CN108563036B - Illite six-ring stone nano negative ion far infrared health-care spectacle frame and spectacles - Google Patents
Illite six-ring stone nano negative ion far infrared health-care spectacle frame and spectacles Download PDFInfo
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- CN108563036B CN108563036B CN201810709713.3A CN201810709713A CN108563036B CN 108563036 B CN108563036 B CN 108563036B CN 201810709713 A CN201810709713 A CN 201810709713A CN 108563036 B CN108563036 B CN 108563036B
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- 239000004575 stone Substances 0.000 title claims abstract description 172
- 229910052900 illite Inorganic materials 0.000 title claims abstract description 170
- VGIBGUSAECPPNB-UHFFFAOYSA-L nonaaluminum;magnesium;tripotassium;1,3-dioxido-2,4,5-trioxa-1,3-disilabicyclo[1.1.1]pentane;iron(2+);oxygen(2-);fluoride;hydroxide Chemical compound [OH-].[O-2].[O-2].[O-2].[O-2].[O-2].[F-].[Mg+2].[Al+3].[Al+3].[Al+3].[Al+3].[Al+3].[Al+3].[Al+3].[Al+3].[Al+3].[K+].[K+].[K+].[Fe+2].O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2.O1[Si]2([O-])O[Si]1([O-])O2 VGIBGUSAECPPNB-UHFFFAOYSA-L 0.000 title claims abstract description 170
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Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C5/00—Constructions of non-optical parts
- G02C5/008—Spectacles frames characterized by their material, material structure and material properties
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29D—PRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
- B29D12/00—Producing frames
- B29D12/02—Spectacle frames
-
- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C13/00—Assembling; Repairing; Cleaning
Landscapes
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Ophthalmology & Optometry (AREA)
- Optics & Photonics (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Eyeglasses (AREA)
- Radiation-Therapy Devices (AREA)
Abstract
The utility model discloses an illite six-ring stone nano negative ion far infrared health-care spectacle frame, which is mainly processed by a melamine porcelain-like process, a spectacle frame injection molding process or a plate process by nano illite six-ring stone nano negative ion far infrared health-care spectacle frame. The glasses frame and the glasses obtained by the utility model can effectively improve and prevent the problems of eye fatigue syndrome such as eye dryness, eye astringency, eye soreness, blurred vision and the like caused by eye sub-health symptoms when people use electronic products such as mobile phone television and the like for a long time for work, life and entertainment.
Description
Technical Field
The utility model relates to the technical field of glasses manufacturing, in particular to an illite hexacyclic stone nano negative ion far infrared health-care glasses frame and glasses.
Background
In the age of rapid development of technology, people cannot leave electronic products such as mobile phones, computers, notebooks, televisions and the like, work, life and entertainment, and all of the electronic products are displayed through a display screen; the working efficiency is improved, and people enjoy entertainment life and simultaneously notice that eyes are hurt by blue light; in the international light association annual meeting in 2010, the world optical specialist consistently states that: short wave blue light has extremely high energy and can penetrate through the crystalline lens to reach the retina; blue light irradiation of the retina produces free radicals which lead to the decay of retinal pigment epithelial cells which lead to the lack of nutrients for photosensitive cells, thus causing vision impairment, and these impairment are irreversible; the blue light prevention health-care glasses are selected to be used, the blue light prevention film pasting treatment is carried out on the glasses, the blue light prevention film pasting technology is mature, and the blue light can be effectively prevented from penetrating; the crowds with sub-health vision and eye fatigue syndrome are greatly increased, the electronic product is used for a long time by people, most people select frame glasses, and the following four defects exist in the existing frame glasses: shortcomings one, the utility model patent (issue number CN 206470488U) claims an ophthalmic lens, the structural layers are: the anti-ultraviolet film layer, the anti-fog film layer and the anti-blue light film substrate are respectively provided with an anti-reflection film layer on the concave surface and the convex surface. The technical problem that the ᅳ anti-fouling film layer is lacked in the spectacle lens is solved, the surface of the spectacle lens is plated with the anti-reflection film layer, namely the spectacle lens with the anti-reflection film layer is particularly easy to produce stains, the stains can destroy the effect of the anti-reflection film, the light transmittance of light is reduced, the stains are easy to infiltrate the anti-fouling film layer, and therefore the anti-fouling film layer is needed to be plated on the spectacle lens with the anti-reflection film layer.
The second disadvantage is that the plate glasses frame has a harder material and is poor in comfort if not properly adjusted; the acid material can not be matched with a lens made of PC material, so that the lens can be cracked; the plate eyeglass frame can be flattened, and is formed by cutting a flat plate, so that adjustment is needed, and the eyeglass legs are shaped by copper cores. The three disadvantages are that the existing spectacle frames only play a role of single support and fixation for the spectacle lenses, most of the spectacle frames have no disadvantage of health care function, the manufacturing technical measures need to be changed, the beneficial effects of the health care function are increased, people need to have the spectacle frames with physical health care function, the existing spectacle frames lack a spectacle frame with illite six-ring stone anion far infrared health care function, and the spectacle frames are provided with the existing corrective spectacle lenses, sunglasses, driving lenses, eye protection lenses and the like. Fourth, the normal vision is we, do not use glasses with health care function, if use electronic products such as mobile phone television for a long time work, life, entertainment, our eyes have vision sub-health symptoms, eye dryness, eye astringency, eye soreness and distention, eye fatigue syndrome such as blurred vision, etc., improve and prevent vision sub-health and eye fatigue syndrome; ᅳ illite hexacyclic stone anion far infrared health care function glasses frames and blue light and ultraviolet ray preventing plano-optic glasses with antifouling function are needed.
The professor Chen Min of the food college of Chinese agricultural university and the professor of the Beijing chemical university can talk in the past, and the qualified melamine tableware is used as a finished product, so that the melamine tableware is safe and can be used safely; because the melamine is used as raw material to produce the porcelain-like tableware, the porcelain-like tableware is a mature process, and is produced by using melamine powder as a base material, the porcelain-like tableware produced according to the national standard of the process has the advantages of high temperature and humidity resistance, solvent resistance and alkali resistance, no fragility, bright color, strong smoothness, and good heat resistance, impact resistance and 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 finish, and the existing eyeglass frame has no melamine porcelain-like structure, so that the manufacturing process of the eyeglass frame needs to be increased or changed.
