CN106873181A - A kind of medical radiation-ray preventive eyeglass and its manufacture craft - Google Patents

Abstract

The invention discloses a kind of medical radiation-ray preventive eyeglass and its manufacture craft, belong to protection glass field.The present invention includes interior and outer plate, and interior is resin lens, and outer plate is glass lens, and one layer of anti-reflection film and one layer of X ray reflection film are provided with the front of interior；Resin lens are mixed by 97%~98% optical resin, 1%~2% auxiliary agent, 0.2%~0.6% ultra-violet absorber and 0.3%~0.8 shortwave light absorbent injection moulding, shortwave light absorbent by 71%~88% disperse yellow, 5.5%~15.5% disperse red and 5.5%~15.5% germanium powder.The present invention is compounded to form safety goggles eyeglass using the glass lens with the resin lens and reflection harmful light for absorbing harmful light, make safety goggles eyeglass that both there is the effect for filtering harmful light well, there is visible light transmissivity higher again, be particularly suited for eye disease patient and medical worker.

Description

A kind of medical radiation-ray preventive eyeglass and its manufacture craft

Technical field

The present invention relates to a kind of ophthalmic len and its manufacture craft, more specifically to a kind of medical radiation-ray preventive glasses Eyeglass and its manufacture craft.

Background technology

It is well known that ultraviolet has strong destructiveness to the eye cell of people.Cornea, nature of the ultraviolet to eyes The structure of crystal and retina three has direct detrimental effect.The long-term eyes under ultraviolet easily trigger in white Barrier, solar lentigines ophthalmia, cause directly to damage to retinal pigment epithelium and cause and accelerate Age related macular disease etc..

In recent years, find that not only ultraviolet has very big injury effect to eye by medical research and experiment, and Also there is sizable injury effect, eye pair to eye in the short wavelength light of 380nm~500nm wavelength of visible ray The purple light of 380nm~500nm wavelength and the chromatic resolving power of blue light are limited, depending on thing and distinguishing that color is insensitive, but this wave band ripple Length, energy are high, can cause directly infringement so as to cause and accelerate treating senile maculopathy by retinal pigment epithelium Deng.Although the energy ratio blue light of purple light is high, the injury to eyes is also more serious than blue light, in western countries, people it is this by Purple light, blue light are commonly referred to as blue light injury to the injury effect of retina.Medical research is also shown that blue light injury to cataract operation Patient afterwards also has special damaging effect, because the intraocular natural crystal of people is nothing in just birth and youthful age Color is transparent, to being substantially transmission including all visible rays including purple light and blue light, but after entrance youth, natural crystal Begin to change into it is faint yellow, while can stop portions purple light and blue light, so as to mitigate the blue light injury to retina, with the age Increase, the function of this stop and filtering purple light and blue light increases also with the intensification of natural crystal color.To cataract Extract for the patient of natural crystal, the natural crystal that shortwave light can be filtered originally is no longer present, artificial lens used Shortwave light function is not filtered again.For this kind of patient, blue light injures very big to the destructiveness of retina.Additionally, The long-term crowd (such as medical worker of hospital) worked in the environment of being injured with blue light be easy to trigger cataract, colour blindness and The disease of eye such as treating senile maculopathy.

Further, with the development of science and technology blue light is injured in the life for having penetrated into people, such as in daily life often LED, computer, mobile phone etc., the blue light strength that these equipment send already close to the blue light strength in noon sunlight, and Light emitting source is very near with a distance from eyes.At present, injured for blue light, can only started with from prevention, do not allowed blue light to injure eyes and regard Power, typically wears a secondary glasses with anti-blue light eyeglass, during most of Sunglasses lenses sun clips can only typically keep out sunlight on the market Ultraviolet or infrared ray, the blue light stronger for penetrating power and purple light are difficult to keep out.Also there is some anti-blue lights eye on the market Mirror, but the eyeglass of these glasses is mostly the effect that anti-blue light is realized by some film layers, is used and meeting in cleaning process in glasses These anti-blue light film layers are injured, the effect of anti-blue light will be reduced in the course of time.

