CN205347697U - Anti impact elasticity knitted fabric - Google Patents

Abstract

The utility model relates to an anti impact elasticity knitted fabric belongs to broche technical field. Constitute by top layer and bottom, the top layer on be provided with a plurality of buffer bodies, this buffer body is that make progress bellied holding chamber and the filler that is located between holding chamber and the bottom constitutes by the top layer, the position downwardly extending of holding chamber and bottom contact goes into in the bottom to card end is formed in the junction. Be applied to utility model in fields such as clothing, have advantages such as elasticity is good, the conformality is good.

Description

Shock resistance stretch knit fabric

Technical field

This utility model relates to a kind of shock resistance stretch knit fabric, belongs to broche technical field.

Background technology

The elasticity of fabric is usually by fiber or what yarn itself determined, and the fabric elasticity of this structure can fade away along with the prolongation of dress or the time of use, and then also can bring the defects such as fabric deformation, comfort level that impact is worn and the aesthetics of use.

Based on this, make the application.

Utility model content

In order to overcome the drawbacks described above existing for fabrics in general, the shock resistance stretch knit fabric that this utility model provides a kind of good springiness, wearing comfort is high.

For achieving the above object, the technical scheme that this utility model is taked is as follows:

Shock resistance stretch knit fabric, is made up of top layer and bottom, and described top layer is provided with multiple buffer body, and this buffer body is the containing cavity raised up by top layer and the implant between containing cavity and bottom is constituted；The position of containing cavity and lower layer contacts extends down in bottom, and forms card end in junction.

Further, as preferably:

Misplace between described adjacent buffer body or embark on journey arranged in rows.

Described buffer body distribution density on top layer is 30-50%.Namely the area of buffer body accounts for the 30-50% of surface area.

Described implant is plastic foam or broken section of fiber.

This utility model is used as fabric, top layer, namely the fiber of bottom itself gives the elasticity that fabric is certain, external force is then played cushioning effect by the buffer body arranged on top layer, buffer body is the containing cavity structure raised up on the one hand, this cavity body structure both can increase the surface area that surface is overall, the while that raising fabric horizontal (i.e. fabric peripheral direction) being elastic, again external force is played cushioning effect, thus the pulling force that external force is caused forms buffering, the pressure or pulling force being perpendicular to top layer is then cushioned by the implant in containing cavity, and increase the elasticity on vertical fabric direction further；Dislocation mode can be adopted between adjacent buffer body to arrange, thus ensureing the uniformity that elastomer is distributed on cross section, make fabric each position in the horizontal have uniform elasticity；Containing cavity forms card end with bottom junction, this card end will cut off between adjacent containing cavity, and enhance the connection fastness between top layer and bottom, so as to be respectively provided with good stability in the horizontal and vertical directions, thus the impact resistance that fabric is overall can be effectively improved；Can also adopting between adjacent buffer body and embark on journey or arranged in rows, the processing of this structure is more convenient, and the relatively large part of stress on fabric can carry out strengthening arranges, it is ensured that overall indeformable of fabric.

Accompanying drawing explanation

Fig. 1 is sectional view of the present utility model；

Fig. 2 is the top view of the first structure of this utility model；

Fig. 3 is the top view of this utility model the second structure.

Number in the figure: 1. top layer；2. buffer body；21. containing cavity；22. implant；3. bottom；4. card end.

Detailed description of the invention

Embodiment 1

The present embodiment shock resistance stretch knit fabric, in conjunction with Fig. 1, being made up of top layer 1, buffer body 2 and bottom 3, top layer 1 is provided with multiple buffer body 2, this buffer body 2 is the containing cavity 21 raised up by top layer 1 and the implant 22 between containing cavity 21 and bottom 3 is constituted；Containing cavity 21 forms card end 4 with bottom 3 junction, this card end 4 will cut off between adjacent containing cavity 21, and enhance the connection fastness between top layer 1 and bottom 3, make fabric be respectively provided with good stability in the horizontal and vertical directions, thus the impact resistance that fabric is overall can be effectively improved.In the present embodiment, in conjunction with Fig. 2, shifting to install between adjacent buffer body 2, namely previous buffer body is not completely overlapped on cross section with a rear buffer body；The buffer body 2 distribution density on top layer 1 is 30-50%, while not affecting the overall soft degree in top layer 1, also farthest increases the elasticity of fabric；Implant 22 is plastic foam or broken section of fiber.

