CN110158225A - A kind of yarn clipping fever knitted fabric and its weaving method - Google Patents

Abstract

The invention discloses a kind of yarn clipping fever knitted fabric and its weaving method, including conductive yarn and non-conducting yarns, conductive yarn forms conductive exothermal structure by yarn clipping mode and non-conducting yarns.The fever knitted fabric that the weaving method of the knitted fabric with etching effect is made into breaches the limitation of traditional weaving method, it breaks a new path diameter for conductive exothermal knitted fabric, the design means of Knitted Fabric Pattern structure can be enriched, it plays a role to artistic value, the aesthetic value of preferably annotating design concept and raising product, provides broader development space for development of knitted fabric and market.

Description

A kind of yarn clipping fever knitted fabric and its weaving method

Technical field:

The present invention relates to knitting fields, are especially a kind of yarn clipping fever knitted fabric and its weaving method.

Background technique:

As shown in figure 3, fever knitted fabric is woven by conductive yam and non-conductive yarn to form heat radiating structure, using When some special conductive yarn materials, since to conductive yarn count, hardness everyway has higher requirement.Traditional braiding is done Method cannot achieve, and have some limitations.

Summary of the invention:

The technical problem to be solved by the invention is to provide a kind of by conductive yam yarn clipping and non-woven mode is led with non- Electric yarn forms the yarn clipping fever knitted fabric of conductive exothermal structure.

The technical solution of the invention is as follows, provides a kind of yarn clipping fever knitted fabric, including conductive yarn and non-conductive yarn Line, conductive yarn form conductive exothermal structure by yarn clipping mode and non-conducting yarns.

Preferably, conductive yarn is alternatively arranged in the coil made of non-conducting yarns braiding by fever requirement.

The present invention also provides a kind of weaving methods of yarn clipping fever knitted fabric, are extended in left-right direction and using having preceding The straight-bar machines of rear direction front and back a pair of needle bed relative to each other, is woven as follows:

Step 1: to bring step into, non-conducting yarns A is woven from left to right, while conductive yarn B carries out broadwise not Yarn clipping is knitted to heating region structure junction；

Step 2: recalcitrating conductive yarn B, its yarn mouth is kicked from non-heating region C2, non-conducting yarns A left lateral weaves to area Domain C2 and region H intersection kick to the right non-conducting yarns A and conductive yarn B, and left lateral weaves to a structure left side non-conducting yarns A again Edge；

Step 3: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weaves to region C2 and region H intersection kick non-conducting yarns A and conductive yarn B to the left, and right lateral weaves on the right of structure non-conducting yarns A again At edge；

Step 4: non-conducting yarns A left lateral weaves to region C2 and region H intersection, kicks non-conducting yarns A to the right and leads Left lateral weaves to structure left edge again by electric yarn B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit yarn clipping to hair Thermal region H and the junction C1；

Step 5: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weaves to region C1 and region H intersection, kicking non-conducting yarns A and conduction B, non-conducting yarns A to the left, right lateral weaves to structure right edge again；

Step 6: non-conducting yarns A left lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A to the right and leads Left lateral weaves to structure left edge again by electric yarn B, non-conducting yarns A；

Step 7: non-conducting yarns A right lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A to the left and leads Right lateral weaves to structure left edge again by electric B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit yarn clipping to hot zone Domain H and the junction C2, recalcitrate conductive yarn B, its yarn mouth are kicked from region C2；

Step 8: to take step out of, non-conducting yarns A left lateral is woven to region C2 and region H intersection, kicks non-lead to the right Left lateral weaves to structure left edge again by electric yarn A and conductive yarn B, non-conducting yarns A, while conductive yarn B carries out broadwise Yarn clipping to edge is not knitted to take out of.

Using after above scheme compared with prior art, the invention has the following advantages that by conductive yarn yarn clipping rather than The mode and non-conducting yarns of braiding form conductive exothermal structure, breach the limitation of traditional weaving method, are conductive exothermal Knitted fabric breaks a new path diameter；Meanwhile the product of fever knitted fabric can be enriched, certain work is played to product philosophy is preferably annotated With providing broader development space for development of knitted fabric and market；In addition, the present invention is spaced line number by yarn clipping needle number, Relative position reaches different conductive exothermals design is adjusted to its conductive structure resistance between accurate control conductive yam Effect, so that its more extensive utilization is to different field, market potential is huge, and economic value is considerable；In addition, in industrial applicibility side Face, weaving method of the invention can be widely applicable for the Computerized flat knitting machine of yarn clipping function.It can meet and attract more consumption Group pushes the international influence of China's knitting industry.

Detailed description of the invention:

Fig. 1 is the schematic diagram of yarn clipping heating fabric of the invention.

Fig. 2 is that the embodiment of the present invention weaves schematic diagram.

Fig. 3 is the heat radiating structure of the heating fabric of the prior art.

Specific embodiment:

With regard to specific embodiment, the invention will be further described below:

Embodiment 1

As shown in Figure 1, conductive yarn B has used straight-bar machines broadwise not knit the INLAY technology of yarn clipping, woven in non-conductive yarn A Loop construction according to certain heat require spacing distance arrangement, formed yarn clipping heat radiating structure.This weaving method can be described as Yarn clipping heat radiating structure weave.

