fig. 8.

Embodiment 3：

The implementation steps of the embodiment of the present invention 3 and composition material, structure are substantially same as Example 1, the difference is that： In step S10 material all in one piece steps, thermal isolation film 11 is machined to the filament 110 of wide 0.254mm through chopping, then is coated, coats, compiles Knit operation；In this way, manufactured barrier fabric is tested, visible light transmittance rate 40%, infrared resistant rate are 64%, resist Ultraviolet light rate is 68%, and test result is loaded in the field of embodiment 3 of Fig. 8.

Embodiment 4：

The implementation steps of the embodiment of the present invention 4 and composition material, structure are substantially same as Example 1, the difference is that： In step S10 material all in one piece steps, thermal isolation film 11 is processed to the filament 110 of wide 2mm through filament cutter, then is coated, coats, weaves Operation；In this way, manufactured barrier fabric is tested, visible light transmittance rate 41%, infrared resistant rate be 77%, anti-purple Outside line rate is 78%, and test result is loaded in the field of embodiment 4 of Fig. 8.

Embodiment 5：

The implementation steps of the embodiment of the present invention 5 are substantially same as Example 1, the difference is that：The thermal isolation film 11 of selection It is to use 3M aurora M70 thermal isolation films, which is first cut into the filament 110 of wide 1mm；The heat-insulated membrane filament 110 is through reality After applying the identical coating of example 1, cladding, braiding step, the barrier fabric 1 obtained is tested, and visible light transmittance rate is 40%, infrared resistant rate is 73%, uvioresistant rate is 69%, and test result is loaded in the field of embodiment 5 of Fig. 8.

Embodiment 6：

The implementation steps of the embodiment of the present invention 6 are substantially same as Example 1, the difference is that：The thermal isolation film 1 of selection is Using Southwall V-CooL v70 thermal isolation films, which first cuts into the filament 110 of wide 1mm；The heat-insulated membrane filament 110 after the identical coating of embodiment 1, cladding, braiding step, and the barrier fabric 1 of acquisition, if being tested, visible light is saturating Light rate is 41%, infrared resistant rate is 69%, and uvioresistant rate is 70%, and test result is loaded in the field of the embodiment 6 of Fig. 8 In.

Embodiment 7：

The implementation steps of the embodiment of the present invention 7 are substantially same as Example 1, the difference is that：Choose at least one every 11 system of hotting mask uses 800 thermal isolation films of Lintec FSKII, the thermal isolation film 11 first to cut into the heat-insulated membrane filament 110 of wide 1mm；It should Heat-insulated membrane filament 110 is after the identical coating of embodiment 1, cladding, braiding step, the barrier fabric 1 obtained, if being surveyed Examination, visible light transmittance rate 41%, infrared resistant rate are 64%, uvioresistant rate is 69%, and test result is loaded in the reality of Fig. 8 In the field for applying example 7.

Comparative example 1：

The implementation steps of comparative example 1 of the present invention are substantially same as Example 1, the difference is that：Without heat-insulated membrane filament 110, application step and fixating shape step, warp yarn 12 use the short fine polyester yarn of number 10s/2, weft threads 13 to use number 10/1 Short fine polyester yarn, and after braiding step same as Example 1, manufactured barrier fabric is tested being obtained Visible light transmittance rate is 41%, infrared resistant rate is 48%, uvioresistant rate is 52%, and test result is loaded in the comparative example 1 of Fig. 8 Field in, by the data of embodiment in Fig. 81 to embodiment 7 and comparative example 1, it is known that coated using heat-insulated membrane filament 110 Fabric its infrared resistant rate, uvioresistant rate made by yarn are all higher than the fabric of comparative example 1, also, the thermal isolation film coated The width of filament 110 is wider, and infrared resistant rate, uvioresistant rate are better, according to current knitting skill, then with heat-insulated membrane filament 110 width is preferable between 0.1mm to 60mm.

