CN213023796U - Illite hexacyclic stone nanometer negative ion far infrared health care spectacle frame and spectacles - Google Patents

Abstract

The utility model discloses an illite hexacyclic stone nanometer anion far infrared health care spectacle-frame, including imitative porcelain technology health care spectacle-frame, spectacle-frame injection molding technology health care spectacle-frame, the panel technology health care spectacle-frame of nanometer illite and/or hexacyclic stone melamine, the utility model also discloses an illite hexacyclic stone nanometer anion far infrared health care glasses comprises above-mentioned spectacle-frame and lens, and the lens can use the blue light ultraviolet resistance resin lens of preventing of anti-soil rete. The utility model discloses the spectacle-frame and the glasses that obtain can effectual improvement and prevent that we use electronic product work such as cell-phone computer TV for a long time, life, when entertaining for a long time, the sub-health symptom of eyesight of eyes, the problem of eye fatigue syndrome such as dry eye, eye puckery, eye acid and swell, look the thing blur.

Description

Illite hexacyclic stone nanometer negative ion far infrared health care spectacle frame and spectacles

Technical Field

The utility model relates to a glasses manufacture technical field, in particular to illite hexacyclic stone nanometer anion far infrared health care spectacle-frame and glasses.

Background

In the era of rapid development of science and technology, people can work, live and entertain without electronic products such as mobile phones, computers, notebooks, televisions and the like, and all of the electronic products are displayed through a display screen; while improving the work efficiency and enjoying entertainment and life, people should also notice that the eyes are being hurt by blue light; in the 2010 annual meeting of the international light association, world optical experts consistently point out: the short-wave blue light has extremely high energy and can penetrate through crystalline lens to directly reach retina; blue light irradiation of the retina produces free radicals which cause retinal pigment epithelial cell death, which leads to nutrient deprivation of light-sensitive cells, causing vision loss, and the damage is irreversible; blue light-proof health-care glasses are selected to be used for carrying out blue light-proof film pasting treatment on the glasses, and the blue light-proof film pasting technology is mature, so that blue light can be effectively prevented from penetrating through the glasses; the crowd of sub-health of eyesight and asthenopia syndrome increases a lot, and this is relevant with people's long-term use electronic product, and the overwhelming majority people select frame glasses, and current frame glasses have following two shortcomings: the ophthalmic lens of the first-mentioned utility model patent (publication No. CN 206470488U), the structural layer is: the surfaces of the concave surface and the convex surface of the full ultraviolet-proof film layer, the antifogging film layer and the blue-light-proof film substrate are respectively provided with an antireflection film layer. The spectacle lens is free of ᅳ anti-fouling mold layers, an antireflection film layer is plated on the surface of the spectacle lens, stains are particularly easily generated on the antireflection film layer, namely the spectacle lens of the antireflection film layer, the stains can damage the effect of the antireflection film layer, the light transmittance of light is reduced, the stains easily infiltrate the antireflection film layer, and therefore the anti-fouling mold layer needs to be plated on the antireflection film layer, namely the spectacle lens of the antireflection film layer.

Secondly, the defects of the plate glasses frame are that the comfort is poor if the material is hard and the adjustment is not proper; the lens made of the PC material cannot be matched with the acid material, so that the lens is cracked; the plate glasses frame can be flattened, the glasses frame is formed by cutting a flat plate and needs to be adjusted, and the glasses legs need to be shaped by a copper core.

The qualified melamine tableware is safe and can be used completely with confidence as a finished product when taught by professor Chenmin of food institute of Chinese agriculture university and professor Yunyi of Beijing chemical university; the imitation porcelain tableware made of melamine powder as base material has high heat and humidity resistance, high solvent resistance, high alkali resistance, high brightness, high smoothness, high heat resistance, high impact resistance and high bending resistance.

The melamine has good safety, high temperature and high humidity resistance, solvent resistance, alkali resistance, heat resistance, impact resistance and bending resistance, bright color and strong smoothness, and the existing spectacle frame does not have a spectacle frame with a melamine porcelain-imitating structure, and the manufacturing process of the spectacle frame needs to be increased or changed.

