CN211357463U - Multi-strand Taiji stone fiber multilayer fabric capable of promoting microcirculation - Google Patents

Abstract

The utility model relates to a promote microcirculation's stranded taiji stone fibre multilayer surface fabric, including surface course and bottom, surface course and bottom are interweaved, and wherein the surface course is woven by the yarn longitude and latitude and is formed, the yarn knead by stranded taiji stone fibre and twist and spin, the bottom is woven for cotton yarn and is formed, the cotton yarn of bottom enters into the surface course and colludes with the yarn of surface course and twine and form a body structure. The surface layer comprises Taiji stone fibers, the surface layer is in contact with a human body, and Taiji stone nano particles contained in the Taiji stone fibers emit far infrared functions, so that the kinetic energy of blood cells is enhanced, and the microcirculation of the human body is promoted; the Tai Chi stone fibers are all positioned on the surface layer, and the bottom layer does not contain the Tai Chi stone fibers, so that the content of the Tai Chi stone fibers in the fabric can be conveniently calculated, and the fabric with different Tai Chi stone nano particle content ratios can be obtained by only adjusting the content of the Tai Chi stone fibers in the fabric; the cotton yarn of the bottom layer is twined with the yarn of the surface layer, so that the bottom layer and the surface layer are woven into a whole.

Description

Multi-strand Taiji stone fiber multilayer fabric capable of promoting microcirculation

Technical Field

The utility model relates to a surface fabric, especially a promote microcirculation's stranded taiji stone fiber multilayer surface fabric.

Background

Microcirculation refers to the blood circulation between a micro-artery and a micro-vein, the regulation of the microcirculation mainly influences the blood flow of the microcirculation through the relaxation activity of the smooth muscle of blood vessels regulated by nerves and body fluid, the typical microcirculation generally consists of seven parts, such as a arteriole, a posterior arteriole, a capillary anterior sphincter, a true capillary, a blood-circulation capillary, an arterio-venous anastomosis branch and a micro-vein, and the blood of the microcirculation can flow to the micro-vein from the arteriole through three paths.

The walls of the arterioles, posterior arterioles, anterior capillary sphincters and venules contain mostly smooth muscles, and their contractile activity directly affects the blood flow of the microcirculation. Under normal conditions, the blood flow of microcirculation adapts to the metabolism level of tissues and organs, ensures the blood perfusion of each tissue and organ and regulates the blood volume of returning heart. If the microcirculation is disturbed, the physiological functions of each organ will be directly affected.

However, as the function of the human body gradually degrades, the viscosity of blood increases, the flow rate is reduced, stasis may occur in blood vessels, blockage may occur seriously, the blood flow decreases, microcirculation is obstructed, at this time, cells cannot be metabolized normally, the cells cannot obtain sufficient nutrition, and waste materials cannot be discharged in time, so that the physiological function disorder of the human body is caused.

Disclosure of Invention

The utility model provides a promote microcirculation's stranded taiji stone fibre multilayer surface fabric, multilayer surface fabric is compound, and wherein the surface course adopts taiji stone fibre to make the surface fabric have the infrared function of taiji stone, and reinforcing blood cell kinetic energy, thereby promote microcirculation. Meanwhile, the weight ratio of the Tai Chi stone fiber in the whole fabric of the surface layer is changed by weaving the Tai Chi stone fiber with different strand numbers.

The utility model discloses a concrete technical scheme does: the utility model provides a promote microcirculation's stranded taiji stone fibre multilayer surface fabric, includes surface course and bottom, and surface course and bottom are interweaved, and wherein the surface course is woven by the yarn longitude and latitude and forms, the yarn knead to twist by stranded taiji stone fibre and spin, the bottom is woven for cotton yarn and forms, the cotton yarn of bottom enters into the surface course and colludes with the yarn of surface course and twines and form a body structure.

The fabric comprises a surface layer and a bottom layer, wherein the surface layer comprises Taiji stone fibers, the bottom layer is cotton yarn, when the fabric is used, the surface layer is in contact with a human body, Taiji stone nano particles contained in the Taiji stone fibers emit far infrared function, so that the kinetic energy of blood cells is enhanced, the microcirculation of the human body is promoted, and the cotton yarn of the bottom layer can be used as the outer protection of the surface layer; the Tai Chi stone fibers are all positioned on the surface layer, and the bottom layer does not contain the Tai Chi stone fibers, so that the content of the Tai Chi stone fibers in the fabric can be conveniently calculated, and the fabric with different Tai Chi stone nano particle content ratios can be obtained by only adjusting the content of the Tai Chi stone fibers in the fabric; the cotton yarn of the bottom layer is twined with the yarn of the surface layer, so that the bottom layer and the surface layer are woven into a whole.