Illite: the name is given to islets found earliest in the united states. Also called hydromuscovite, english name: ilite. Illite has excellent chemical and physical bacteriostasis such as rich potassium, high aluminum, low iron, smoothness, brightness, fineness, heat resistance and the like; illite can freely release anions and far infrared rays; many international researches prove that the processed illite has extremely strong antibacterial effect and can adsorb various harmful heavy metals and harmful gases; illite, also known as french green mud, is a mineral with extremely high absorption capacity, is a biological mineral, is mainly degraded by plants, and contains calcium, aluminum, magnesium, silicon, phosphorus, copper and zinc; the alternative medicine is considered to be that illite contains various minerals, has great benefits on human health, is the most predominant clay in mud bath therapy, is the main clay raw material for producing traditional ceramics such as a cooking pot, a dish, a ceramic tile and the like, can improve the strength, the chemical stability and the thermal stability of ceramic products, and can adjust the maturation temperature and the rheological property of glaze materials and increase the suspension of glaze slurry; the filler is used for ceramic industry and used as filler in rubber and plastic industry; illite can be used in rubber and plastic industries after beneficiation, crushing and surface modification, and endows materials with the characteristics of low temperature resistance, high thermal stability, flame retardance and good mechanical strength. Six-ring stone produced in Dihuang river basin of inner Mongolia Baotou city, generated in Ornithoid (2 hundred million for 4 million years), belongs to sedimentary rock; the calcite is cut into regular blocks, with periodic precipitation of limonite at the centre of the block to form the now "ring". The stone has the advantages of simple and elegant color, complete and peculiar texture, is similar to a thousand-year old wood annual ring, has various pattern colors, and belongs to rare natural stone in the world. Recent research progresses, and magic hexacyclic stone integrating multiple energies is integrated: 1. Promoting blood circulation and improving microcirculation. 2. Improving oxygen carrying function of red blood cells and reducing blood viscosity. 3. Enhancing and improving immunity and improving resistance to diseases. 4. Has antiaging effect, and can eliminate free radicals in vivo. 5. Eliminating fatigue and promoting physical recovery. 6. Calm the nervous system and eliminate insomnia and mental stress.
The university of Yanshan Li Qingshan teaches that hexacyclic stone also has been found to have a very important property- -release of anions- -studies have shown that: the physicochemical functions of the hexacyclic stone include 1. Release of 4000 anions/cm 3;2. no radioactivity exists; 3. far infrared emission 0.88; hexacyclic stone is a polymer with four large energies which is perfectly created by natural manufacturers, and the four large energies of natural hexacyclic stone: the energy I and the six-ring stone emit far infrared rays. The hexacyclic ring stone emits far infrared rays with the wavelength of 8-15 μm at the ambient temperature of 20 ℃. The effect on human body is: as the vibration frequency of far infrared ray is close to that of cell molecules in human body, after the 'life light wave' permeates into the human body, resonance of atoms and molecules of human body cells can be caused, through resonance absorption, thermal reaction is formed by friction heat generation between molecules, the subcutaneous deep temperature is promoted to rise, micro blood vessels are expanded, blood circulation is accelerated, the removal of vessel accumulation and harmful substances in the human body is facilitated, the tissue is revived again, ferment generation is promoted, and the purposes of activating tissue cells, preventing aging and strengthening the immune system capability are achieved. The energy two-ring stone and the six-ring stone permanently generate anions, and the anions are confirmed to be effective means for killing bacteria and purifying air in the medical field, and the mechanism is mainly that after the anions are combined with bacteria, the bacteria generate structural change or energy transfer, so that the bacteria die and finally sink on the ground; medical research shows that the negatively charged particles in the air increase the oxygen content in the blood, are beneficial to the transportation, absorption and utilization of blood oxygen, and have the effects of promoting metabolism of human bodies, improving the immunity of the human bodies, enhancing the functions of the human bodies and regulating the function balance of the human bodies; the negative ions can strengthen the restoring force and natural healing capacity of the living body, thereby overcoming diseases; the air anions have the effects of tranquilizing, hypnotizing, relieving pain, relieving cough, relieving itching, promoting urination, stimulating appetite and lowering blood pressure; the energy III and hexacyclic stone contains microelements of ' germanium ' and nutrient elements of calcium, magnesium, sodium, potassium, iron, selenium, zinc and the like which are necessary for human bodies, and detection of Qin's island laboratory of the national survey bureau in Hebei province reports that the natural hexacyclic stone contains noble metal of germanium, the content of which is 0.065 cm/; scientific researches show that germanium element mainly can eliminate fatigue, prevent anemia, assist metabolism and the like; germanium 132, spiral germanium and the like have obvious anti-tumor activity and low toxicity, particularly have no advantage of bone marrow toxicity, and have great potential in the aspects of tumor prevention, auxiliary radiotherapy and chemotherapy and the like; the effect on the blood system is mainly represented by stimulating the increase of the quantity of red blood cells and hemoglobin in blood, and has a certain effect on treating anemia; the energy of the stone with four and six rings generates bioelectricity; research shows that the strength of human immunity is closely related to bioelectricity; scientists observe that the emotion of a person is pleasant and happy, the person is inspired, the self-confidence is strong, and the emotion area of the brain can continuously generate special bioelectric current, and the special bioelectric current is transmitted to the brain nerve and the immune system, so that immune cells are active, the phagocytic capacity is enhanced, and invasive bacteria and viruses can be timely and effectively killed. The bioelectric current generated by the emotion region also has the magic effect of inhibiting cancer cells and AIDS, and some cancer patients are not frightened by the cancer, are full of confidence to defeat the cancer, and are full of spirit to live, and can be healed without medicine; in experimental research of air ions, positive ions and negative charged nano ions are found to have great effect on human bodies; the positive ions are more, so that the health-care food has stimulation to human bodies, and is easy to generate restlessness emotion such as vexation, dryness-heat, fatigue and the like; and more negative ions have analgesic, exciting and sterilizing effects; therefore, negative charged nano ions in the air can be used for treating various diseases.
The newly discovered natural mineral hexacyclic stone with the function of releasing anions is prepared into Cheng Chaoxi micro powder, the natural mineral micro powder is subjected to surface modification by using a nonionic surfactant triethanolamine, and the natural mineral micro powder is blended with polyvinyl chloride plastisol to prepare the elastic polyvinyl chloride/hexacyclic stone composite material. By scanning electricityThe modified hexacyclic ring stone particles are uniformly dispersed in the polyvinyl chloride paste resin, the particles are similar to spheres in shape, and most of the particles have the particle size not more than 600 nm. When the mass fraction of the added natural minerals is 3%, the concentration of the negative ions released by the air of the composite material exceeds 1500/cm 3 S, the standard of world health organization is reached. Reference is made to "Chinese plastics 2009 12 phase ISSN: the preparation technology of the metastable material in the science of the core journal Yan Shanda in 1001-9278 and the key laboratory in the science country; wu Shu, li Qingshan, ren Yugong.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provide an illite six-ring stone nano negative ion far infrared health-care spectacle frame and spectacles.