Specifically, be with two kinds of non-conducting yarns A, conductive yarn B different yarns, using have in left-right direction extend and The straight-bar machines of a pair of needle bed carries out step as shown in Figure 3 and is woven before and after front-rear direction is relative to each other:

Step 1: to bring step into, non-conducting yarns A is woven from left to right, while conductive yarn B carries out broadwise not Yarn clipping is knitted to heating region structure junction；

Step 2: recalcitrating conductive yarn B, its yarn mouth is kicked from non-heating region C2, non-conducting yarns A left lateral weaves to area Domain C2 and region H intersection kick to the right non-conducting yarns A and conductive yarn B, and left lateral weaves to a structure left side non-conducting yarns A again Edge；

Step 3: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weaves to region C2 and region H intersection kick non-conducting yarns A and conductive yarn B to the left, and right lateral weaves on the right of structure non-conducting yarns A again At edge；

Step 4: non-conducting yarns A left lateral weaves to region C2 and region H intersection, kicks non-conducting yarns A to the right and leads Left lateral weaves to structure left edge again by electric yarn B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit yarn clipping to hair Thermal region H and the junction C1；

Step 5: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weaves to region C1 and region H intersection, kicking non-conducting yarns A and conduction B, non-conducting yarns A to the left, right lateral weaves to structure right edge again；

Step 6: non-conducting yarns A left lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A to the right and leads Left lateral weaves to structure left edge again by electric yarn B, non-conducting yarns A；

Step 7: non-conducting yarns A right lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A to the left and leads Right lateral weaves to structure left edge again by electric B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit yarn clipping to hot zone Domain H and the junction C2, recalcitrate conductive yarn B, its yarn mouth are kicked from region C2；

Step 8: to take step out of, non-conducting yarns A left lateral is woven to region C2 and region H intersection, kicks non-lead to the right Left lateral weaves to structure left edge again by electric yarn A and conductive yarn B, non-conducting yarns A, while conductive yarn B carries out broadwise Yarn clipping to edge is not knitted to take out of.

Height h1 can wherein be controlled by circulation step two or three, circulation step five or six controls height h2.To real Adjust conductive yarn interval now to control its heating effect.The height of the adjustable entire heating region of circulation step two to seven, And the width of heating region is controlled by needle digit.

The invention has the following advantages that with yarn clipping, non-woven mode and non-conducting yarns form conduction by conductive yarn Heat radiating structure breaches the limitation of traditional weaving method, breaks a new path diameter for conductive exothermal knitted fabric；Meanwhile hair can be enriched The product of hot knitted fabric plays a role to product philosophy is preferably annotated, provides more for development of knitted fabric and market Wide development space；In addition, the present invention is spaced line number by yarn clipping needle number, and it is accurate to control relative position between conductive yam, come Design is adjusted to its conductive structure resistance, reaches different conductive exothermal effects, so that its more extensive utilization is to different necks Domain, market potential is huge, and economic value is considerable；In addition, weaving method of the invention can be widely in terms of industrial applicibility Computerized flat knitting machine suitable for yarn clipping function.It can meet and attract more consumer groups, push the international shadow of China's knitting industry Ring power.

Only the preferred embodiment of the present invention has been described above, but is not to be construed as limiting the scope of the invention.It is all The equivalent structure or equivalent flow shift done using description of the invention, be included in scope of patent protection of the invention it It is interior.

Claims (3)

1. The knitted fabric 1. a kind of yarn clipping is generated heat, including conductive yarn and non-conducting yarns, it is characterised in that: conductive yarn passes through yarn clipping Mode and non-conducting yarns form conductive exothermal structure.
2. The knitted fabric 2. yarn clipping according to claim 1 is generated heat, it is characterised in that: conductive yarn weave in non-conducting yarns and At coil in by fever requirement be alternatively arranged.
3. 3. a kind of weaving method of yarn clipping fever knitted fabric as claimed in claim 1 or 2, is extended in left-right direction using having And before and after front-rear direction is relative to each other a pair of needle bed straight-bar machines, it is characterised in that:

   Step 1: to bring step into, non-conducting yarns A is woven from left to right, while conductive yarn B carries out broadwise and do not knit folder Yarn is to heating region structure junction；

   Step 2: recalcitrating conductive yarn B, its yarn mouth is kicked from non-heating region C2, non-conducting yarns A left lateral weaves to region C2 With region H intersection, non-conducting yarns A and conductive yarn B are kicked to the right, left lateral weaves to structure left edge non-conducting yarns A again Place；

   Step 3: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weave to region C2 with Region H intersection kicks non-conducting yarns A and conductive yarn B to the left, and right lateral weaves to structure right edge non-conducting yarns A again；

   Step 4: non-conducting yarns A left lateral weaves to region C2 and region H intersection, kicks non-conducting yarns A and conductive yam to the right Left lateral weaves to structure left edge again by line B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit yarn clipping to hot zone Domain H and the junction C1；

   Step 5: recalcitrating conductive yarn B, its yarn mouth is kicked from heating region H, non-conducting yarns A right lateral weave to region C1 with Region H intersection, kicking non-conducting yarns A and conduction B, non-conducting yarns A to the left, right lateral weaves to structure right edge again；

   Step 6: non-conducting yarns A left lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A and conductive yam to the right Left lateral weaves to structure left edge again by line B, non-conducting yarns A；

   Step 7: non-conducting yarns A right lateral weaves to region C1 and region H intersection, kicks non-conducting yarns A and conduction B to the left, Right lateral weaves to structure left edge non-conducting yarns A again, while conductive yarn B carries out broadwise and do not knit yarn clipping to heating region H With the junction C2, conductive yarn B is recalcitrated, its yarn mouth is kicked from region C2；

   Step 8: to take step out of, non-conducting yarns A left lateral is woven to region C2 and region H intersection, kicks non-conductive yarn to the right Left lateral weaves to structure left edge again by line A and conductive yarn B, non-conducting yarns A, while conductive yarn B carries out broadwise and do not knit Yarn clipping to edge is taken out of.