Comparative example 2：

The implementation steps of comparative example 2 of the present invention are substantially same as Example 1, the difference is that：The thermal isolation film 11 of selection System uses 40 thermal isolation films of Huper Optik Ceramic, the thermal isolation film 11 first to cut into the heat-insulated membrane filament 110 of wide 1mm；It should Heat-insulated membrane filament 110 is after the identical coating of embodiment 1, cladding, braiding step, the barrier fabric 1 of acquisition, when being tested, Its visible light transmittance rate is 38%, infrared resistant rate is 60%, uvioresistant rate is 62%, and test result is loaded in the comparison of Fig. 8 In the field of example 2.

In conclusion main object of the present invention effect is to provide a kind of fabric with heat-insulating capability and high transparency Knitting skill；After first filament being processed by selected energy-saving heat-insulating film, then to plural warp yarn and/or plural latitude After yarn is coated, and then the fabric being woven into combines forming, it will with the presence of different degrees of heat insulation, and can obtain Obtaining has favourable visible light high transparency, and, it is evident that it, will be to the heat-insulated braided fabric by the combination of such thermal isolation film 11 Visible light transmittance rate, infrared resistant rate and uvioresistant rate generate quite apparent influence.

It please join Fig. 5 to that shown in Figure 7, be by heat-insulated membrane filament 110, respectively to be coated on local warp yarn 12 and weft threads 13 surface (Fig. 5 and Fig. 6), and heat-insulated membrane filament 110 comprehensively coats all warp yarns 12 and weft threads 13 (Fig. 7) can reach good visible light transmittance rate and uvioresistant and infrared resistant effect.

The above, only part preferred embodiment of the invention, cannot be limited the scope of implementation of the present invention with this；All According to equivalent changes and modifications made by scope of the present invention patent, still belong to the range that patent of the present invention covers.

Claims (26)

1. a kind of barrier fabric manufacturing method in visible region with high-transmission rate, which is characterized in that including：

(a) material all in one piece step：The thermal isolation film that an at least transmission of visible light is more than 50% is chosen, with infrared resistant and uvioresistant Two effect of line at least first, and the thermal isolation film is processed into filament, while taking plural warp yarn and plural weft threads；

(b) application step：Adhesive agent is selected, and adhesive agent is coated on the warp yarn and at least one of surface of weft threads On；

(c) encapsulation steps：Thermal isolation film filament wound in (a) step is coated on to the warp thread that adhesive agent is coated in (b) step On line and weft threads；

(d) step is woven：Plural warp yarn and plural number bar weft threads are subjected to longitude and latitude weaving operation, to form barrier fabric.

2. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1, which is characterized in that The width of the heat-insulated membrane filament is between 0.1mm~60mm.

3. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1 or 2, feature exist In the heat-insulated membrane filament in (c) step is wrapped around at least one in warp yarn and weft threads with 100%.

4. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1 or 2, feature exist In the adhesive agent in (b) step is selected from the adhesive agent with viscosity about 200cps, solid 50%.

5. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 3, which is characterized in that The adhesive agent of (c) step is selected from the adhesive agent with viscosity about 200cps, solid 50%.

6. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1 or 2, feature exist In the appearance of the heat insulating mould separately has an anti-scratch wearing layer.

7. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 3, which is characterized in that The appearance of the heat insulating mould separately has an anti-scratch wearing layer.

8. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 4, which is characterized in that The appearance of the thermal isolation film separately has an anti-scratch wearing layer.

9. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1 or 2, feature exist In the thermal isolation film includes a base cell, which is formed by by 20~200 layers of at least two different materials First basement membrane and the second basement membrane are combined, which has first surface and second surface, the first surface and the An at least surface is equipped with infrared resistant layer in two surfaces.

10. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 3, feature exist Include a base cell in, the thermal isolation film, which is formed by the by 20~200 layers of at least two different materials One basement membrane and the second basement membrane are combined, which has first surface and second surface, the first surface and second An at least surface is equipped with infrared resistant layer in surface.

11. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 4, feature exist Include a base cell in, the thermal isolation film, which is formed by the by 20~200 layers of at least two different materials One basement membrane and the second basement membrane are combined, which has first surface and second surface, the first surface and second An at least surface is equipped with infrared resistant layer in surface.

12. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 6, feature exist Include a base cell in, the thermal isolation film, which is formed by the by 20~200 layers of at least two different materials One basement membrane and the second basement membrane are combined, which has first surface and second surface, the first surface and second An at least surface is equipped with infrared resistant layer in surface.

13. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 1 or 2, feature It is, at least one of the infrared resistant rate of the thermal isolation film and uvioresistant rate are more than 80%.

14. the barrier fabric manufacturing method in visible region with high-transmission rate according to claim 3, feature exist It is more than 80% in the infrared resistant rate and at least one of uvioresistant rate of, the thermal isolation film.

15. the heat-insulated braided fabric manufacturing method to visible light with high-transmission rate according to claim 6, feature exist It is more than 80% in the infrared resistant rate and at least one of uvioresistant rate of, the thermal isolation film.

16. a kind of barrier fabric in visible region with high-transmission rate, which is characterized in that have one by plural warp yarn and answer It is coated with heat-insulated membrane filament on at least one of surface of the fabric that number weft threads is knitted to form, the warp yarn and weft threads； The heat-insulated membrane filament is by having effects that visible light transmittance rate more than 50% and with infrared resistant and uvioresistant two extremely The thermal isolation film of few one is processed into.

17. the barrier fabric in visible region with high-transmission rate according to claim 16, which is characterized in that described Heat-insulated membrane filament is coated on at least one in warp yarn and weft threads with 100%.

18. the barrier fabric in visible region with high-transmission rate according to claim 16 or 17, which is characterized in that institute The width for the heat-insulated membrane filament stated is between 0.1mm between 60mm.

19. the barrier fabric in visible region with high-transmission rate according to claim 16 or 17, which is characterized in that institute The appearance for the thermal isolation film stated separately has an anti-scratch wearing layer.

20. the barrier fabric in visible region with high-transmission rate according to claim 18, which is characterized in that described The appearance of thermal isolation film separately has an anti-scratch wearing layer.

21. the barrier fabric in visible region with high-transmission rate according to claim 16 or 17, which is characterized in that institute The thermal isolation film stated includes a base cell, and the base cell is formed by first by 20~200 layers of at least two different materials Basement membrane and the second basement membrane are combined, and the base cell has first surface and second surface, the first surface and the An at least surface on two surfaces is equipped with infrared resistant layer.

22. the barrier fabric in visible region with high-transmission rate according to claim 18, which is characterized in that described Thermal isolation film includes a base cell, and the base cell is formed by the first basement membrane by 20~200 layers of at least two different materials And second basement membrane be combined, the base cell has first surface and second surface, the first surface and the second table An at least surface in face is equipped with infrared resistant layer.

23. the barrier fabric in visible region with high-transmission rate according to claim 19, which is characterized in that described Thermal isolation film includes a base cell, and the base cell is formed by the first basement membrane by 20~200 layers of at least two different materials And second basement membrane be combined, the base cell has first surface and second surface, the first surface and the second table An at least surface in face is equipped with infrared resistant layer.

24. the barrier fabric in visible region with high-transmission rate according to claim 16 or 17, which is characterized in that institute At least one of the infrared resistant rate of the thermal isolation film stated and uvioresistant rate are more than 80%.

25. according to described in claim 18 visible region have high-transmission rate barrier fabric, which is characterized in that it is described every At least one of the infrared resistant rate of hotting mask and uvioresistant rate are more than 80%.

26. the barrier fabric in visible region with high-transmission rate according to claim 19, which is characterized in that described At least one of the infrared resistant rate of thermal isolation film and uvioresistant rate are more than 80%.