China Patent No. ZL201410251416.0, authorized announcement date is on 2 3rd, 2016, and invention and created name is：Doctor With Multifunctional protective lens and preparation method thereof, this application case is related to a kind of medical goggles eyeglass, mainly for eye art Afterwards patient and eye disease patient to harmful light-radiation (such as：Ultraviolet radiation, blue ray radiation, optical radiation etc.) play effectively anti- Shield, promotes the effect of eye functional rehabilitation, is also applied for the eye that medical worker and normal personage are used to prevent harmful light to cause Disease, such as cataract, cataract of old people, electric ophthalmia (keratitis), PVR, pseudo-myopia, rear celestial axis are near Depending on, xerophthalmia, visual fatigue, video display terminal syndrome etc., while have ametropia patient concurrently correcting defects of vision function.This application case The purple light and blue light of ultraviolet and wavelength in 380nm~500nm scopes can be effectively filtered out, it is to avoid blue light is injured.Due to It reaches protection purpose by the way of harmful light-radiation is absorbed, and auxiliary agent, ultra-violet absorber and shortwave light absorb Although the addition of agent can effectively absorb harmful light-radiation, the transmitance to visible ray can make a big impact, after making to wear The visual field is not enough clearly become clear, and very big inconvenience is brought for medical personnel and eye postoperative patient and eye disease patient, and how Take into account harmful light shielding rate and visible light transmissivity is also the technical barrier of long-standing problem those skilled in the art, and put into practice hair It is existing, only it is difficult to obtain harmful light shielding rate from the formula regulation of eyeglass component and visible light transmissivity gets both, therefore have must Look for another way, seek a kind of medical radiation-ray preventive eyeglass that can take into account harmful light shielding rate and visible light transmissivity. Also, for medical personnel and inpatient, also often touch the harmful lights, eye such as the X-ray that medicine equipment sends Eyeball is radiated by X-ray for a long time, can trigger scorching eyelid, conjunctivitis and cataract etc., and the screening glass of this application case is for X Ray filters effect very little.

The content of the invention

1. the invention technical problem to be solved

It is an object of the present invention to overcome, existing goggles eyeglass cannot take into account harmful light shielding rate and visible ray is saturating The deficiency of rate is crossed, there is provided a kind of medical radiation-ray preventive eyeglass, using technical scheme, using harmful with absorbing The resin lens of light and the glass lens of reflection harmful light are compounded to form safety goggles eyeglass, safety goggles eyeglass had both been had good The effect of harmful light is filtered well, and with visible light transmissivity higher, be a to be particularly suited for eye postoperative patient, eye Portion's Disease and the medical radiation-ray preventive eyeglass of medical worker；

It is another object of the present invention to provide a kind of new medical radiation-ray preventive eyeglass manufacture craft, use Manufacture craft of the invention, the complex optics produced are optical and filtering property of harmful light is good, and with it is easy to make, be easy to real The features such as applying.

2. technical scheme

To reach above-mentioned purpose, the technical scheme that the present invention is provided is：

A kind of medical radiation-ray preventive eyeglass of the invention, including the interior piece that is compound in one by articulamentum and outer Piece, described interior piece is that, with the resin lens for absorbing ultraviolet and shortwave light effect, described outer plate is glass lens, Described interior piece and the faying face of outer plate are plane, and one layer of anti-reflection film and one layer of X ray reflection are provided with the front of interior Film, the floor height index layer and one layer of low-index layer being at least alternately provided with the front or the back side of outer plate；

Described resin lens are by optical resin, auxiliary agent, ultra-violet absorber and shortwave light absorbent mixed injection molding Shaping, the mass percent (wt%) of each component is as follows：Optical resin：97%~98%；Auxiliary agent：1%~2%；Ultraviolet is inhaled Receive agent：0.2%~0.6%；Shortwave light absorbent：0.3%~0.8%；Wherein, described shortwave light absorbent by Disperse yellow, disperse red and germanium powder mixed preparing are formed, and the mass percent (wt%) of its each component is as follows：Disperse yellow：71%~ 88%；Disperse red：5.5%~15.5%；Germanium powder：5.5%~15.5%.