Illite: the illite island, which was first discovered in the united states. Hydromuscovite, english name: ilite. Illite is rich in potassium, high in aluminum and low in iron, and has excellent chemical and physical bacteriostasis, such as smoothness, brightness, fineness, heat resistance and the like; illite can freely release negative ions and far infrared rays; international studies prove that the processed illite has strong antibacterial effect and can adsorb various harmful heavy metals and harmful gases; illite, also known as french green mud, is a mineral with a very high absorption capacity, is a biomineral, mainly degraded by plants, and contains calcium, aluminium, magnesium, silicon, phosphorus, copper and zinc; the substitute medicine holds that illite has a plurality of mineral substances, has a plurality of benefits to human health, is the most main clay in the mud bath therapy, is the main clay raw material for producing traditional ceramics such as cooking pots, plates, ceramic tiles and the like, can improve the strength, chemical stability and thermal stability of ceramic products, and can adjust the maturation temperature and rheological property of glaze materials and increase the suspension of glaze slurry; the product is used in ceramic industry and used as a filler in rubber and plastic industry; the illite can be used in rubber and plastic industries after ore dressing, crushing and surface modification, and endows the material with the characteristics of low temperature resistance, high thermal stability, flame retardance and good mechanical strength. Liuhuan stone is produced in yellow river basin of the genus of Baotou city of inner Mongolia and produced in Ordovician (2 hundred million and 4 million years from today) and belongs to sedimentary rock; the cutting of the material by calcite into regular blocks, the periodic precipitation of limonite at the center of the block to form the now "ring". The stone has the advantages of simple and elegant color, complete and unique texture, similarity to millennium ancient wood annual rings, and various patterns, and belongs to the rare natural stone in the world. The latest research progresses, and the magic six-ring stone integrates multiple energies: 1. Promoting blood circulation and improving microcirculation. 2. Improving the oxygen carrying function of the red blood cells and reducing the blood viscosity. 3. Enhancing and improving immunity, and improving resistance to diseases. 4. Has antiaging effect, and can eliminate free radicals in vivo. 5. Relieving fatigue, and promoting physical recovery. 6. Tranquilizing the nervous system, and eliminating insomnia and mental stress.

The professor Liqingshan of Yanshan university also finds that Liuhuan stone has a very important property of releasing negative ions, and researches show that: the physical and chemical functions of the hexacyclic ring stone comprise 1, 4000/cm 3 negative ions are released; 2. no radioactivity; 3. far infrared emission is 0.88; the hexacyclic stone is a polymer with four great energies perfectly created by natural founders, and the natural hexacyclic stone has four great energies: the energy first and sixth ring stone emits far infrared ray. The hexacyclic ring stone emits far infrared ray with wavelength of 8-15 μm at 20 deg.C. It has the following effects on human body: because the far infrared ray is close to the vibration frequency of cell molecules in a human body, when the living light wave permeates into the human body, the resonance of atoms and molecules of the cells of the human body can be caused, and through resonance absorption, the molecules generate heat through friction to generate heat to form a thermal reaction, so that the temperature of a subcutaneous deep layer is increased, the capillary is expanded, the blood circulation is accelerated, the accumulated substances in blood vessels and harmful substances in the body are favorably cleared, the tissue is reactivated, the enzyme is promoted to generate, and the aims of activating the tissue cells, preventing aging and strengthening the immune system are fulfilled. The second energy and the sixth energy generate negative ions permanently, the health care function of the negative ions is confirmed to be an effective means for killing germs and purifying air in the medical field, and the mechanism of the second energy and the sixth energy is mainly that after the negative ions are combined with bacteria, the bacteria generate structural change or energy transfer to cause the bacteria to die and finally sink on the ground; medical research shows that the particles with negative electricity in the air increase the oxygen content in the blood, are beneficial to the transmission, absorption and utilization of the blood oxygen, and have the functions of promoting the metabolism of the human body, improving the immunity of the human body, enhancing the functions of the human body and regulating the functional balance of the human body; the negative ions can enhance the self restoring force and natural healing capacity of the life body, thereby overcoming diseases; the air negative ions have effects of tranquilizing, hypnotizing, relieving pain, relieving cough, relieving itching, promoting urination, stimulating appetite, and lowering blood pressure; the energy tricyclics and hexacyclic stones contain trace elements of germanium and nutrient elements such as calcium, magnesium, sodium, potassium, iron, selenium and zinc which are necessary for human bodies, and the detection of a laboratory in the qinhei province, the prefecture of Hebei province and the Minghuai island reports that the natural hexacyclic stones are rich in noble metal germanium, and the content of the natural hexacyclic stones is 0.065 mg/kg; scientific research shows that germanium element can mainly eliminate fatigue, prevent anemia, help metabolism and the like; germanium 132, spirogermanium and the like have obvious antitumor activity and low toxicity, particularly have no bone marrow toxicity, and have potential in the aspects of tumor prevention and treatment, adjuvant radiotherapy and chemotherapy and the like; the effect on the blood system is mainly reflected in stimulating the increase of the quantity of red blood cells and hemoglobin in blood and has certain effect on treating anemia; energy is used for generating bioelectricity by using the four-ring stone and the six-ring stone; research shows that the immunity of the human body is closely related to bioelectricity; scientists observe that the emotion of human is joyful and happy, the spirit is excited, the self-confidence is strong, the emotional area of the brain can continuously generate special bioelectric current which is transmitted to the nerve of the brain and the immune system, so that the immune cells are activated, the phagocytic capacity is enhanced, and the invading bacteria and viruses can be effectively killed in time. The bioelectric current emitted by the emotional zone also has the magical effect of inhibiting cancer cells and AIDS, and some cancer patients are not threatened by the cancer, are full of confidence to overcome the cancer, live in a satisfied place and possibly heal without drugs; in experimental research of air ions, positive ions and negatively charged nano ions are found to have great effects on human bodies; the positive ions are abundant, so that the health care wine is irritant to human bodies and is easy to generate uneasy emotions such as vexation, dryness-heat, fatigue and the like; when the quantity of the charged nano-ions is large, the effects of analgesia, excitation, sterilization and the like are achieved; therefore, the negative charged nano-ions in the air can be used for treating various diseases.

