CN107898556A

CN107898556A - Magnetic far-infrared negative-ion energy eye-mask

Info

Publication number: CN107898556A
Application number: CN201711242922.3A
Authority: CN
Inventors: 钟永松
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-11-30
Filing date: 2017-11-30
Publication date: 2018-04-13

Abstract

This application involves a kind of magnetic far-infrared negative-ion energy eye-mask, from outside to inside, include shading layer of cloth, magnetic far-infrared fiber chip layer, elastic sponge layer and pure cotton cloth layer successively, the magnetic far-infrared fiber chip layer is made of magnetic far-infrared fibrous material, the magnetic far-infrared fiber is using polyester as substrate, it is blended by melting using magnetic particle, far infrared additive, anionic additive, additive dispersant as filler, it is prepared.

Description

Magnetic far-infrared negative-ion energy eye-mask

Technical field

This application involves a kind of energy eye-mask, more particularly to a kind of magnetic far-infrared negative-ion energy eye-mask.

Background technology

As social competition aggravates, the pressure that people bear is increasing, nervous, and mood is uneasy, then triggers each The disease of kind various kinds, particularly cybraian, student race and working clan, before being sitting in computer for a long time, easily there is spirit in excess eye-using Anxiety, glasses fatigue, forms myopia, and severe patient also results in Other diseases.

It is well known that infrared ray can be stimulated directly, massaging skin, make around to produce fuel factor, promote capillary blood stream Dynamic active, microcirculation is accelerated, and has preferable health-care efficacy.

The content of the invention

The present invention is intended to provide a kind of magnetic far-infrared negative-ion energy eye-mask, set forth above to solve the problems, such as.

A kind of magnetic far-infrared negative-ion energy eye-mask is provided in the embodiment of the present invention, from outside to inside, is included successively There are shading layer of cloth, magnetic far-infrared fiber chip layer, elastic sponge layer and pure cotton cloth layer, the magnetic far-infrared fiber chip Layer is made of magnetic far-infrared fibrous material, and the magnetic far-infrared fiber is using polyester as substrate, with magnetic particle, far infrared Additive, anionic additive, additive dispersant are filler, blended by melting, and are prepared.

The technical solution that the embodiment of the present invention provides can include the following benefits：

The magnetic far-infrared negative-ion energy eye-mask of the present invention, health-care effect is good, sweat-absorbing breathable, without side-effects, can releive Ocular nerve and blood vessel, make blood circulation more unimpeded, dispelling fatigue.

The aspect and advantage that the application adds will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the application.It should be appreciated that the general description and following detailed description of the above are only It is exemplary and explanatory, the application can not be limited.

Brief description of the drawings

Using attached drawing, the invention will be further described, but the embodiment in attached drawing does not form any limit to the present invention System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings Other attached drawings.

Fig. 1 is the structure diagram of eyeshade of the present invention；

Embodiment

Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following description is related to During attached drawing, unless otherwise indicated, the same numbers in different attached drawings represent the same or similar key element.Following exemplary embodiment Described in embodiment do not represent and the consistent all embodiments of the present invention.On the contrary, they be only with it is such as appended The example of the consistent apparatus and method of some aspects being described in detail in claims, of the invention.

The embodiment of the present invention is related to a kind of magnetic far-infrared negative-ion energy eye-mask, with reference to Fig. 1, from outside to inside, successively Include shading layer of cloth 1, magnetic far-infrared fiber chip layer 2, elastic sponge layer 3 and pure cotton cloth layer 4, wherein, the magnetism Far IR fibre chip layer 2 is made of magnetic far-infrared fibrous material, the magnetic far-infrared fiber using polyester as substrate, with Magnetic particle, far infrared additive, anionic additive are filler, blended by melting, and are prepared.

Far-infrared negative-ion energy eye-mask of the present invention, by the magnetic launched in its magnetic far-infrared fiber chip layer The line of force, far infrared etc. act synergistically, and generate positive effect, eye health protection positive effect.

In magnetic far-infrared fiber described above, its raw material includes according to percentage by weight：2% magnetic particle, 5% Anionic additive, 8% far infrared additive, surplus be polyester.For the functionalization of fiber, industrial circle usual way It is inorganic powder of the addition with far-infrared transmitting function, anion emission function etc.；For example patent application 2011110289921 In, tourmaline powder, sepiolite, pearl powder are added in polyester fondant by it carries out melt spinning, is made with healthcare function Polyester fiber, in technical solution of the present invention, is added by adding magnetic particle, anionic additive and far infrared in the polyester Agent so that the magnetic far-infrared fiber is provided with the magnetic line of force, anion and far-infrared transmitting function, has expanded answering for polyester fiber Use scope.