The technical scheme of the invention is as follows:
the illite six-ring stone nano negative ion far infrared health care spectacle frame adopts a melamine porcelain-like structure, and adopts the following three technical schemes:
Technical scheme one (1): the illite six-ring stone nanometer anion far infrared health care spectacle frame consists of melamine, a nano illite and/or six-ring stone spectacle ring and a spectacle leg body layer, a built-in printing layer and a melamine transparent hard film protective layer, wherein the built-in printing layer is arranged outside the melamine, the nano illite and/or six-ring stone spectacle ring and the spectacle leg body layer, and the melamine transparent hard film protective layer is arranged outside the built-in printing layer.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; c. Proportioning and mixing: adding melamine powder, antioxidant, illite powder Li Danfen and/or hexacyclic stone powder and pigment into a stirrer, stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing solidification, namely mixing preheated powderAdding into nose support integrated spectacle ring mould and spectacle leg mould of spectacle frame of melamine forming machine, closing, and maintaining the temperature at 110-185 deg.C, oven drying water, oven drying, and molding and solidifying for the first time under 110-200kgf/cm pressure 2 After the air exhaust and depressurization are carried out for 1-15 minutes, the first mould pressing solidification is completed, and the rough blank of the glasses ring and the glasses leg with various colors of melamine porcelain-like structures, namely the glasses ring and the glasses leg body layer of melamine, nano illite and/or hexacyclic stone, is obtained;
secondary mould pressing solidification and printing: the rough blank of the glasses ring or the glasses leg is not taken out after the mould is opened, melamine pattern paper with various patterns is stuck on the outer side positions of the glasses ring and the glasses leg in the nose support integrated glasses ring mould and the glasses leg mould, and gold powder or silver powder is scattered on the melamine pattern paper or the glasses ring and the glasses leg; the mold closing is continued to start the second mold pressing solidification, the temperature in the mold is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and after the air is exhausted and the pressure is reduced, the secondary mould pressing solidification is completed; opening the mould to obtain the eyeglass ring and eyeglass legs with the built-in printing layers; F. coating: coating melamine powder on the built-in printing layers of the glasses ring and the glasses legs by using a coating process, and drying to obtain a melamine transparent hard film protective layer;
G. and (3) assembling: the method comprises the steps of trimming, polishing, hinging and assembling the glasses ring and the glasses legs of the melamine transparent hard film protective layer to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, wherein the frame is a transparent glasses frame with a melamine porcelain-like structure and internally provided with printing.
According to the technical scheme I (2), the illite hexacyclic stone nanometer negative ion far infrared health-care spectacle frame comprises a melamine, a nano illite and/or hexacyclic stone spectacle ring, a spectacle leg body layer, a coating layer containing melamine and nano illite Li Danfen and/or hexacyclic stone powder and an external printing layer, wherein the coating layer containing melamine and nano illite Li Danfen and/or hexacyclic stone powder is arranged outside the melamine, nano illite and/or hexacyclic stone spectacle ring and spectacle leg body layer, and the external printing layer is arranged outside the coating layer containing melamine and nano illite Li Danfen and/or hexacyclic stone powder.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing and solidifying, namely adding the preheated powder mixture into a nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, closing the mould, and then keeping the mould at the temperature of 110-185 ℃ without pressurizing, drying water, and starting the first mould pressing and solidifying after drying, wherein the pressure is 110-200kgf/cm 2 The time is 1-15 minutes, the one-time mould pressing solidification is completed, and the mould is not opened; the second mould pressing solidification is started after the exhaust pressure is reduced for 10 to 30 seconds, the temperature in the mould is 30 to 110 ℃ and the pressure is 90 to 190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out the glasses ring and the glasses legs to obtain coarse blanks of the glasses ring and the glasses legs with melamine porcelain-like structures, namely glasses rings and glasses leg body layers of melamine, nano illite and/or hexacyclic stone; F. coating: coating melamine powder and nano-grade illite Li Danfen 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-grade illite Li Danfen and/or hexacyclic stone powder;
G. printing: adhering melamine pattern paper to the coated glasses ring and glasses leg, reloading into a nose support integrated glasses ring mould and glasses leg mould, closing mould, pressurizing and printing, wherein the temperature in the mould is 30-110 ℃, and the pressure is 60-190kgf/cm 2 The time is 10-30 seconds, after the air is exhausted and the pressure is reduced, the die is opened, and the spectacle ring and the spectacle legs with the external printing layers are obtained;
H. and (3) assembling: the external printed glasses ring and the external printed glasses leg are trimmed, polished, hinged and assembled to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, namely the external printed health-care glasses frame with the melamine porcelain-like structure coating layer.
According to the technical scheme I (3), the illite six-ring stone nano negative ion far infrared health-care spectacle frame consists of melamine, a nano illite and/or six-ring stone spectacle ring, a spectacle leg body layer, a nano illite and/or six-ring stone spectacle ring and a spectacle leg concave-convex pattern coating, wherein the nano illite and/or six-ring stone spectacle ring and the spectacle leg body layer are externally provided with the nano illite and/or six-ring stone spectacle ring and the spectacle leg concave-convex pattern coating.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the spectacle frame, and manufacturing a nose support integrated spectacle ring mould and a spectacle leg mould with concave-convex patterns;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing solidification, namely adding the preheated powder mixture into a concave-convex pattern type nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, closing the mould, and then, keeping the mould at a heating temperature of 30-90 ℃, drying water, and after drying, starting the first mould pressing solidification forming, wherein the temperature in the mould is 110-185 ℃ and the pressure is 110-200kgf/cm 2 The time is 1-15 minutes, the one-time mould pressing solidification is completed, and the mould is not opened; and (3) secondary mould pressing and curing: after the pressure is reduced for 10-30 seconds by exhausting, the second mould pressing solidification is started, the temperature in the mould is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out rough blanks of the concave-convex flower type nose support integrated spectacle ring and the spectacle legs, namely the spectacle ring and the spectacle leg body layer of the melamine, the nano illite and/or the hexacyclic stone; F. plating: coating the nano illite powder and the nano illite powder by using a coating processOr the six-ring stone powder is plated on the surfaces of the melamine eye ring and the glasses leg body layer, and then the nano illite and/or six-ring stone eye ring and the concave-convex pattern type plating layer of the glasses leg are obtained;
G. and (3) assembling: the coated glasses ring and glasses legs are trimmed, polished, hinged and assembled to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, namely the melamine porcelain-like structure concave-convex flower-type coated health-care glasses frame.
The invention can also adopt the following technical scheme:
according to the technical scheme II, the illite six-ring stone nano negative ion far infrared health-care spectacle frame consists of resin, a nano illite and/or six-ring stone spectacle ring and a spectacle leg body layer, a coating or a plating layer, wherein the resin, the nano illite and/or six-ring stone spectacle ring and the spectacle leg body layer are externally provided with the coating or the plating layer.