The elastic polyvinyl chloride/hexacyclic stone composite material is prepared by preparing a newly discovered natural mineral hexacyclic stone with the function of releasing negative ions into superfine micropowder, carrying out surface modification on natural mineral particles by using a nonionic surfactant triethanolamine, and blending the natural mineral particles and polyvinyl chloride plastisol. Observation by scanning electron microscopeIt was found that the modified hexacyclic stone particles are uniformly dispersed in the polyvinyl chloride paste resin, and the particles are spherical-like in shape and mostly have a particle diameter of not more than 600 nm. When the mass fraction of the added natural minerals is 3 percent, the concentration of the negative ions released by the composite material exceeds 1500/cm³S, meets the standards set by the world health organization. Reference to "chinese plastics 2009 year 12 ISSN: 1001 & 9278 Chinese core journal "Yanshan university metastable material preparation technology and scientific national key laboratory; wushu, Li Qing shan and ren Yu hong.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an illite hexacyclic stone nanometer anion far infrared health care spectacle frame and spectacles.

The technical scheme of the utility model as follows:

an illite hexacyclic stone nanometer anion far infrared health care spectacle frame adopts a melamine porcelain imitating structure and adopts the following three technical schemes:

technical scheme one (1): a nanometer anion far infrared health care spectacle frame made of illite hexacyclic stone comprises a spectacle ring and a spectacle leg body layer made of melamine, nanometer illite and/or hexacyclic stone, a built-in printing layer and a melamine transparent hard film protection layer, wherein the built-in printing layer is arranged outside the spectacle ring and the spectacle leg body layer made of melamine, nanometer illite and/or hexacyclic stone, and the melamine transparent hard film protection layer is arranged outside the built-in printing layer.

According to the technical scheme, the first technical scheme (2) is that the illite hexacyclic stone nanometer anion far infrared health care glasses frame is composed of a glasses rim and a glasses leg body layer of melamine, nanometer illite and/or hexacyclic stone, a coating layer containing the melamine and the nanometer illite powder and/or hexacyclic stone, and an external printing layer, wherein a coating layer containing the melamine and the nanometer illite powder and/or hexacyclic stone is arranged outside the glasses rim and the glasses leg body layer of the melamine, the nanometer illite and/or hexacyclic stone, and an external printing layer is arranged outside the coating layer containing the melamine and the nanometer illite powder and/or hexacyclic stone.

According to the technical scheme, the first technical scheme (3) is that the illite hexacyclic stone nanometer anion far infrared health care glasses frame consists of a glasses ring and a glasses leg body layer of melamine, nanometer illite and/or hexacyclic stone, a glasses ring and a concave-convex pattern coating of the glasses leg of the nanometer illite and/or hexacyclic stone, and the glasses ring and the glasses leg body layer of the melamine, the nanometer illite and/or hexacyclic stone are provided with the concave-convex pattern coating of the glasses ring and the glasses leg of the nanometer illite and/or hexacyclic stone.