Further, described anti-reflection film is magnesium fluoride coating.

Further, described X ray reflection film is indium tin oxide film layer.

Further, described high refractive index layer is zirconium oxide film layer, and described low-index layer is silicon dioxide film Layer.

Further, described articulamentum is resin glue.

Further, described auxiliary agent is the matter of the mixture of stearmide and styrene, stearmide and styrene Amount is than being 1:1；Described ultra-violet absorber is in UV-234, UV-326, UV-327, UV-328, UV-329 or UV-531 One or more mixing.

A kind of preparation method of medical radiation-ray preventive eyeglass of the invention, comprises the following steps：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：(wt%) takes 97%~98% optical resin, 1%~2% by mass percentage Auxiliary agent, 0.2%~0.6% ultra-violet absorber and 0.3%~0.8% shortwave light absorbent, wherein, shortwave can See that light absorber is mixed by 71%~88% disperse yellow, 5.5%~15.5% disperse red and 5.5%~15.5% germanium powder It is formulated；After optical resin, auxiliary agent, ultra-violet absorber and shortwave light absorbent are well mixed, heating is molded into Type goes out the resin lens for having and absorbing ultraviolet and shortwave light effect, and the front of the resin lens is planar structure；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is flat Face structure；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：The front of the resin lens prepared in step (a-1) uses magnetron sputtering work Skill is coated with one layer of anti-reflection film and one layer of X ray reflection film；

(b-2), glass lens plated film：The front of the glass lens prepared in step (a-2) or the back side are using evaporation Technique is alternately coated with a floor height index layer and one layer of low-index layer at least；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece, glass lens as safety goggles eyeglass outer plate, by resin Resin lens and glass lens are bonded in one by the planar structure of eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification.

Further, the anti-reflection film described in step (b) is magnesium fluoride film layer；Described high refractive index layer is zirconium oxide Film layer, described low-index layer is silica coating.

Further, the specific method of magnetron sputtering technique is in step (b-1)：In plated film, with magnesium fluoride or indium Tin-oxide circle sheet material is used as cathode target, and magnesium fluoride or indium tin oxide circle sheet material are steady circular in cathode chamber Motion；Resin lens are fixed on clamping fixture table in array, the front of resin lens is circular with magnesium fluoride or indium tin oxide Sheet material is relative, and clamping fixture table drives resin lens to move reciprocatingly.

Further, in step (c), resin lens and the glass lens peace that will be bonded together using resin glue On positioning seat, then soft trim ring is set above glass lens, and the rubber band on positioning seat is arranged on using two ends Trim ring is compressed, resin glue solidification is finally carried out.

3. beneficial effect

The technical scheme provided using the present invention, compared with existing known technology, with following remarkable result：

(1) a kind of medical radiation-ray preventive eyeglass of the invention, it is made by resin lens and glass lens are compound, set Fat eyeglass is contained within ultra-violet absorber and shortwave light absorbent, can effectively absorb ultraviolet, shortwave light etc. and be harmful to Light, resin lens are provided with anti-reflection film and X ray reflection film, are effectively reduced the reflection of visible ray, increase ultraviolet and X-ray Reflectivity, glass lens are provided with refracting layer, can increase penetrating for visible ray, improve and regard thing effect, make safety goggles eyeglass Both there is the effect of harmful light of filtering well, and with visible light transmissivity higher, is a to be particularly suited for eye art The medical radiation-ray preventive eyeglass of patient, eye disease patient and medical worker afterwards；

(2) a kind of medical radiation-ray preventive eyeglass of the invention, its resin lens light weight, it is easy to make shaping, glass Eyeglass matter is firmly wear-resisting, and the weight and wearability for making eyeglass get both, and comfortable wearing is durable；