Wherein, in magnetic far-infrared fiber of the invention, the anionic additive is tourmaline anion powder, its In, particle diameter is that the content of 500nm accounts for the 98% of gross weight in tourmaline anion powder, is preferably 99%, more preferably 99.6%.Currently, the common natural crystal that can discharge anion is two kinds, diatomite and tourmaline, it is diatomaceous mainly into It is divided into the oxide containing silicon, aluminium and iron etc., its aperture is 50nm, and surface area reaches 37.8m²/ g, can be discharged negative using diatomite The characteristic of ion, is exploring and is being applied in fiber-like articles for use；Tourmaline has the natural electrode similar to magnet poles, It is widely used in many fields such as environmental protection, daily life, and tourmaline mineral ultra-fine grinding is added in fiber, because The powder has positive and negative electrode, and fabric is processed into the artificial silk containing the powder, can be in skin after the fabric and human contact Surface produces countless weak currents, stimulates blood circulation, and form the negative ion effect in air；At present, tourmaline radiation is negative The characteristic of ion has been confirmed, it is mixed with other additives, so that it is one that fiber, which has multiple combination functions, The emphasis of research；In technical scheme, in addition to using anionic additive, also by itself and magnetic particle, far infrared Additive is used in combination, and by controlling the proportioning of each material, on the premise of keeping each material to give full play to function, has reached negative The maximization of emission of ions, generates unexpected technique effect.

Wherein, in magnetic far-infrared fiber of the invention, the far infrared additive is a kind of polynary sintered body nanometer Powder, is specially Si-Zr-Ti-Sn sintered body nanopowders, and particle diameter is less than 1 μm, it is by Tai Ji stone nano particle, ZrO₂、 TiO₂、SnO₂According to what is formed after certain quality proportioning mixed pressuring plate, high temperature sintering, crushing, grinding.As a kind of natural ore deposit Stone, the main component of Tai Ji stone are silica, and the metalliferous mineral element of lot of trace, its resonance frequency with human body cell Rate is fairly close, can promote absorption of human body and aggregation positive energy.Currently, natural crystal raw material is applied to functional textile product Research carrying out, such as, present invention applicant is noticed in prior art, by Tai Ji stone master batch be added to polyester fibre In dimension, to improve its infrared emission performance, but its function is more single, stability and bad.In addition, in order to increase polyester fiber Feature, and Multimetal oxide is subjected to simple mechanical mixture, it can not improve the microcosmic phase structure of material, So that the multi-functional performance of stuff and other stuff is affected.In technical solution of the present invention, carried out using multi-element metal oxide High temperature sintering, is then added to after then being crushed in magnetic far-infrared fiber, can change microcosmic particle using high temperature sintering Phase structure, and reconfigure it, form substitutional type solid, the anharmonicity of lattice polarity vibrations is enhanced, so that greatly Radiance is improved greatly, achieves unexpected beneficial effect.

In the far infrared additive, Tai Ji stone nano particle, ZrO₂、TiO₂、SnO₂Quality proportioning is 9:7:3:3.Matter Amount proportioning is to influence a kind of important parameter that polynary sintered body nanopowder infrared property plays, and in above-mentioned substance, Tai Ji stone is received Rice grain has the function of infrared emission, ZrO in itself₂、TiO₂Also there is certain infra-red radiation ability, and SnO₂Itself do not possess Infra red radiation function, in technical solution of the present invention, by above-mentioned substance mixed sintering, in the case of above-mentioned quality proportioning, SnO₂This Body enables to remaining substance ion fully to merge, the generation for substitutional type solid plays great work as a kind of reinforcing agent With.

Specifically, which is 500nm, the ZrO₂Particle diameter is 300nm, the TiO₂Particle diameter is 400nm, the SnO₂Particle diameter is 500nm.Performance of the particle diameter of nano particle for nano-particle function produces significant impact, is based on Different materials, the grain size needed in sintering process is also different, and the present inventor passes through experimental verification, in said ratio feelings Under condition, under the limitation of above-mentioned particle diameter, said mixture can fully merge in sintering process, so as to fully react, produce Substitutional type solid, so as to greatly improve the output of infra-red radiation material, improves radiation efficiency in infrared band, plays expectation not The technique effect arrived.

In addition, the far infrared additive, in sintering process, technical solution of the present invention preferably sinters at 1250 DEG C 3h, when temperature is higher or lower than the sintering temperature, the yield of substitutional type solid declines.