Preferably, the surface layer is formed by spirally twisting two strands of Taiji stone fibers into a yarn; or three strands of Taiji stone fiber are spirally twisted into a yarn. According to the requirement of content ratio, the tai chi stone fiber is spun into a yarn by two strands, or three strands, or four strands, and for two or three strands, the tai chi stone fiber is generally spun into a yarn by a spiral twisting mode.

Preferably, a main fiber is woven into the yarn, the main fiber is a composite reinforcing fiber, the composite reinforcing fiber is a carbon fiber, the carbon fiber is located in the middle, and the taiji stone fiber is spirally twisted outside the carbon fiber. The carbon fiber is woven in the yarn of the surface layer, so that the strength of the yarn is improved, the Taiji stone fiber is not easy to break when being woven, and the carbon fiber has better conductive performance, so that the antistatic performance can be improved.

Preferably, the yarns of the surface layer comprise main fibers and taiji stone fibers, the main fibers are composite reinforcing fibers, the composite reinforcing fibers are carbon fibers, one strand of the main fibers is used, four strands of the taiji stone fibers are used, the four strands of the taiji stone fibers are woven in a twill mode to form an X shape, and the main fibers are located at the position where the X shape intersects. If the content ratio of the tai chi stone of the surface layer is higher than the requirement, one yarn has four strands of tai chi stone fibers, the four strands of tai chi stone fibers are woven into an X shape in a twill weaving mode, main fibers are woven into the cross positions of the X shape to reinforce the yarn, and the periphery of the X shape has more air gaps.

Preferably, the surface layer extends out of the coil relative to the bottom layer, the bottom layer extends out of the coil relative to the surface layer, and the opposite coils are sleeved in a chain manner. The cross-linking between the surface layer and the bottom layer adopts a coil chain type sleeving mode, the connection is reliable, and the gap between the surface layer and the bottom layer can be changed by changing the size of the coil.

Preferably, the surface layer and the bottom layer are separated to form a middle layer, the middle layer is formed by interweaving cotton yarns, and the chain-type sleeved coils penetrate through the crossed positions of the cotton yarns in the middle layer.

The utility model has the advantages that: the fabric comprises a surface layer and a bottom layer, wherein the surface layer comprises Taiji stone fibers, the bottom layer is cotton yarn, when the fabric is used, the surface layer is in contact with a human body, Taiji stone nano particles contained in the Taiji stone fibers emit far infrared function, so that the kinetic energy of blood cells is enhanced, the microcirculation of the human body is promoted, and the cotton yarn of the bottom layer can be used as the outer protection of the surface layer; the Tai Chi stone fibers are all positioned on the surface layer, and the bottom layer does not contain the Tai Chi stone fibers, so that the content of the Tai Chi stone fibers in the fabric can be conveniently calculated, and the fabric with different Tai Chi stone nano particle content ratios can be obtained by only adjusting the content of the Tai Chi stone fibers in the fabric; the cotton yarn of the bottom layer is twined with the yarn of the surface layer, so that the bottom layer and the surface layer are woven into a whole.

Drawings

FIG. 1 is a schematic view of a layer of the present invention;

FIG. 2 is a schematic view of two strands of Tai Chi fiber yarns according to the present invention;

fig. 3 is a schematic view of the three-ply tai chi stone fiber yarn of the present invention;

FIG. 4 is another layered schematic of the present invention;

in the figure: 1. surface course, 2, bottom course, 3, yarn, 4, taiji stone fiber, 5, loop.

Detailed Description

The invention will be further described with reference to specific embodiments and with reference to the accompanying drawings.