The manufacturing method is that the illite six-ring stone nano negative ion far infrared health care spectacle frame adopts resin frame injection molding: A. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; b. Injection molding: resin, nano illite and/or hexacyclic stone powder are manufactured into a resin spectacle frame by a spectacle frame resin injection molding manufacturing process, namely a spectacle frame formed by a spectacle ring and a spectacle leg integrated with a nose pad, namely a spectacle ring and a spectacle leg body layer of the resin, nano illite and/or hexacyclic stone, wherein the resin spectacle frame contains nano illite powder and/or hexacyclic stone powder;
C. coating or filming: a coating or plating layer is manufactured on the surface layer of the glasses frame formed by the glasses ring and the glasses legs which are integrated with the nose pad by using a coating process or a plating process; after assembly, the illite six-ring stone nano negative ion far infrared health care spectacle frame is obtained.
Preferably, the coating or plating contains nano illite powder and/or hexacyclic powder.
The invention can also adopt the following technical scheme:
according to the technical scheme III, the illite six-ring stone nano negative ion far infrared health-care spectacle frame adopts a plate process resin frame: A. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; b. And (3) a plate frame: resin, nano-level illite powder Li Danfen and/or hexacyclic stone powder are manufactured into a resin spectacle frame plate by adopting a plate process, wherein the resin spectacle frame plate contains nano-level illite powder and/or hexacyclic stone powder; and manufacturing an output eye ring and eye legs by using the resin eye frame plate, and assembling to obtain the illite six-ring stone nano negative ion far infrared health care eye frame.
The blue light-proof ultraviolet-proof resin spectacle lens of the anti-fouling film layer comprises a resin substrate, wherein an ultraviolet-proof area layer, a blue light-proof functional area layer and an anti-fog functional area layer are sequentially arranged on the convex surface of the resin substrate, an antireflection functional area layer is respectively arranged on the concave surface and the convex surface of the resin substrate, and an anti-fouling functional area film layer is respectively arranged outside the antireflection functional area layer.
The resin spectacle lens evaporation coating process or the ion coating process is used for coating the layers in sequence 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. an antifogging function area layer, namely an antifogging film layer, is plated on the convex surface of the resin substrate;
C. the blue light prevention functional area layer is plated on the convex surface of the resin substrate and 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. respectively plating an antireflection film layer on the concave surface and the convex surface of the resin substrate;
E. the vacuum coating process is adopted, and a layer of anti-fouling functional area film layer, namely an anti-fouling film layer, is respectively coated on the concave surface and the convex surface of the resin substrate;
F. obtain the blue light-proof ultraviolet-proof resin spectacle lens with the anti-fouling function.
Illite six-ring stone nano negative ion far infrared health care glasses: namely, a melamine porcelain-like structure transparent internally-printed health-care spectacle frame, a melamine porcelain-like structure coating printed health-care spectacle frame, a melamine porcelain-like structure concave-convex flower type coating health-care spectacle frame or a resin injection molding process and a resin plate process are used for manufacturing the health-care spectacle frame, and blue light and ultraviolet-proof resin spectacle lenses with anti-fouling film layers or the prior corrective spectacle lenses, sunglasses, driving lenses, protective lenses and the like are arranged for manufacturing the spectacles; it is preferable to manufacture a flat glasses of blue-light-proof ultraviolet-proof flat glasses lens with an anti-smut layer mounted on an illite hexacyclic stone anion far infrared health glasses frame.
The invention has the advantages that:
1. the melamine ceramic-like structure eyeglass frame adopts a die hot-press molding process, is safe, nontoxic and odorless, has good corrosion resistance, stable chemical property, strong wear resistance, firm and difficult to break, and is durable; the product has smooth surface and good comfort; the color is bright and beautiful; the melamine porcelain-like structure eyeglass frame can use the PC-made lenses, so that the problem that the acid plate eyeglass frame cannot use the PC-made lenses is solved; the problem that copper cores are necessary to be inserted into the plate eyeglass frame is solved, and copper cores are not inserted into eyeglass legs of the melamine porcelain-like structure and cannot be flattened; raw materials are saved, working procedures are reduced, and labor and material cost are reduced; the raw materials of the melamine porcelain-imitating spectacle frame are all commercial products, the production is fast, the machine production is mainly, and the labor intensity is low; 2. the formula of the glasses frame is added with illite, and the illite can freely release anions and far infrared rays; illite contains various minerals, contains calcium, aluminum, magnesium, silicon, phosphorus, copper and zinc, has many benefits on human health, has extremely strong antibacterial effect, and has the characteristics of low temperature resistance, high thermal stability, flame retardance and good mechanical strength; illite can improve the strength, chemical stability and thermal stability of the eyeglass frame;
3. The formula of the glasses frame is added with hexacyclic stone, the hexacyclic stone permanently generates anions, and the healthcare function of the anions has the functions of improving the immunity, enhancing the functions and regulating the function balance of the human body; the negative ions can strengthen the restoring force and natural healing capacity of the living body, thereby overcoming the eye fatigue syndrome; far infrared rays with the wavelength of 8-15 mu m are emitted at the temperature of 20 ℃ to cause resonance of atoms and molecules of human cells, and through resonance absorption, thermal reaction is formed by friction heat generation among the molecules, so that the temperature of subcutaneous deep layers is promoted to rise, micro blood vessels are expanded, blood circulation is accelerated, the removal of vessel accumulation and harmful substances of tissues around eyes is facilitated, and the tissues are revived again; the hexacyclic ring stone contains trace elements of 'germanium', and nutrient elements such as calcium, magnesium, sodium, potassium, iron, selenium, zinc and the like which are necessary for human bodies, wherein the germanium element mainly can eliminate fatigue, help metabolism and the like; the hexacyclic ring stone generates bioelectricity and negatively charged nano ions, and has the effects of easing pain, exciting, sterilizing and the like; therefore, negative charge nano ions in the air can be utilized to carry out health care rehabilitation physiotherapy on various vision sub-health diseases; promoting blood circulation of tissue around eyes, improving microcirculation state, improving oxygen carrying function of red blood cells, reducing blood viscosity, relieving fatigue, promoting vision recovery, tranquilizing nervous system, and relieving insomnia and mental stress;
4. The illite and/or hexacyclic stone nano health-care spectacle frame adopts an injection molding manufacturing process, is suitable for batch production, has good quality, high yield and low cost, adopts raw materials which are all commercial products, is quick to put into production, and has low labor intensity, and the machine production is mainly; 5. the illite and/or hexacyclic stone nanometer health-care spectacle 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 middle-high grade fashion product;
6. the anti-blue light ultraviolet-proof resin spectacle lens with the anti-fouling film layer is coated on the surface, the anti-reflection film, namely, the lens with the anti-reflection film, is particularly easy to produce stains, the stains can destroy the effect of the anti-reflection film, the light transmittance of light is reduced, the stains can easily infiltrate the anti-reflection film layer, the anti-fouling film layer is coated with the anti-fouling film with the anti-fouling and water-resistant properties, the optical properties of the anti-reflection film cannot be changed, the anti-fouling film covers the anti-fouling film layer, the contact area between water and oil and the lens can be reduced, and oil and water drops are not easy to adhere to the surface of the lens;
7. the illite hexacyclic stone anion far infrared health care glasses are used, and the glasses are blue light-proof, ultraviolet-proof, fog-proof, stain-proof, not easy to dirty and easy to clean; the frame permanently generates anions and far infrared rays, is favorable for the restoring force and natural healing capacity of eyes and surrounding tissues, promotes metabolism, eliminates vascular stores and harmful substances, improves microcirculation state, improves the oxygen carrying function of red blood cells, has natural antibacterial and bacteriostatic effects, is favorable for eye health, prevents eye diseases, contains germanium elements to eliminate fatigue, helps metabolism, and has bioelectricity and negatively charged nano ions so as to make the emotion of a person pleasant and inspired; the illite hexacyclic ion far infrared health-care glasses can effectively solve and prevent the problems of eye fatigue syndrome such as dry eyes, eye astringency, eye acid swelling, blurred vision and the like when people use electronic products such as mobile phone television and the like for working, living and entertaining for a long time.