The utility model discloses do and adopt following technical scheme:

the second technical scheme is that the illite hexacyclic stone nanometer anion far infrared health care spectacle frame consists of resin, a spectacle ring and a spectacle leg body layer of nanometer illite and/or hexacyclic stone, and a coating or a plating layer is arranged outside the spectacle ring and the spectacle leg body layer of the resin, the nanometer illite and/or hexacyclic stone.

Preferably, the coating or plating layer contains nano illite powder and/or hexacyclic stone powder.

The blue-light-proof and ultraviolet-proof resin spectacle lens with the anti-fouling film layer comprises a resin substrate, wherein an ultraviolet-proof area layer, a blue-light-proof function area layer and an anti-fog function area layer are sequentially arranged on the convex surface of the resin substrate, the concave surface and the convex surface of the resin substrate are respectively provided with an anti-reflection function area layer, and the anti-reflection function area layer is respectively provided with an anti-fouling function area film layer.

Using resin spectacle lens evaporation coating process or ion coating process, sequentially coating the film layers according to the following sequence:

A. the convex surface of the resin substrate is plated with an ultraviolet-proof area layer, namely a full ultraviolet-proof film layer;

B. the convex surface of the resin substrate is plated with an antifogging functional area layer, namely an antifogging film layer;

C. the resin substrate is plated with a blue light prevention functional area layer, namely a blue light prevention film layer, on the convex surface of the resin substrate, wherein the blue light prevention functional area layer comprises a first SiO2 film layer, a ZrO2 film layer, an In2O3 film layer, a Ti2O3 film layer and a second SiO2 film layer which are sequentially arranged;

D. plating an antireflection film layer on the concave surface and the convex surface of the resin substrate respectively;

E. respectively plating an anti-fouling functional area film layer, namely an anti-fouling film layer, on the concave surface and the convex surface of the resin substrate by adopting a vacuum coating process;

F. and obtaining the blue-light-proof and ultraviolet-proof resin spectacle lens with the anti-fouling function.

Illite hexacyclic stone nanometer anion far infrared health care glasses: namely, the glasses are manufactured by using a melamine ceramic-like structure transparent health-care glasses frame with a built-in printing, a melamine ceramic-like structure coating layer printing health-care glasses frame, a melamine ceramic-like structure concave-convex pattern coating layer health-care glasses frame or a resin injection molding process and a resin plate process, and blue-light-proof and ultraviolet-proof resin glasses lenses with an anti-fouling film layer or existing corrective glasses lenses, sun lenses, driving lenses, eye protection lenses and the like; preferably manufacturing the flat glasses of the illite hexacyclic stone anion far infrared health care glasses frame provided with the blue light-proof and ultraviolet-proof flat glasses lens with the anti-pollution layer.

The utility model has the advantages that:

1. the spectacle frame with the melamine porcelain-like structure is safe, nontoxic, tasteless, good in corrosion resistance, stable in chemical property, strong in wear resistance, firm in texture, not easy to break and durable by adopting a die hot press molding process; the product has smooth surface and good comfort; the color is bright and beautiful; the spectacle frame with the melamine porcelain-like structure can use PC lenses, so that the problem that the spectacle frame made of acid plates cannot use the PC lenses is solved; the problem that the copper core is required to be inserted into the plate glasses frame is solved, and the glasses legs of the melamine porcelain-like structure are not inserted into the copper core and cannot be leveled back; raw materials are saved, working procedures are reduced, and labor and material costs are reduced; the raw materials of the spectacle frame with the melamine porcelain-like structure are all commercial products, the production is fast, the machine production is the main, and the labor intensity is low;

2. the illite and/or hexacyclic stone nanometer health-care glasses frame adopts an injection molding manufacturing process, is suitable for batch production, has good quality, high yield and low cost, adopts commercially available raw materials, is fast to put into production, is mainly produced by a machine, and has low labor intensity; 5. The illite and/or hexacyclic stone nanometer health-care glasses frame adopts a plate manufacturing process, has high grade, excellent quality, fine manufacturing, good quality, durability, various expression patterns and colorful colors, and is a medium-high grade fashion product;

3. the anti-blue light anti-ultraviolet resin spectacle lens of the anti-fouling film layer is characterized in that an anti-reflection film is plated on the surface of the anti-blue light anti-ultraviolet resin spectacle lens, the anti-reflection film, namely a lens of the anti-reflection film, is particularly easy to generate stains, the stains can destroy the effect of the anti-reflection film, the light transmittance of light is reduced, the anti-reflection film layer is easy to soak by the stains, an anti-fouling film with oil stain resistance and water resistance is plated on the anti-reflection film layer, the anti-fouling layer cannot change the optical performance of the anti-reflection film, the anti-fouling film covers the anti-reflection film layer.