Example 1:

as shown in figure 1, the multi-strand Taiji stone fiber multilayer fabric for promoting microcirculation comprises a surface layer 1 and a bottom layer 2, wherein the surface layer and the bottom layer are interwoven with each other. The surface layer is formed by warp and weft knitting of yarns 3, and the yarns are formed by twisting and spinning a plurality of strands of Tai Chi stone fibers 4. The bottom layer is woven for cotton yarn and forms, and the cotton yarn of bottom enters into the surface course and colludes the yarn that twines and form an organic whole structure with the surface course. The surface layer is formed by spirally twisting two beams of Tai Chi stone fibers into a yarn, and as shown in figure 2, the content ratio of the Tai Chi stone nanoparticles is controlled to be 25-30%. Or three strands of Taiji stone fibers are spirally twisted into a yarn, as shown in figure 3, and the content ratio of the Taiji stone nano particles is controlled to be 30-35%.

A main fiber is woven into the yarn, the main fiber is a composite reinforced fiber, the composite reinforced fiber is a carbon fiber, the carbon fiber is located in the middle, and the Taiji stone fiber is spirally twisted outside the carbon fiber.

Example 2:

the utility model provides a promote microcirculation's stranded taiji stone fibre multilayer surface fabric, the difference with embodiment 1 lies in that, the yarn of surface course includes main fibre and taiji stone fibre, and main fibre is composite reinforcement fibre, and composite reinforcement fibre adopts the carbon fiber, and main fibre is one strand, and taiji stone fibre is four strands, and four strands taiji stone fibre twill are woven and are formed the X-arrangement, and main fibre is in the criss-cross position of X-arrangement. The rest of the structure is referred to example 1.

Example 3:

as shown in figure 4, the multi-strand Taiji stone fiber multilayer fabric for promoting microcirculation has surface layers, opposite to the bottom layer, extending out of coils 5, opposite surface layers of the bottom layer extend out of coils, and the opposite coils are sleeved in a chain manner. The surface layer and the bottom layer are separated to form a middle layer, the middle layer is formed by interweaving cotton yarns, and the chain-type sleeved coils penetrate through the crossed positions of the cotton yarns in the middle layer. The rest of the structure is referred to example 1 or example 2.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and equivalent transformation of doing above embodiment the utility model discloses technical scheme's protection scope.

Claims (6)

1. The utility model provides a promote microcirculation's stranded taiji stone fiber multilayer surface fabric, its characterized in that includes surface course (1) and bottom (2), and surface course and bottom are interweaved, and wherein the surface course is woven by yarn (3) longitude and latitude and is formed, the yarn knead by stranded taiji stone fiber (4) and twist and spin into, the bottom is woven for the cotton yarn and is formed, the cotton yarn of bottom enters into the surface course and colludes with the yarn of surface course and twine and form a body structure.

2. The multi-strand tai chi stone fiber multi-layer fabric for promoting microcirculation as claimed in claim 1, wherein the fabric is formed by spirally twisting two strands of tai chi stone fibers into a yarn; or three strands of Taiji stone fiber are spirally twisted into a yarn.

3. The multi-strand Taiji stone fiber multilayer fabric for promoting microcirculation as claimed in claim 2, wherein a main fiber is woven into the yarn, the main fiber is a composite reinforcing fiber, the composite reinforcing fiber is a carbon fiber, the carbon fiber is arranged in the middle, and the Taiji stone fiber is spirally twisted outside the carbon fiber.

4. The multi-strand Taiji stone fiber multilayer fabric capable of promoting microcirculation as claimed in claim 1, wherein the yarns of the surface layer comprise main fibers and Taiji stone fibers, the main fibers are composite reinforcing fibers, the composite reinforcing fibers are carbon fibers, the main fibers are one strand, the Taiji stone fibers are four strands, the four strands of Taiji stone fibers are woven in a twill mode to form an X shape, and the main fibers are located at the position where the X shape intersects.

5. A multi-strand Tai Chi stone fiber multilayer fabric for promoting microcirculation according to claim 1, 2, 3 or 4, wherein the surface layer extends out of the coil (5) relative to the bottom layer, the bottom layer extends out of the coil relative to the surface layer, and the opposite coils are in chain-type sleeving.

6. The multi-strand Tai Chi stone fiber multilayer fabric capable of promoting microcirculation as claimed in claim 5, wherein the surface layer is separated from the bottom layer to form a middle layer, the middle layer is formed by interweaving cotton yarns, and the chain type sleeved loops penetrate through the crossing positions of the cotton yarns in the middle layer.

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