The present embodiment is used as fabric, top layer 1, namely the fiber of bottom 3 itself gives the elasticity that fabric is certain, external force is then played cushioning effect by the buffer body 2 arranged on top layer 1, buffer body 2 is the containing cavity structure raised up on the one hand, this cavity body structure both can increase the surface area that surface is overall, the while that raising fabric horizontal (i.e. fabric peripheral direction in Fig. 2) being elastic, again external force is played cushioning effect, thus the pulling force that external force is caused forms buffering, the pressure or pulling force being perpendicular to direction, top layer 1 (namely shown in Fig. 1 cross-wise direction) is then cushioned by the implant 22 in containing cavity 21, and increase the elasticity on vertical fabric direction (namely shown in Fig. 1 cross-wise direction) further；Adopting dislocation mode to arrange between adjacent buffer body 2, thus ensureing the uniformity that elastomer is distributed on cross section, making fabric each position in the horizontal have uniform elasticity.

Embodiment 2

The present embodiment shock resistance stretch knit fabric, in conjunction with Fig. 1, being made up of top layer 1, buffer body 2 and bottom 3, top layer 1 is provided with multiple buffer body 2, this buffer body 2 is the containing cavity 21 raised up by top layer 1 and the implant 22 between containing cavity 21 and bottom 3 is constituted；Containing cavity 21 forms card end 4 with bottom 3 junction, this card end 4 will cut off between adjacent containing cavity 21, and enhance the connection fastness between top layer 1 and bottom 3, make fabric be respectively provided with good stability in the horizontal and vertical directions, thus the impact resistance that fabric is overall can be effectively improved.In the present embodiment, in conjunction with scheming, 2, buffer body 2 is embarked on journey arranged in rows on top layer 1, and namely previous buffer body is completely overlapped on cross section with a rear buffer body；The buffer body 2 distribution density on top layer 1 is 30-50%, while not affecting the overall soft degree in top layer 1, also farthest increases the elasticity of fabric；Implant 22 is plastic foam or broken section of fiber.

The present embodiment is used as fabric, top layer 1, namely the fiber of bottom 3 itself gives the elasticity that fabric is certain, external force is then played cushioning effect by the buffer body 2 arranged on top layer 1, buffer body 2 is the containing cavity structure raised up on the one hand, this cavity body structure both can increase the surface area that surface is overall, the while that raising fabric horizontal (i.e. fabric peripheral direction in Fig. 3) being elastic, again external force is played cushioning effect, thus the pulling force that external force is caused forms buffering, the pressure or pulling force being perpendicular to direction, top layer 1 (namely shown in Fig. 1 cross-wise direction) is then cushioned by the implant 22 in containing cavity 21, and increase the elasticity on vertical fabric direction (namely shown in Fig. 1 cross-wise direction) further；Adopting between adjacent buffer body 2 and embark on journey or arranged in rows, the processing of this structure is more convenient, and the relatively large part of stress on fabric can carry out strengthening arranges, it is ensured that overall indeformable of fabric.

Above content is the further description provided technical scheme made in conjunction with the preferred implementation of the invention; it cannot be assumed that the invention is embodied as being confined to these explanations above-mentioned; for the invention person of an ordinary skill in the technical field; without departing from the concept of the premise of the invention; some simple deduction or replace can also be made, all should be considered as belonging to the protection domain of the invention.

Claims (4)

1. shock resistance stretch knit fabric, it is characterised in that: being made up of top layer and bottom, described top layer is provided with multiple buffer body, this buffer body is the containing cavity raised up by top layer and the implant between containing cavity and bottom is constituted；The position of containing cavity and lower layer contacts extends down in bottom, and forms card end in junction.

2. shock resistance stretch knit fabric as claimed in claim 1, it is characterised in that: misplace between described adjacent buffer body or embark on journey arranged in rows.

3. shock resistance stretch knit fabric as claimed in claim 1, it is characterised in that: described buffer body distribution density on top layer is 30-50%.

4. shock resistance stretch knit fabric as claimed in claim 1, it is characterised in that: described implant is plastic foam or broken section of fiber.