Drawings

FIG. 1 is a schematic view of the structure of the spectacle frame of the present invention;

FIG. 2 is a view A-A of FIG. 1 in accordance with embodiment 1;

FIG. 3 is a view A-A of FIG. 1 in accordance with embodiment 2;

FIG. 4 is a view A-A of FIG. 1 in accordance with embodiment 3;

FIG. 5 is a view A-A of FIG. 1 according to embodiment 4;

FIG. 6 is a schematic view of the structure of the spectacle lens of the present invention;

in the figure: 1. a lens rim and a lens leg body layer of melamine, nano-scale illite and/or hexacyclic stone; 2. printing layer; 3. a melamine transparent hard film protective layer; 4. a coating layer containing melamine and nano illite powder and/or hexacyclic stone powder; 5. externally arranging a printing layer; 6. concave-convex pattern plating layers of glasses rings and glasses legs of nano-scale illite and/or hexacyclic stone; 7. a lens ring and a lens leg body layer of resin, nano-scale illite and/or hexacyclic stone; 8. a coating or plating; 9. an anti-fouling functional area film layer; 10. an antireflection functional region layer; 11. an ultraviolet shielding region layer; 12. a blue light prevention functional area layer; 13. and an anti-fog functional area layer.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1: as shown in fig. 1 and 2, the illite hexacyclic stone nanometer anion far infrared health care spectacle frame consists of a spectacle ring and a spectacle leg body layer 1 of melamine, nanometer illite and/or hexacyclic stone, a built-in printing layer 2 and a melamine transparent hard film protective layer 3, wherein the built-in printing layer 2 is arranged outside the spectacle ring and the spectacle leg body layer 1 of the melamine, the nanometer illite and/or hexacyclic stone, and the melamine transparent hard film protective layer 3 is arranged outside the built-in printing layer 2.

The manufacturing method comprises the following steps:

A. opening a mold, namely designing the appearance style of the spectacle frame, and manufacturing a nose support integrated spectacle ring mold and a spectacle leg mold;

B. grinding: illite and hexacyclic stone concentrate are selected and ground by a ball mill, and the particle size of powder reaches below 100 nanometers, so that nanoscale illite powder and hexacyclic stone powder are obtained; c. Material preparation and mixing: adding melamine powder, antioxidant, illite powder and/or hexacyclic stone powder and pigment into a stirrer, and stirring and mixing; d. Preheating, namely adding the powder mixture into a high-frequency machine for uniform preheating; the temperature in the machine is 60-90 ℃, and the preheating time is 3-15 minutes; E. molding and curing, namely adding the preheated powder mixture into a nose support integrated glasses ring mold and a glasses leg mold of a glasses frame of a melamine molding machine, closing the molds, keeping the temperature in the molds at 110-²The time is 1-15 minutes, after exhausting and reducing the pressure, the first mould pressing and curing are completed, and the rough blanks of various colors of glasses rings and glasses legs with the melamine porcelain imitating structure, namely the glasses rings and the glasses leg body layers of melamine, nano-scale illite and/or hexacyclic stone are obtained;

and (3) second-time die pressing curing and printing: opening the mold without taking out the rough blank of the glasses ring or the glasses legs, pasting various patterns of melamine patterned paper on the outer side positions of the glasses ring and the glasses legs in the nose support integrated glasses ring mold and the glasses legs mold, and scattering the gold powder or silver powder; closing the mold and continuing to start the second molding and curing, wherein the temperature in the mold is 30-110 ℃, and the pressure is 90-190kgf/cm²The time is 30 seconds to 5 minutes, and after the air is exhausted and the pressure is reduced, the secondary mould pressing and curing are finished; opening the mold to obtain a spectacle ring and spectacle legs with a printing layer inside; the second molding curing effect ensures that the components of the melamine, the nano-grade illite and the hexacyclic stone are stable and have performanceThe method is excellent; f. Coating: by using a coating process, melamine powder is coated on the built-in printed layers of the glasses ring and the glasses legs and dried to obtain a melamine transparent hard film protective layer, so that the corrosion resistance and scratch resistance of the glasses frame are enhanced, the visual effect is fashionable and bright, and the color is bright;

G. assembling: and trimming, polishing, hinging and assembling an eyeglass ring and an eyeglass leg of the melamine transparent hard film protective layer to obtain the illite hexacyclic stone nanometer anion far infrared health-care eyeglass frame which is a transparent eyeglass frame with a melamine ceramic-like structure and a printing built-in.

