A three-dimensional intercommunicating and breathable three-layer mesh cloth and its manufacturing method

Abstract

The invention provides three-dimensional interconnected breathable three-layer mesh cloth. The three-dimensional interconnected breathable three-layer mesh cloth comprises a surface layer, a bottom layer and a middle layer used for connecting the surface layer and the bottom layer, wherein the surface layer is provided with a plurality of meshes, a blade is arranged at each mesh, and one end of each blade is woven and connected to the lateral wall of the corresponding mesh. The invention further provides a manufacturing method of the three-dimensional interconnected breathable three-layer mesh cloth. The manufacturing method includes: threading, weaving, dyeing and finishing, and the like. The three-dimensional interconnected breathable three-layer mesh cloth has the advantages that due to the fact that the blade is arranged at each mesh and one end of each blade is woven and connected to the lateral wall of the corresponding mesh, the blades swing in a reciprocating manner at the meshes along with air flow, air flowing is promoted, and a relatively good air exchanging effect is achieved; the blades also change the air flowing direction, so that sufficient heat exchanging between cold air and hot air can be achieved, and hot air backflow is difficult.

Description

technical field [0001] The invention relates to a cloth and a manufacturing method thereof, in particular to a three-dimensional intercommunicating and breathable three-layer mesh cloth and a manufacturing method thereof. Background technique [0002] Mesh is a kind of fabric commonly used in the footwear and apparel industry, and it is a fabric with meshes. In recent years, with the continuous development of fly-knit upper technology, the application of mesh on upper is also increasing. [0003] At present, the mesh used on the upper of the shoe on the market mainly relies on the mesh on the mesh to improve the air permeability, but only relying on the mesh to realize the gas exchange inside and outside the upper, the gas exchange effect is relatively poor, and the hot gas from After being discharged from the shoe, part of the hot gas will flow into the shoe again through the mesh, that is, the backflow of hot gas will occur, affecting the heat exchange between the inner a...

AI Technical Summary

Problems solved by technology

[0003] At present, the mesh used on the upper of the shoe on the market mainly relies on the mesh on the mesh to improve the air permeability, but only relying on the mesh to realize the gas exchange inside and outside the upper, the gas exchange effect is relatively poor, and the hot gas from After being discharged from the shoe, part of the hot gas will flow into the shoe again through the mesh, that is, the backflow of hot gas will occur, affecting the heat exchange between the inner and outer sides of the upper.

[0004] In addition, the surface of the existing mesh cloth is usually a smooth plane or curved surface, and the style is relatively monotonous, which is difficult to meet the market demand for diversified styles of shoe uppers.

Images