Preferably, additive dispersant is further included in magnetic far-infrared fiber of the present invention, at this time, the polyester In functional fibre, its raw material includes according to percentage by weight：2% magnetic particle, 5% anionic additive, 8% it is remote red External additive, 4% additive dispersant, surplus are polyester.Also, the additive dispersant is Mn₂O₃Porous microsphere, its In, Mn₂O₃The preparation process of porous microsphere is：First, by the Mn (CH of 15mmol₃COO)₂·6H₂O, the urea and 2g of 45mmol Polyethylene glycol-2000 is placed in 40ml ethylene glycol solutions, is stirred, and dissolving finishes, and is then transferred to resulting solution In stainless steel cauldron, hydro-thermal reaction 30h is sealed at 220 DEG C, natural cooling, centrifugation, collection, washing, drying, obtain MnCO₃, it is finally calcined into 10h at 650 DEG C in Muffle furnace, obtains Mn₂O₃Porous microsphere；Mn₂O₃A diameter of 1 μ of porous microsphere m.The additive dispersant can be uniformly dispersed in polyester fiber, be effectively improved anionic additive and far infrared addition bolus The generation of poly- phenomenon.

Embodiment 1

The preparation process of magnetic far-infrared fiber described above is：

Step 1, prepare far infrared additive：By Tai Ji stone nano particle, ZrO₂、TiO₂、SnO₂According to 9:7:3:3 mass Proportioning is uniformly mixed, and is put into mixing bottle and is sufficiently mixed, disc-shaped is pressed on hydraulic press, the high-temperature calcination 3h at 1250 DEG C, After being cooled to room temperature, take out, crush, grinding is uniform, filters out the sintered body nano particle that particle diameter is less than 1 μm；

Step 2, prepare additive dispersant：First, by the Mn (CH of 15mmol₃COO)₂·6H₂O, the urea of 45mmol and 2g Polyethylene glycol-2000s are placed in 40ml ethylene glycol solutions, are stirred, and dissolving finishes, and then shift resulting solution Into stainless steel cauldron, hydro-thermal reaction 30h is sealed at 220 DEG C, natural cooling, centrifugation, collection, washing, drying, obtain MnCO₃, it is finally calcined into 10h at 650 DEG C in Muffle furnace, obtains Mn₂O₃Porous microsphere；Mn₂O₃A diameter of 1 μ of porous microsphere m；

Step 3, prepare polyester master particle：First, magnetic particle, far infrared additive, additive dispersant, anion are added Agent and ethylene glycol is added to mix, ultrasound 5h at room temperature after stirring, obtains mixed liquor；Then by mixed liquor and p-phthalic acid, Catalyst aid is esterified, and polymerization, obtains polyester master particle, wherein, esterification temperature is 260 DEG C, and pressure 280KPa, esterification yield reaches Polycondensation reaction is carried out during more than 96.5%, condensation temperature is 290 DEG C, is evacuated to 20Mpa, and polycondensation to inherent viscosity is 0.72 When, discharging, blank；

Step 4, prepare polyester preoriented yarn：Polyester master particle is melted, filter is then fed into and is filtered, through metering Afterwards, into spinning pack, the tow of ejection is being cooled down, is being oiled, preoriented yarn is wound into after deflector roll, wherein, spinning Temperature is 285 DEG C, spinning speed 3400m/min；

Step 5, prepare magnetic far-infrared fiber：Polyester preoriented yarn can after a roller, hot tank, two rollers, scroll tube, winding Compound polyester functional fibre is prepared into, wherein, draft speed 500m/min, draw ratio 3.1, a roll temperature is 90 DEG C, Two roll temperatures are 140 DEG C.

The far-infrared radiation of fiber is characterized by measuring the normal emittance of magnetic far-infrared fiber in the present embodiment Can, inspection result shows that its normal emittance is 0.95, is shown in Table 1, accurate on the assessment of bids of far infrared performance according to this area, normal direction hair Far-infrared textiles can be assessed as more than or equal to 0.8 by penetrating rate, and the composite fibre in the present embodiment meets standard requirement.

Embodiment 2

In the present embodiment, the preparation process of the magnetic far-infrared fiber is similar to Example 1, and difference is：Magnetic Far infrared additive is not included in property far IR fibre.

Embodiment 3

In the present embodiment, the preparation process of the magnetic far-infrared fiber is similar to Example 1, and difference is：Magnetic Additive dispersant is not included in property far IR fibre.

Embodiment 4

In the present embodiment, the preparation process of the magnetic far-infrared fiber is similar to Example 1, and difference is：Magnetic SnO is not included in far infrared additive in property far IR fibre₂。

Table 1, the normal emittance of composite fibre in embodiment 1-4

The foregoing is merely the preferred mode of the present invention, it is not intended to limit the invention, it is all in the spiritual and former of the present invention Within then, any modification, equivalent replacement, improvement and so on, should all be included in the protection scope of the present invention.

Claims

1. a kind of magnetic far-infrared negative-ion energy eye-mask, from outside to inside, includes shading layer of cloth, magnetic far-infrared fiber successively Chip layer, elastic sponge layer and pure cotton cloth layer, it is characterised in that the magnetic far-infrared fiber chip layer is by magnetic far-infrared Fibrous material is formed, and the magnetic far-infrared fiber is using polyester as substrate, with magnetic particle, far infrared additive, anion Additive, additive dispersant are filler, blended by melting, and are prepared.