Example 2: as shown in fig. 1 and 3, an illite hexacyclic stone nanometer anion far infrared health care spectacle frame comprises a melamine, a nanometer illite and/or hexacyclic stone spectacle rim and spectacle leg body layer 1, a coating layer 4 containing melamine and nanometer illite powder and/or hexacyclic stone powder and an external printing layer 5, wherein the coating layer 4 containing melamine and nanometer illite powder and/or hexacyclic stone powder is arranged outside the melamine, nanometer illite and/or hexacyclic stone rim and spectacle leg body layer 1, and the external printing layer 5 is arranged outside the coating layer 4 containing melamine and nanometer illite powder and/or hexacyclic stone powder.

The manufacturing method comprises the following steps:

A. opening a mold, namely designing the appearance style of the spectacle frame, and manufacturing a nose support integrated spectacle ring mold and a spectacle leg mold;

B. grinding: illite and hexacyclic stone concentrate are selected and ground by a ball mill, and the particle size of powder reaches below 100 nanometers, so that nanoscale illite powder and hexacyclic stone powder are obtained; c. Mixing, namely adding melamine powder, an antioxidant, illite powder and/or hexacyclic stone powder into a stirrer, and stirring and mixing; d. Preheating, namely adding the powder mixture into a high-frequency machine for uniform preheating; the temperature in the machine is 60-90 ℃, and the preheating time is 3-15 minutes; E. molding and curing, namely adding the preheated powder mixture into a nose support integrated glasses ring mold and glasses leg mold of a melamine molding machine, closing the molds and then applying no pressure, wherein the temperature in the molds is 110-²The time is 1 to 15 minutes,completing one-time die pressing and curing without opening a die; second molding and curing, exhausting gas and reducing pressure for 10-30 seconds, and then beginning second molding and curing, wherein the temperature in the mold is 30-110 ℃, and the pressure is 90-190kgf/cm²The time is 30 seconds to 5 minutes, and the second mould pressing is finished; opening the mold, and taking out the glasses ring and the glasses legs to obtain coarse blanks of the glasses ring and the glasses legs with the melamine porcelain-like structures, namely the glasses ring and the glasses legs body layer of melamine, nano illite and/or hexacyclic stone; the secondary mould pressing and curing effect ensures that the components of the melamine, the illite and the hexacyclic stone are stable and have excellent performance; f. Coating: coating melamine powder and nano illite powder and/or hexacyclic stone powder on the body layer by using a coating process, and drying to obtain a coating layer containing melamine and nano illite powder and/or hexacyclic stone powder; the coating layer enhances the anion far infrared health care function of the spectacle frame, wherein the illite six and/or the cyclolite material increases the antibacterial and bacteriostatic function, the corrosion resistance and the scratch resistance of the surface layer of the spectacle frame;

G. printing: attaching melamine patterned paper on the coated glasses ring and glasses leg, re-placing into a nose support integrated glasses ring mold and glasses leg mold, closing the mold, pressurizing and printing, wherein the temperature in the mold is 30-110 ℃, and the pressure is 60-190kgf/cm²The time is 10-30 seconds, after exhausting and reducing the pressure, opening the mold to obtain the glasses ring and the glasses legs with the external printing layer;

H. assembling: and trimming, polishing, winding and assembling the spectacle ring and the spectacle legs with the external printing layer to obtain the illite hexacyclic stone nanometer anion far infrared health-care spectacle frame, namely the health-care spectacle frame with the melamine ceramic-like structure coating layer with the external printing.

Example 3: as shown in figures 1 and 4, the illite hexacyclic stone nanometer anion far infrared health care spectacle frame consists of a spectacle ring and a spectacle leg body layer 1 of melamine, nanometer illite and/or hexacyclic stone, a spectacle ring and a concave-convex pattern plating layer 6 of the spectacle leg of the nanometer illite and/or hexacyclic stone, wherein the spectacle ring and the spectacle leg body layer 1 of the nanometer illite and/or hexacyclic stone are provided with the concave-convex pattern plating layer 6 of the nanometer illite and/or hexacyclic stone.