(3) faying face of a kind of medical radiation-ray preventive eyeglass of the invention, its resin lens and glass lens is flat Face, processing and fabricating is convenient, and faying face uses planar structure, is easy to be connected and fixed on one, prevents arc faying face compound When the problems such as there is articulamentum uneven thickness, make eyeglass and more facilitate, optical property is more stablized；

(4) a kind of medical radiation-ray preventive eyeglass of the invention, its resin lens is using optical resin, auxiliary agent, ultraviolet Light absorbers and shortwave light absorbent mixed injection molding are molded, and optical resin accounts for 97%~98%, reduces ultraviolet radiation absorption The influence of agent and shortwave light absorbent to visible light permeability, and further compensated for reference to anti-reflection film and X ray reflection film The filtration result of ultraviolet, shortwave light and X-ray；Shortwave light absorbent is by disperse yellow, disperse red and germanium simultaneously Powder mixed preparing is formed, and initiative uses germanium powder as shortwave light absorbent, and germanium powder is skipper, not only can effectively be absorbed Blue light is injured, and with the functions such as glasses fatigue are recovered, is also acted while harmful light is reduced to eye injury and slowed down The effect of eye strain；

(5) a kind of medical radiation-ray preventive eyeglass of the invention, the disperse yellow in its resin lens accounts for 71%~88%, Resin lens are similar in color in faint yellow with human lenses, can preferably absorb the light damaged to eye retina Line；Anti-reflection film uses magnesium fluoride coating, magnesium fluoride to be widely used in optical lens plated film, technology maturation, and being effectively reduced can See the reflection of light；X ray reflection film uses indium tin oxide film layer, strong to eyeglass adhesive force, ultraviolet is can absorb, through visible Light, and can centering far infrared there is reflex, effective attenuation microwave and X-ray；

(6) a kind of preparation method of medical radiation-ray preventive eyeglass of the invention, its resin lens use bloom minute surface Mold injection molding, glass lens are using abrasive polishing process making, easy to make, stable optical performance, anti-reflection film and X-ray Reflectance coating is coated with using magnetron sputtering membrane process, even film layer and thickness is controllable, plated film high precision, give full play to anti-reflection film and The effect of X ray reflection film；

(7) preparation method of a kind of medical radiation-ray preventive eyeglass of the invention, in magnetron sputtering plating, cathode target Circular motion, resin lens are arranged and are moved back and forth in array, and cathode target consumption is uniform, and plated film is more uniform；

(8) preparation method of a kind of medical radiation-ray preventive eyeglass of the invention, in resin lens and glass lens profit After being bonded with resin glue, fixed with soft trim ring and positioning seat, it is ensured that eyeglass is pressurized uniformly, so that what resin glue was formed Thickness is uniform after hardening for articulamentum, improves lens optical performance.

Brief description of the drawings

Fig. 1 is a kind of a kind of cross section structure diagram of medical radiation-ray preventive eyeglass of the invention；

Fig. 2 is a kind of another cross section structure diagram of medical radiation-ray preventive eyeglass of the invention；

Fig. 3 is a kind of preparation method schematic flow sheet of medical radiation-ray preventive eyeglass of the invention；

Fig. 4 is the magnetron sputtering plating principle schematic in preparation method of the invention；

Fig. 5 is the clamping schematic diagram of resin lens in preparation method of the invention and glass lens.

Label declaration in schematic diagram：

1st, interior；11st, anti-reflection film；12nd, X ray reflection film；2nd, outer plate；21st, high refractive index layer；22nd, low-index layer；3、 Articulamentum；4a, cathode chamber；4b, negative electrode seat board；4c, cathode target；4d, clamping fixture table；5a, positioning seat；5b, trim ring；5c, rubber band.

Specific embodiment

To further appreciate that present disclosure, the present invention is described in detail in conjunction with the accompanying drawings and embodiments.