Fig. 1 is a schematic view of a frame structure of glasses of the present invention;
FIG. 2 is a view A-A of FIG. 1 of example 1;
FIG. 3 is a view A-A of FIG. 1 of example 2;
FIG. 4 is a view A-A of FIG. 1 of example 3;
FIG. 5 is a view A-A of FIG. 1 of example 4;
FIG. 6 is a schematic view of the ophthalmic lens structure of the present invention;
in the figure: 1. glasses ring and glasses leg body layer of melamine, nano illite and/or hexacyclic stone; 2. a printing layer; 3. a melamine transparent hard film protective layer; 4. a coating layer comprising melamine and nano-scale i Li Danfen and/or hexacyclic stone powder; 5. an external printing layer; 6. concave-convex pattern type plating layers of the eyeglass ring and the eyeglass leg of the nanoscale illite and/or hexacyclic stone; 7. spectacle rings and earpiece body layers of resin, nanoscale 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-proof region layer; 12. blue light preventing functional area layer; 13. an anti-fog functional area layer.
The invention is further described below with reference to the drawings.
Example 1: as shown in fig. 1 and 2, the illite six-ring stone nano negative ion far infrared health care spectacle frame is composed of melamine, a nano illite and/or six-ring stone spectacle ring and spectacle leg body layer 1, a built-in printing layer 2 and a melamine transparent hard film protective layer 3, wherein the melamine, nano illite and/or six-ring stone spectacle ring and spectacle leg body layer 1 are provided with the built-in printing layer 2, and the built-in printing layer 2 is provided with the melamine transparent hard film protective layer 3.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; c. Proportioning and mixing: adding melamine powder, antioxidant, illite powder Li Danfen and/or hexacyclic stone powder and pigment into a stirrer, stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing and solidifying, namely adding the preheated powder mixture into a nose support integrated spectacle ring mould and a spectacle leg mould of a spectacle frame of a melamine forming machine, closing the mould, and then keeping the mould at the temperature of 110-185 ℃, drying water, and beginning to mould pressing and solidifying for the first time after drying, wherein the pressure is 110-200kgf/cm 2 After the air exhaust and depressurization are carried out for 1-15 minutes, the first mould pressing solidification is completed, and the rough blank of the glasses ring and the glasses leg with various colors of melamine porcelain-like structures, namely the glasses ring and the glasses leg body layer of melamine, nano illite and/or hexacyclic stone, is obtained;
Secondary mould pressing solidification and printing: the rough blank of the glasses ring or the glasses leg is not taken out after the mould is opened, melamine pattern paper with various patterns is stuck on the outer side positions of the glasses ring and the glasses leg in the nose support integrated glasses ring mould and the glasses leg mould, and gold powder or silver powder is scattered on the melamine pattern paper or the glasses ring and the glasses leg; the mold closing is continued to start the second mold pressing solidification, the temperature in the mold is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and after the air is exhausted and the pressure is reduced, the secondary mould pressing solidification is completed; opening the die to obtain the built-in printingLayer eye ring and arm; the secondary mould pressing solidification effect ensures that the components of the melamine, the nano illite and the hexacyclic stone are stable and have excellent performance; f. Coating: the melamine powder is coated on the built-in printing layers of the glasses ring and the glasses legs by using a coating process, and is dried to obtain a melamine transparent hard film protective layer, so that the corrosion resistance and scratch resistance of the glasses frame are enhanced, and the visual effect is fashionable and bright and the color is bright;
G. and (3) assembling: the method comprises the steps of trimming, polishing, hinging and assembling the glasses ring and the glasses legs of the melamine transparent hard film protective layer to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, wherein the frame is a transparent glasses frame with a melamine porcelain-like structure and internally provided with printing.
Example 2: as shown in fig. 1 and 3, the illite six-ring stone nano negative ion far infrared health care glasses frame is composed of a melamine, a nano illite and/or six-ring stone glasses ring and glasses leg body layer 1, a melamine and nano illite Li Danfen and/or six-ring stone powder containing coating layer 4 and an external printing layer 5, wherein the melamine, nano illite and/or six-ring stone glasses ring and glasses leg body layer 1 is externally provided with the melamine and nano illite Li Danfen and/or six-ring stone powder containing coating layer 4, and the melamine and nano illite Li Danfen and/or six-ring stone powder containing coating layer 4 is externally provided with the external printing layer 5.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing solidification, namely adding the preheated powder mixture into a nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, wherein after mould closing, no pressure is applied, and the temperature in the mould is 110-18 Drying at 5 deg.C, and after drying, starting to mold and solidify for the first time under 110-200kgf/cm 2 The time is 1-15 minutes, the one-time mould pressing solidification is completed, and the mould is not opened; the second mould pressing solidification is started after the exhaust pressure is reduced for 10 to 30 seconds, the temperature in the mould is 30 to 110 ℃ and the pressure is 90 to 190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out the glasses ring and the glasses legs to obtain coarse blanks of the glasses ring and the glasses legs with melamine porcelain-like structures, namely glasses rings and glasses leg body layers of melamine, nano illite and/or hexacyclic stone; the secondary mould pressing solidification effect ensures that the components of melamine, illite and hexacyclic stone are stable and have excellent performance; f. Coating: coating melamine powder and nano-grade illite Li Danfen 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-grade illite Li Danfen and/or hexacyclic stone powder; the coating layer enhances the anion far infrared health care function of the glasses frame, wherein the illite six and/or the annular stone material increases the antibacterial and bacteriostatic functions, the corrosion resistance and the scratch resistance of the surface layer of the glasses frame;
G. printing: adhering melamine pattern paper to the coated glasses ring and glasses leg, reloading into a nose support integrated glasses ring mould and glasses leg mould, closing mould, pressurizing and printing, wherein the temperature in the mould is 30-110 ℃, and the pressure is 60-190kgf/cm 2 The time is 10-30 seconds, after the air is exhausted and the pressure is reduced, the die is opened, and the spectacle ring and the spectacle legs with the external printing layers are obtained;
H. and (3) assembling: the external printed glasses ring and the external printed glasses leg are trimmed, polished, hinged and assembled to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, namely the external printed health-care glasses frame with the melamine porcelain-like structure coating layer.