The manufacturing method comprises the following steps:

A. opening a mold, namely designing the appearance style of the spectacle frame, and manufacturing a nose pad integrated spectacle ring mold and a spectacle leg mold in a concave-convex shape;

B. grinding: illite and hexacyclic stone concentrate are selected and ground by a ball mill, and the particle size of powder reaches below 100 nanometers, so that nanoscale illite powder and hexacyclic stone powder are obtained; c. Mixing, namely adding melamine powder, an antioxidant, illite powder and/or hexacyclic stone powder into a stirrer, and stirring and mixing; d. Preheating, namely adding the powder mixture into a high-frequency machine for uniform preheating; the temperature in the machine is 60-90 ℃, and the preheating time is 3-15 minutes; E. molding and curing, namely adding the preheated powder mixture into a concave-convex nose-support integrated glasses ring mold and glasses leg mold of a melamine molding machine, closing the molds, drying the molds at 30-90 ℃, and then beginning the first molding and curing molding, wherein the temperature in the molds is 110-185 ℃, and the pressure is 110-200kgf/cm²1-15 minutes, completing one-time die pressing and curing without opening a die; and (3) second-time mould pressing and curing: exhausting and reducing pressure for 10-30 s, and performing second molding and curing at a temperature of 30-110 deg.C and a pressure of 90-190kgf/cm²The time is 30 seconds to 5 minutes, and the second mould pressing is finished; opening the mold, and taking out rough blanks of the concave-convex nose support integrated glasses ring and the glasses legs, namely the glasses ring and the glasses leg body layer of melamine, nano illite and/or hexacyclic stone; the secondary mould pressing curing effect ensures that the melamine stress is stable; f. Plating: plating the nano illite powder and/or the hexacyclic stone powder on the surfaces of the melamine spectacle ring and the spectacle leg body layer by using a film coating process, and drying to obtain the nano illite powder and/or hexacyclic stone concave-convex pattern plating layers of the spectacle ring and the spectacle leg; the plating layer has the negative ion far infrared health care function, wherein the illite and/or the hexacyclic stone increase the antibacterial and bacteriostatic functions, the corrosion resistance and the scratch resistance of the glasses frame;

G. assembling: the edge of the glasses ring and the glasses legs of the coating are trimmed, polished, hinged and assembled to obtain the illite hexacyclic stone nanometer anion far infrared health care glasses frame, namely the health care glasses frame with the melamine porcelain-imitating structure concave-convex pattern coating.

Example 4 as shown in fig. 1 and 5, an illite hexacyclic stone nano anion far infrared health care spectacle frame consists of a resin, a nano-scale illite and/or hexacyclic stone spectacle rim and spectacle leg body layer 7 and a coating or plating layer 8, wherein the coating or plating layer 8 is arranged outside the resin, the nano-scale illite and/or hexacyclic stone rim and spectacle leg body layer 7.

The manufacturing method comprises the following steps of adopting a resin frame for injection molding: a. Grinding: illite and hexacyclic stone concentrate are selected and ground by a ball mill, and the particle size of powder reaches below 100 nanometers, so that nanoscale illite powder and hexacyclic stone powder are obtained; b. Injection molding: the resin, the nano illite powder and/or the hexacyclic stone powder are manufactured into a resin spectacle frame by a spectacle frame resin injection molding manufacturing process, namely the spectacle frame consisting of a spectacle ring and a spectacle leg which are integrated by a nose support, namely the spectacle ring and the spectacle leg body layer of the resin, the nano illite powder and/or the hexacyclic stone, wherein the resin spectacle frame contains the nano illite powder and/or the hexacyclic stone powder;

C. coating or film plating: manufacturing a coating or a plating layer on the surface layer of a spectacle frame consisting of a spectacle ring and spectacle legs integrated with a nose support by using a coating process or a film coating process; and after assembly, obtaining the illite hexacyclic stone nanometer negative ion far infrared health care spectacle frame.

Preferably, the coating or plating layer contains nano illite powder and/or hexacyclic stone powder.