Embodiment 1

With reference to shown in Fig. 1, a kind of medical radiation-ray preventive eyeglass of the present embodiment, including be compound in by articulamentum 3 The interior piece 1 and outer plate 2 of one, interior 1 is that, with the resin lens for absorbing ultraviolet and shortwave light effect, can effectively absorb The harmful lights such as ultraviolet, shortwave light, outer plate 2 is glass lens, and the faying face of interior 1 and outer plate 2 is plane, and at interior 1 front is provided with one layer of anti-reflection film 11 and one layer of X ray reflection film 12, is effectively reduced the reflection of visible ray, increases ultraviolet The reflectivity of line and X-ray；The floor height index layer 21 and one layer of low-refraction being at least alternately provided with the front of outer plate 2 Layer 22, can increase penetrating for visible ray, improve and regard thing effect, so that safety goggles eyeglass both had filters harmful light well Effect, be a to be particularly suited for eye postoperative patient, eye disease patient and doctor and with visible light transmissivity higher The medical radiation-ray preventive eyeglass of business personnel.The faying face of interior 1 and outer plate 2 uses planar structure, not only processing and fabricating side Just, and it is easy to be connected and fixed on one, prevents arc faying face the problems such as articulamentum uneven thickness occurs in compound tense, makes mirror Piece makes and more facilitates, and optical property is more stablized；Meanwhile, resin lens light weight, it is easy to make shaping, glass lens matter is firmly resistance to Mill, the weight and wearability for making eyeglass gets both, and comfortable wearing is durable.

In the present embodiment, above-mentioned resin lens are inhaled by optical resin, auxiliary agent, ultra-violet absorber and shortwave light The shaping of agent mixed injection molding is received, the mass percent (wt%) of each component is as follows：Optical resin：97%；Auxiliary agent：2%；Ultraviolet is inhaled Receive agent：0.5%；Shortwave light absorbent：0.5%；Optical resin accounts for 97%, reduces ultra-violet absorber and shortwave is visible Influence of the light absorber to visible light permeability, and with reference to anti-reflection film 11 and X ray reflection film 12 further compensated for ultraviolet, The filtration result of shortwave light and X-ray.Wherein, above-mentioned shortwave light absorbent is by disperse yellow, disperse red and germanium powder Mixed preparing is formed, and the mass percent (wt%) of its each component is as follows：Disperse yellow：88%；Disperse red：6%；Germanium powder：6%； Use germanium powder as shortwave light absorbent in a creative way, germanium powder is skipper, not only can effectively absorb blue light injury, and tool There are the functions such as recovery glasses fatigue, the work for slowing down eye strain is also acted while harmful light is reduced to eye injury With；Disperse yellow in resin lens accounts for 88%, and resin lens are similar in color in faint yellow with human lenses, can be preferably The light that absorption is damaged to eye retina.Above-mentioned auxiliary agent is the mixture of stearmide and styrene, stearmide It is 1 with the mass ratio of styrene:1, stearmide disperses ultra-violet absorber and shortwave light absorbent as dispersant More uniform, it is ensured that lens quality, styrene improves the bending strength and mechanical performance of eyeglass, reduces the receipts of eyeglass shaping Shrinkage.Ultra-violet absorber is mixed for one or more in UV-234, UV-326, UV-327, UV-328, UV-329 or UV-531 Close, specifically in the present embodiment, ultra-violet absorber is UV-234, UV-326, UV-327, UV-328, UV-329 or UV-531 In any one.

In the present embodiment, anti-reflection film 11 is magnesium fluoride coating, and magnesium fluoride is widely used in optical lens plated film, technology Maturation, is effectively reduced the reflection of visible ray；X ray reflection film 12 is indium tin oxide film layer, strong to eyeglass adhesive force, can be inhaled Receive ultraviolet, through visible ray, and can centering far infrared there is reflex, effective attenuation microwave and X-ray.Height folding It is zirconium oxide film layer to penetrate rate layer 21, and low-index layer 22 is silica coating, improves resolution ratio and spirit of the human eye to color Sensitivity, mitigates eye fatigue.Above-mentioned articulamentum 3 is resin glue, optical good, to resin lens and glass lens connection jail Gu.