Example 3: as shown in fig. 1 and fig. 4, the illite six-ring stone nano negative ion far infrared health care spectacle frame is composed of melamine, nano illite and/or six-ring stone spectacle rings, a spectacle leg body layer 1, nano illite and/or six-ring stone spectacle rings and a spectacle leg concave-convex pattern plating layer 6, wherein nano illite and/or six-ring stone spectacle rings and a spectacle leg body layer 1 are externally provided with nano illite and/or six-ring stone spectacle rings and spectacle leg concave-convex pattern plating layers 6.
The manufacturing method comprises the following steps:
A. opening a mould, namely designing the appearance style of the spectacle frame, and manufacturing a nose support integrated spectacle ring mould and a spectacle leg mould with concave-convex patterns;
B. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes; E. mould pressing solidification, namely adding the preheated powder mixture into a concave-convex pattern type nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, closing the mould, and then, keeping the mould at a heating temperature of 30-90 ℃, drying water, and after drying, starting the first mould pressing solidification forming, wherein the temperature in the mould is 110-185 ℃ and the pressure is 110-200kgf/cm 2 The time is 1-15 minutes, the one-time mould pressing solidification is completed, and the mould is not opened; and (3) secondary mould pressing and curing: after the pressure is reduced for 10-30 seconds by exhausting, the second mould pressing solidification is started, the temperature in the mould is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out rough blanks of the concave-convex flower type nose support integrated spectacle ring and the spectacle legs, namely the spectacle ring and the spectacle leg body layer of the melamine, the nano illite and/or the hexacyclic stone; the secondary mould pressing solidification effect stabilizes the melamine stress; f. Plating: coating nano illite powder and/or hexacyclic stone powder on the surfaces of the melamine eye ring and the glasses leg body layer by using a coating process, and drying to obtain concave-convex pattern type coatings of the nano illite and/or hexacyclic stone eye ring and the glasses leg; the coating has the anion far infrared health care function, wherein illite and/or hexacyclic stone increase the antibacterial and bacteriostatic functions, the corrosion resistance and the scratch resistance of the glasses frame;
G. and (3) assembling: the coated glasses ring and glasses legs are trimmed, polished, hinged and assembled to obtain the illite six-ring stone nano negative ion far infrared health-care glasses frame, namely the melamine porcelain-like structure concave-convex flower-type coated health-care glasses frame.
Example 4 As shown in figures 1 and 5, the illite six-ring stone nano negative ion far infrared health care spectacle frame consists of a resin, a nano illite and/or six-ring stone spectacle ring and a spectacle leg body layer 7, a coating or plating layer 8, and the coating or plating layer 8 is arranged outside the resin, the nano illite and/or six-ring stone spectacle ring and the spectacle leg body layer 7.
The manufacturing method is that the illite six-ring stone nano negative ion far infrared health care spectacle frame adopts resin frame injection molding: A. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; b. Injection molding: resin, nano illite and/or hexacyclic stone powder are manufactured into a resin spectacle frame by a spectacle frame resin injection molding manufacturing process, namely a spectacle frame formed by a spectacle ring and a spectacle leg integrated with a nose pad, namely a spectacle ring and a spectacle leg body layer of the resin, nano illite and/or hexacyclic stone, wherein the resin spectacle frame contains nano illite powder and/or hexacyclic stone powder;
C. coating or filming: a coating or plating layer is manufactured on the surface layer of the glasses frame formed by the glasses ring and the glasses legs which are integrated with the nose pad by using a coating process or a plating process; after assembly, the illite six-ring stone nano negative ion far infrared health care spectacle frame is obtained.
Preferably, the coating or plating contains nano illite powder and/or hexacyclic powder.
Example 5: an illite six-ring stone nano negative ion far infrared health care spectacle frame adopts a plate process resin frame: A. grinding: selecting illite and hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and hexacyclic stone powder; b. And (3) a plate frame: resin, nano-level illite powder Li Danfen and/or hexacyclic stone powder are manufactured into a resin spectacle frame plate by adopting a plate process, wherein the resin spectacle frame plate contains nano-level illite powder and/or hexacyclic stone powder; and manufacturing an output eye ring and eye legs by using the resin eye frame plate, and assembling to obtain the illite six-ring stone nano negative ion far infrared health care eye frame.
Example 6: as shown in fig. 6, the blue light-proof and ultraviolet-proof resin spectacle lens of the anti-fouling film layer comprises a resin substrate, wherein an ultraviolet-proof area layer 11, a blue light-proof functional area layer 12 and an anti-fog functional area layer 13 are sequentially arranged on the convex surface of the resin substrate, an anti-reflection functional area layer 9 is respectively arranged on the concave surface and the convex surface of the resin substrate, and an anti-fouling functional area film layer 10 is respectively arranged outside the anti-reflection functional area layer 9.
The resin spectacle lens evaporation coating process or the ion coating process is used for coating the layers in sequence 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. an antifogging function area layer, namely an antifogging film layer, is plated on the convex surface of the resin substrate;
C. the blue light prevention functional area layer is plated on the convex surface of the resin substrate and 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. respectively plating an antireflection film layer on the concave surface and the convex surface of the resin substrate;
E. the vacuum coating process is adopted, and a layer of anti-fouling functional area film layer, namely an anti-fouling film layer, is respectively coated on the concave surface and the convex surface of the resin substrate;
F. obtain the blue light-proof ultraviolet-proof resin spectacle lens with the anti-fouling function.
Example 7: illite six-ring stone nano negative ion far infrared health care glasses: namely, a transparent internally printed health-care spectacle frame with a melamine porcelain-like structure, a printed health-care spectacle frame with an external melamine porcelain-like structure coating layer, a health-care spectacle frame with a melamine porcelain-like structure concave-convex flower type coating layer, or a health-care spectacle frame manufactured by a resin injection molding process and a resin plate process, wherein a blue light and ultraviolet-proof resin spectacle lens with an anti-fouling film layer or an existing corrective spectacle lens, a sunglass lens, a driving lens, a protective spectacle lens and the like are arranged to manufacture spectacles; it is preferable to manufacture a flat glasses of blue-light-proof ultraviolet-proof flat glasses lens with an anti-smut layer mounted on an illite hexacyclic stone anion far infrared health glasses frame.