Example 5: an illite hexacyclic stone nanometer anion far infrared health care spectacle frame adopts a plate process resin frame: a. Grinding: illite and hexacyclic stone concentrate are selected and ground by a ball mill, and the particle size of powder reaches below 100 nanometers, so that nanoscale illite powder and hexacyclic stone powder are obtained; b. Plate frame: manufacturing resin, nano illite powder and/or hexacyclic stone powder into a resin glasses frame plate by adopting a plate material process, wherein the resin glasses frame plate contains the nano illite powder and/or hexacyclic stone powder; and manufacturing an eyeglass ring and eyeglass legs by using the resin eyeglass frame plate, and assembling to obtain the illite hexacyclic stone nanometer negative ion far infrared health-care eyeglass frame.

Example 6: as shown in fig. 6, the blue-light-proof and ultraviolet-proof resin spectacle lens with the anti-fouling film layer comprises a resin substrate, wherein an ultraviolet-proof area layer 11, a blue-light-proof function area layer 12 and an anti-fog function area layer 13 are sequentially arranged on a convex surface of the resin substrate, an anti-reflection function area layer 9 is respectively arranged on the concave surface and the convex surface of the resin substrate, and an anti-fouling function area film layer 10 is respectively arranged outside the anti-reflection function area layer 9.

Using resin spectacle lens evaporation coating process or ion coating process, sequentially coating the film layers according to the following sequence:

A. the convex surface of the resin substrate is plated with an ultraviolet-proof area layer, namely a full ultraviolet-proof film layer;

B. the convex surface of the resin substrate is plated with an antifogging functional area layer, namely an antifogging film layer;

C. the resin substrate is plated with a blue light prevention functional area layer, namely a blue light prevention film layer, on the convex surface of the resin substrate, wherein the blue light prevention functional area layer comprises a first SiO2 film layer, a ZrO2 film layer, an In2O3 film layer, a Ti2O3 film layer and a second SiO2 film layer which are sequentially arranged;

D. plating an antireflection film layer on the concave surface and the convex surface of the resin substrate respectively;

E. respectively plating an anti-fouling functional area film layer, namely an anti-fouling film layer, on the concave surface and the convex surface of the resin substrate by adopting a vacuum coating process;

F. and obtaining the blue-light-proof and ultraviolet-proof resin spectacle lens with the anti-fouling function.

Example 7: illite hexacyclic stone nanometer anion far infrared health care glasses: namely, glasses are manufactured by using a melamine ceramic-like structure transparent internally-printed health-care glasses frame, a melamine ceramic-like structure coating layer externally-printed health-care glasses frame, a melamine ceramic-like structure concave-convex pattern coating layer health-care glasses frame or a resin injection molding process and a resin plate process, and blue-light-proof and ultraviolet-proof resin glasses lenses with an anti-fouling film layer or existing corrective glasses lenses, sun lenses, driving lenses, eye protection lenses and the like are installed; preferably manufacturing the flat glasses of the illite hexacyclic stone anion far infrared health care glasses frame provided with the blue light-proof and ultraviolet-proof flat glasses lens with the anti-pollution layer.

Claims (3)

1. An illite hexacyclic stone nanometer anion far infrared health care spectacle frame is characterized in that: the glasses ring and the glasses leg body layer (7) are made of resin, nano-scale illite and/or hexacyclic stone, and the coating or the plating layer (8) is arranged outside the glasses ring and the glasses leg body layer (7) of the resin, the nano-scale illite and/or hexacyclic stone.

2. The illite hexacyclic nanometer anion far infrared health care spectacle frame of claim 1, which is characterized in that: the coating or plating layer (8) contains nano-scale illite powder and/or hexacyclic stone powder.

3. Illite hexacyclic stone nanometer anion far infrared health care glasses are characterized in that: glasses manufactured by using the health-care glasses frame of any one of claims 1-2, blue-light-proof and ultraviolet-proof resin glasses lenses provided with an anti-fouling film layer or existing corrective glasses lenses, sun lenses, driver lenses, eye protection lenses and plain glasses lenses;

blue light ultraviolet prevention resin lens of anti-soil rete includes the resin substrate, and the resin substrate convex surface sets gradually anti ultraviolet regional layer (11), prevents blue light functional zone layer (12), antifog functional zone layer (13), and resin substrate concave surface and convex surface set up one deck respectively and subtract regional layer (9) of reflection function, and subtract regional layer (9) of reflection function and set up one deck anti-soil functional zone rete (10) respectively again outward.

Images