CN202705583U - Anionic far-infrared compound functional fiber - Google Patents

Abstract

The utility model discloses an anionic far-infrared compound functional fiber which has high effects on absorbing far-infrared rays and releasing negative oxygen ions. The anionic far-infrared compound functional fiber comprises a skin layer and a core layer, wherein the skin layer is a polymer layer containing far-infrared ceramic powder and tourmaline powder; the core layer is a polymer core layer containing the tourmaline powder; and the polymer skin layer coats the polymer core layer.

Description

A kind of negative ion far-infrared composite functional fiber

Technical field

The utility model relates to a kind of composite functional fiber, refers to especially a kind of negative ion far-infrared composite functional fiber.

Background technology

Along with development and the human raising that properties of textile is required of science and technology, increasing functional textile is developed in succession.

Negative oxygen ion extensively is present in the Nature, in the high place of content such as forest, seashore, waterfall district etc., it makes the people feel in a good mood, and particularly air-conditioned enclosed type office, dwelling house can bring out the various diseases take air conditioner disease as representative and the people is in the low place of negative oxygen ion content for a long time.Medically, cytoactive can be strengthened after negative oxygen ion entered blood, the transmission of the electrolyte such as Na, K and refuse, the frequency of exchange also can be accelerated, make the ion in the body keep balance, thereby improve vis medicatrix naturae and the immunity of human body, activate simultaneously parasympathetic nerve, people's mind peacefulness, blood pressure drops, mood are loosened.It is of great advantage to health that suck an amount of negative oxygen ion every day.

Infrared ray is a kind of electromagnetic wave between visible light and microwave, and wavelength is between 0.76～1000 micron.Its medium wavelength is the most useful to human body at the far infrared of 4～15 micron wavebands.Can produce thermogenetic effect in subcutaneous 3～5 centimetres of depths behind the far infrared of this wave band of absorption of human body, hydrone in the cell tissue is activated, be in upper state, help biological Enzyme Production, so energy enhanced machine body immunity function and power of regeneration, the expansion capillary improves microcirculation, enhances metabolism and blood flow.

In the prior art, oneself has many foreign literatures that health fiber or far IR fibre or their mixed function fiber and fabric thereof have been carried out deep discussion and discussion, and also oneself comes into the market to possess the fiber of this respect function and fabric.But these functional fibres or have far-infrared functional, or have negative ion-releasing function, act on all more single.

The utility model content

Technical problem to be solved in the utility model is: a kind of far ultraviolet red line, a kind of negative ion far-infrared composite functional fiber that the releasing negative oxygen ion effect is high of absorbing is provided

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of negative ion far-infrared composite functional fiber, comprise cortex and sandwich layer, described cortex is the polymeric skin that contains far-infrared ceramic powder, tourmaline powder, described sandwich layer is the core polymer layer that contains the tourmaline powder, and described polymeric skin wraps up described core polymer layer.

As a kind of preferred scheme, described polymer is polyester.

As a kind of preferred scheme, described far-infared ceramic powder magazine tourmaline powder is nanoscale powder material.

After having adopted technique scheme, effect of the present utility model is: owing to having adopted core-sheath composite structure, and functional materials far-infrared ceramic powder, tourmaline powder are blended in respectively cortex and the sandwich layer of fiber, thereby can solve better because the effect interference problem that the material blend of the multiple different mechanisms of action causes, thereby the actual functional capability effect that can improve fiber.Secondly, the cortex of the fiber of this fiber contains far-infrared ceramic powder and tourmaline material, is convenient to contact skin and illumination, is conducive to it and brings into play its effect.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the structure cutaway view of the utility model embodiment;

In the accompanying drawing: 1. cortex; 2. tourmaline powder; 3. far-infrared ceramic powder; 4. coupling agent; 5. sandwich layer; 6. modifier.

The specific embodiment

Below by specific embodiment the utility model is described in further detail.

As shown in Figure 1, a kind of negative ion far-infrared composite functional fiber, comprise cortex 1 and sandwich layer 5, described cortex 1 is for containing the polymeric skin 1 of far-infrared ceramic powder 3, tourmaline powder 2, described sandwich layer 5 is for containing the core polymer layer 5 of tourmaline powder 2, the described core polymer layer 5 of described polymeric skin 1 parcel.Described polymer is polyester.Described far-infrared ceramic powder 3 box tourmaline powders 2 are nanoscale powder material, particle diameter≤250nm.The weight ratio of described cortex 1 and sandwich layer 5 is 2:8～8:2, and in described cortex 1 compound, polymer accounts for 80～88%, and the far infrared powder accounts for 3～6%, and tourmaline powder 2 accounts for 5～7%, and coupling agent 4 accounts for 0.1～2.5%.In described sandwich layer 5 compounds, polymer accounts for 38～62%, and tourmaline powder 2 accounts for 5～10%, and modifier 6 accounts for 0.5～3%.

The preparation method of this fiber is: get 86 parts of (weight of dried polyethylene terephthalate (PET), lower same), six parts of the far-infrared ceramic nanopowders that commercial ShangHai HuaMing GaoNa tombar thite New Materials Co., Ltd produces, seven parts of the tourmaline powders that Lay happy nanosecond science and technology Co., Ltd in Shanghai produces, γ-glycidoxypropyltrimewasxysilane (coupling agent 4 a kind of) portion, after sufficiently mixing, under 270 ℃ through twin-screw extrusion, granulation produces the required polymerizing master batch of fibrocortex 1 material;

Get 91 parts of (weight of dried polyethylene terephthalate (PET), lower same), eight parts of the tourmaline powders that Lay happy nanosecond science and technology Co., Ltd in commercial Shanghai produces, three different stearic phthalidyl ferrous acid isopropyl esters (modifier 6 a kind of) portion, after sufficiently mixing, through twin-screw extrusion, granulation produces the required polymerizing master batch of fiber sandwich layer 5 material under 265 ℃;

After above-mentioned gained core-skin polymerization masterbatch fully dried, spin out undrawn yarn by the fiber core-skin weight ratio of 5:5 with core-sheath spinning machine; Again with undrawn yarn at a certain temperature, the stretching several times obtain the core-sheath finished silk; This fiber just has composite functional.

After measured, the far infrared emissivity of gained fiber is 83%, and the dynamic and static anion sum of fiber reaches 2500/cubic centimetre.

Claims (3)

1. negative ion far-infrared composite functional fiber, it is characterized in that: comprise cortex and sandwich layer, described cortex is the polymeric skin that contains far-infrared ceramic powder, tourmaline powder, described sandwich layer is the core polymer layer that contains the tourmaline powder, and described polymeric skin wraps up described core polymer layer.

2. a kind of negative ion far-infrared composite functional fiber as claimed in claim 1, it is characterized in that: described polymer is polyester.

3. a kind of negative ion far-infrared composite functional fiber as claimed in claim 2, it is characterized in that: described far-infrared ceramic powder and tourmaline powder are nanoscale powder material.