Claims (4)
1. A method for preparing illite and/or hexacyclic stone nano negative ion far infrared health care spectacle frames is characterized by comprising the following steps,
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. grinding: selecting illite and/or hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and/or hexacyclic stone powder;
C. proportioning and mixing: adding melamine powder, antioxidant, illite powder Li Danfen and/or hexacyclic stone powder and pigment into a stirrer, stirring and mixing;
D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes;
E. mould pressing and solidifying, namely adding the preheated powder mixture into a nose support integrated spectacle ring mould and a spectacle leg mould of a spectacle frame of a melamine forming machine, closing the mould, and then keeping the mould at the temperature of 110-185 ℃, drying water, and beginning to mould pressing and solidifying for the first time after drying, wherein the pressure is 110-200kgf/cm 2 After the air exhaust and depressurization are carried out for 1-15 minutes, the first mould pressing solidification is completed, and the rough blank of the glasses ring and the glasses leg with various colors of melamine porcelain-like structures, namely the glasses ring and the glasses leg body layer of melamine, nano illite and/or hexacyclic stone, is obtained; secondary mould pressing solidification and printing: the rough blank of the glasses ring or the glasses leg is not taken out after the mould is opened, melamine stained paper with various patterns is stuck on the outer side positions of the glasses ring and the glasses leg in the nose support integrated glasses ring mould and the glasses leg mould, and gold powder or silver powder is scattered on the melamine stained paper or the glasses ring and the glasses leg; the mold closing is continued to start the second mold pressing solidification, the temperature in the mold is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and after the air is exhausted and depressurized, the second timeThe mould pressing solidification is completed; opening the mould to obtain the eyeglass ring and eyeglass legs with the built-in printing layers;
F. coating: coating melamine powder on the built-in printing layers of the glasses ring and the glasses legs by using a coating process, and drying to obtain a melamine transparent hard film protective layer;
G. and (3) assembling: trimming, polishing, hinging and assembling the glasses ring and the glasses legs of the melamine transparent hard film protective layer to obtain an illite and/or hexacyclic stone nano negative ion far infrared health-care glasses frame, wherein the frame is a transparent internally-arranged printed glasses frame with a melamine porcelain-like structure; the frame consists of a glasses ring and glasses leg body layer (1) of melamine, nano 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 glasses ring and glasses leg body layer (1) of the melamine, nano illite and/or hexacyclic stone, and the melamine transparent hard film protective layer (3) is arranged outside the built-in printing layer (2).
2. A method for preparing illite and/or hexacyclic stone nano negative ion far infrared health care spectacle frames is characterized by comprising the following steps,
A. opening a mould, namely designing the appearance style of the glasses frame and manufacturing a nose support integrated glasses ring mould and a glasses leg mould;
B. Grinding: selecting illite and/or hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and/or hexacyclic stone powder;
C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing; D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes;
E. mould pressing and solidifying, namely adding the preheated powder mixture into a nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, closing the mould, and then keeping the mould at the temperature of 110-185 ℃ without pressurizing, drying water, and starting the first mould pressing and solidifying after drying, wherein the pressure is 110-200kgf/cm 2 The time is1-15 minutes, one-time mould pressing solidification is completed, and the mould is not opened; the second mould pressing solidification is started after the exhaust pressure is reduced for 10 to 30 seconds, the temperature in the mould is 30 to 110 ℃ and the pressure is 90 to 190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out the glasses ring and the glasses legs to obtain coarse blanks of the glasses ring and the glasses legs with melamine porcelain-like structures, namely glasses rings and glasses leg body layers of melamine, nano illite and/or hexacyclic stone;
F. Coating: coating melamine powder and nano-grade illite Li Danfen 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-grade illite Li Danfen and/or hexacyclic stone powder;
G. printing: adhering melamine pattern paper to the coated glasses ring and glasses leg, reloading into a nose support integrated glasses ring mould and glasses leg mould, closing mould, pressurizing and printing, wherein the temperature in the mould is 30-110 ℃, and the pressure is 60-190kgf/cm 2 The time is 10-30 seconds, after the air is exhausted and the pressure is reduced, the die is opened, and the spectacle ring and the spectacle legs with the external printing layers are obtained;
H. and (3) assembling: trimming, polishing, hinging and assembling the glasses ring and the glasses legs of the externally arranged printing layer to obtain the illite and/or hexacyclic stone nano negative ion far infrared health-care glasses frame, wherein the frame is a health-care glasses frame with a melamine porcelain-like structure and externally arranged printing coating layers; the frame consists of a melamine, nano illite and/or hexacyclic stone spectacle ring and spectacle leg body layer (1), a coating layer (4) containing melamine and nano illite Li Danfen and/or hexacyclic stone powder and an external printing layer (5), wherein the coating layer (4) containing melamine and nano illite Li Danfen and/or hexacyclic stone powder is arranged outside the melamine, nano illite and/or hexacyclic stone spectacle ring and spectacle leg body layer (1), and the external printing layer (5) is arranged outside the coating layer (4) containing melamine and nano illite Li Danfen and/or hexacyclic stone powder.
3. A method for preparing illite and/or hexacyclic stone nano negative ion far infrared health care spectacle frames is characterized by comprising the following steps,
A. opening a mould, namely designing the appearance style of the spectacle frame, and manufacturing a nose support integrated spectacle ring mould and a spectacle leg mould with concave-convex patterns;
B. grinding: selecting illite and/or hexacyclic stone concentrate, grinding by using a ball mill, wherein the particle size of the powder is less than 100 nanometers, and obtaining nano illite powder and/or hexacyclic stone powder;
C. mixing, namely adding melamine powder, an antioxidant, and/or the illite powder Li Danfen and/or the hexacyclic powder into a stirrer, and stirring and mixing;
D. preheating, namely adding the powder mixture into a high-frequency machine to perform uniform preheating; the temperature in the machine is 60-90 ℃ and the preheating time is 3-15 minutes;
E. mould pressing solidification, namely adding the preheated powder mixture into a concave-convex pattern type nose support integrated spectacle ring mould and a spectacle leg mould of a melamine forming machine, closing the mould, and then, keeping the mould at a heating temperature of 30-90 ℃, drying water, and after drying, starting the first mould pressing solidification forming, wherein the temperature in the mould is 110-185 ℃ and the pressure is 110-200kgf/cm 2 The time is 1-15 minutes, the one-time mould pressing solidification is completed, and the mould is not opened; and (3) secondary mould pressing and curing: after the pressure is reduced for 10-30 seconds by exhausting, the second mould pressing solidification is started, the temperature in the mould is 30-110 ℃, and the pressure is 90-190kgf/cm 2 The time is 30 seconds to 5 minutes, and the second mould pressing is completed; opening the mould, and taking out rough blanks of the concave-convex flower type nose support integrated glasses ring and glasses legs, namely glasses ring and glasses leg body layers of melamine, nano illite and/or hexacyclic stone;
F. plating: coating nano illite powder and/or hexacyclic stone powder on the surfaces of the melamine eye ring and the glasses leg body layer by using a coating process, and drying to obtain concave-convex pattern type coatings of the nano illite and/or hexacyclic stone eye ring and the glasses leg;
G. and (3) assembling: trimming, polishing, hinging and assembling the coated glasses ring and the glasses legs to obtain the illite and/or hexacyclic stone nano negative ion far infrared health-care glasses frame, wherein the frame is a melamine porcelain-like structure concave-convex flower-type coated health-care glasses frame; the frame consists of melamine, a spectacle ring of nano illite and/or hexacyclic stone and a spectacle leg body layer (1), a spectacle ring of nano illite and/or hexacyclic stone and a concave-convex pattern coating (6) of the spectacle leg, wherein the spectacle ring of nano illite and/or hexacyclic stone and the spectacle leg body layer (1) are externally provided with the spectacle ring of nano illite and/or hexacyclic stone and the concave-convex pattern coating (6) of the spectacle leg.