2. a kind of magnetic far-infrared negative-ion energy eye-mask according to claim 1, it is characterised in that the magnetism is remote In infrared fibre, its raw material includes according to percentage by weight：2% magnetic particle, 5% anionic additive, 8% it is remote red External additive, 4% additive dispersant, surplus are polyester.

A kind of 3. magnetic far-infrared negative-ion energy eye-mask according to claim 2, it is characterised in that the anion Additive is tourmaline anion powder.

A kind of 4. magnetic far-infrared negative-ion energy eye-mask according to claim 3, it is characterised in that the tourmaline bear from Sub- powder footpath is 500nm.

A kind of 5. magnetic far-infrared negative-ion energy eye-mask according to claim 2, it is characterised in that the additive Dispersant is Mn₂O₃Porous microsphere, the Mn₂O₃The preparation process of porous microsphere is：First, by the Mn (CH of 15mmol₃COO)₂· 6H₂O, the urea of 45mmol and 2g Polyethylene glycol-2000s are placed in 40ml ethylene glycol solutions, are stirred, and dissolving finishes, Then resulting solution is transferred in stainless steel cauldron, hydro-thermal reaction 30h, natural cooling, centrifugation, receipts is sealed at 220 DEG C Collection, washing, drying, obtain MnCO₃, it is finally calcined into 10h at 650 DEG C in Muffle furnace, obtains Mn₂O₃Porous microsphere；Mn₂O₃ A diameter of 1 μm of porous microsphere.

A kind of 6. magnetic far-infrared negative-ion energy eye-mask according to claim 2, it is characterised in that the far infrared Additive is a kind of polynary sintered body nanopowder, is specially Si-Zr-Ti-Sn sintered body nanopowders, and particle diameter is less than 1 μm, It is by Tai Ji stone nano particle, ZrO₂、TiO₂、SnO₂According to certain quality proportioning mixed pressuring plate, high temperature sintering, crush, grind Formed after mill.

A kind of 7. magnetic far-infrared negative-ion energy eye-mask according to claim 6, it is characterised in that the far infrared In additive, Tai Ji stone nano particle, ZrO₂、TiO₂、SnO₂Quality proportioning is 9:7:3:3.

A kind of 8. magnetic far-infrared negative-ion energy eye-mask according to claim 7, it is characterised in that the Tai Ji stone nanometer Grain diameter is 500nm, the ZrO₂Particle diameter is 300nm, the TiO₂Particle diameter is 400nm, the SnO₂Particle diameter is 500nm.

9. a kind of magnetic far-infrared negative-ion energy eye-mask according to claim 5, it is characterised in that described magnetic remote red The preparation process of outer fiber is：

Step 1, prepare far infrared additive：By Tai Ji stone nano particle, ZrO₂、TiO₂、SnO₂According to 9:7:3:3 quality proportionings It is uniformly mixed, is put into mixing bottle and is sufficiently mixed, disc-shaped is pressed on hydraulic press, high-temperature calcination, after being cooled to room temperature, takes Go out, crush, grinding is uniform, filters out the sintered body nano particle that particle diameter is less than 1 μm；

Step 2, prepare polyester master particle：First, by magnetic particle, far infrared additive, additive dispersant, anionic additive Mixed with ethylene glycol, ultrasound 5h at room temperature after stirring, obtains mixed liquor；Then by mixed liquor and p-phthalic acid, catalysis Auxiliary agent is esterified, and polymerization, obtains polyester master particle, wherein, esterification temperature is 260 DEG C, pressure 280KPa, and esterification yield, which reaches, to be more than Polycondensation reaction is carried out when 96.5%, condensation temperature is 290 DEG C, is evacuated to 20Mpa, when polycondensation to inherent viscosity is 0.72, goes out Material, blank；

Step 3, prepare polyester preoriented yarn：Polyester master particle is melted, filter is then fed into and is filtered, after metering, into Enter spinning pack, the tow of ejection is being cooled down, is being oiled, preoriented yarn is wound into after deflector roll, wherein, spinning temperature is 285 DEG C, spinning speed 3400m/min；

Step 4, prepare magnetic far-infrared fiber：Polyester preoriented yarn can be prepared after a roller, hot tank, two rollers, scroll tube, winding Into compound polyester functional fibre, wherein, draft speed 500m/min, draw ratio 3.1, a roll temperature is 90 DEG C, two rollers Temperature is 140 DEG C.

A kind of 10. magnetic far-infrared negative-ion energy eye-mask according to claim 9, it is characterised in that the step 1 In, the high-temperature burning process is to sinter 3h at 1250 DEG C.