4. Illite six-ring stone nanometer negative ion far infrared health care glasses, its characterized in that: a spectacle frame produced by the method for producing a health spectacle frame according to any one of claims 1 to 3, a blue light-proof ultraviolet-proof resin spectacle lens provided with an anti-staining film layer or a conventional corrective spectacle lens, sunglasses, driving lenses, eye protection lenses, plano-optic spectacle lenses;
the blue light-proof and ultraviolet-proof resin spectacle lens of the anti-pollution film layer comprises a resin substrate, wherein an ultraviolet-proof area layer (11), a blue light-proof functional area layer (12) and an anti-fog functional area layer (13) are sequentially arranged on the convex surface of the resin substrate, an anti-reflection functional area layer (9) is respectively arranged on the concave surface and the convex surface of the resin substrate, and an anti-pollution functional area film layer (10) is respectively arranged outside the anti-reflection functional area layer (9).
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| CN113281911B (en) * | 2021-06-03 | 2022-11-22 | 四川泽南世家生物科技有限公司 | Health-care spectacle frame containing trace elements |
| CN115104824A (en) * | 2022-06-28 | 2022-09-27 | 浙江财风旺起科技有限公司 | Manufacturing method of novel energy pendant |
Citations (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1760289A (en) * | 2004-10-14 | 2006-04-19 | 大连振邦氟涂料股份有限公司 | Emulsion coating of negative ion and preparation method |
| CN101575190A (en) * | 2008-05-05 | 2009-11-11 | 张金玲 | Multifunctional pyranoid stone master batch for releasing negative ions and transmitting far infrared rays |
| KR20120079576A (en) * | 2011-01-05 | 2012-07-13 | 박주영 | Manufacturing method of spectacles frame using a illite powder injection molding |
| CN103746131A (en) * | 2014-01-17 | 2014-04-23 | 三峡大学 | Composite bipolar plate for PEM (proton exchange membrane) fuel battery and preparation method thereof |
| CN103827734A (en) * | 2011-10-03 | 2014-05-28 | 三菱瓦斯化学株式会社 | Polarized mirrored glasses lens |
| CN104354256A (en) * | 2014-10-13 | 2015-02-18 | 扬州永鑫绝缘除尘设备厂 | Production method of mold pressed product |
| CN106660280A (en) * | 2014-04-09 | 2017-05-10 | 意大利霞飞诺生产公司 | A method of making frame components for spectacles and a component made by this method |
| WO2017097268A1 (en) * | 2015-12-10 | 2017-06-15 | 朱晓燕 | Lightweight porous melamine resin overrun capture material and preparation process therefor |
| CN206470488U (en) * | 2016-10-25 | 2017-09-05 | 吴铭仁 | A kind of negative ion health glasses |
| CN107718610A (en) * | 2016-08-11 | 2018-02-23 | 鸿富锦精密工业(深圳)有限公司 | Eye lens and preparation method thereof |
| CN213023796U (en) * | 2018-07-02 | 2021-04-20 | 尹昭军 | Illite hexacyclic stone nanometer negative ion far infrared health care spectacle frame and spectacles |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20150251384A1 (en) * | 2012-10-12 | 2015-09-10 | E.I.Du Pont De Nemours And Company | Glass laminates with nanofilled ionomer interlayers |
-
2018
- 2018-07-02 CN CN201810709713.3A patent/CN108563036B/en active Active
Patent Citations (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1760289A (en) * | 2004-10-14 | 2006-04-19 | 大连振邦氟涂料股份有限公司 | Emulsion coating of negative ion and preparation method |
| CN101575190A (en) * | 2008-05-05 | 2009-11-11 | 张金玲 | Multifunctional pyranoid stone master batch for releasing negative ions and transmitting far infrared rays |
| KR20120079576A (en) * | 2011-01-05 | 2012-07-13 | 박주영 | Manufacturing method of spectacles frame using a illite powder injection molding |
| CN103827734A (en) * | 2011-10-03 | 2014-05-28 | 三菱瓦斯化学株式会社 | Polarized mirrored glasses lens |
| CN103746131A (en) * | 2014-01-17 | 2014-04-23 | 三峡大学 | Composite bipolar plate for PEM (proton exchange membrane) fuel battery and preparation method thereof |
| CN106660280A (en) * | 2014-04-09 | 2017-05-10 | 意大利霞飞诺生产公司 | A method of making frame components for spectacles and a component made by this method |
| CN104354256A (en) * | 2014-10-13 | 2015-02-18 | 扬州永鑫绝缘除尘设备厂 | Production method of mold pressed product |
| WO2017097268A1 (en) * | 2015-12-10 | 2017-06-15 | 朱晓燕 | Lightweight porous melamine resin overrun capture material and preparation process therefor |
| CN107718610A (en) * | 2016-08-11 | 2018-02-23 | 鸿富锦精密工业(深圳)有限公司 | Eye lens and preparation method thereof |
| CN206470488U (en) * | 2016-10-25 | 2017-09-05 | 吴铭仁 | A kind of negative ion health glasses |
| CN213023796U (en) * | 2018-07-02 | 2021-04-20 | 尹昭军 | Illite hexacyclic stone nanometer negative ion far infrared health care spectacle frame and spectacles |
Non-Patent Citations (2)
| Title |
|---|
| 氨基压塑料;塑料工业(第03期);全文 * |
| 蓝光的危害与防蓝光镜片;中国眼镜科技杂志(第11期);全文 * |
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