With reference to shown in Fig. 3, a kind of preparation method of medical radiation-ray preventive eyeglass of the present embodiment, including following step Suddenly：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：(wt%) takes 97% optical resin, 2% auxiliary agent, 0.5% by mass percentage Ultra-violet absorber and 0.5% shortwave light absorbent, wherein, shortwave light absorbent by 88% disperse yellow, 6% disperse red and 6% germanium powder mixed preparing are formed；Optical resin, auxiliary agent, ultra-violet absorber and shortwave light are inhaled After receipts agent is well mixed, heating injection moulding goes out the resin lens for having and absorbing that ultraviolet and shortwave light are acted on, the resin The front of eyeglass is planar structure；Injection molding process is similar with the injection molding process of traditional optical resin lens, using height Light mirror surface mould injection moulding, easy to make, stable optical performance；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is flat Face structure；The injection molding process of resin lens, the abrasive polishing process of glass lens are also same as the prior art, herein no longer Repeat；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：The front of the resin lens prepared in step (a-1) uses magnetron sputtering work Skill is coated with one layer of anti-reflection film 11 and one layer of X ray reflection film 12；The anti-reflection film 11 is magnesium fluoride film layer, the X ray reflection film 12 It is indium tin oxide film layer, anti-reflection film 11 is above or below X ray reflection film 12；Specifically, anti-reflection film 11 and X are penetrated Line reflection film 12 is coated with respectively, as shown in figure 4, in plated film, with magnesium fluoride or indium tin oxide circle sheet material as cathode target 4c, cathode target 4c are fixed on negative electrode seat board 4b, and magnesium fluoride or indium tin oxide circle sheet material do even in cathode chamber 4a Fast circular motion；Resin lens are fixed on clamping fixture table 4d in array, front and magnesium fluoride or the indium tin oxygen of resin lens Compound circle sheet material is relative, and clamping fixture table 4d drives resin lens to move reciprocatingly, cloudy using above-mentioned magnetron sputtering membrane structure Pole target 4c consumption is uniform, and plated film is more uniform；Other specification on magnetron sputtering membrane process is same as the prior art, Will not be repeated here.

(b-2), glass lens plated film：Handed over using evaporation process in the front of the glass lens prepared in step (a-2) For being coated with a floor height index layer 21 and one layer of low-index layer 22 at least；High refractive index layer 21 is zirconium oxide film layer, low folding It is silica coating to penetrate rate layer 22；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece 1, glass lens will set as the outer plate 2 of safety goggles eyeglass Resin lens and glass lens are bonded in one by the planar structure of fat eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification；Specifically, as shown in figure 5, will be bonded together using resin glue Resin lens and glass lens are arranged on positioning seat 5a, soft trim ring 5b are then set above glass lens, and utilize The rubber band 5c that two ends are arranged on positioning seat 5a compresses trim ring 5b, finally carries out resin glue solidification, it is ensured that eyeglass is pressurized equal It is even so that the articulamentum that is formed of resin glue thickness is uniform after hardening, improve lens optical performance.

Embodiment 2

With reference to shown in Fig. 2, a kind of medical radiation-ray preventive eyeglass of the present embodiment, its basic structure with embodiment 1, no It is with part：The floor height index layer 21 and one layer of low-index layer 22 being at least alternately provided with the back side of outer plate 2, can Increase penetrating for visible ray, improve and regard thing effect, so that safety goggles eyeglass both has the effect for filtering harmful light well, There is visible light transmissivity higher again, be a to be particularly suited for eye postoperative patient, eye disease patient and medical worker Medical radiation-ray preventive eyeglass.In the present embodiment, above-mentioned resin lens are by optical resin, auxiliary agent, ultraviolet radiation absorption Agent and shortwave light absorbent mixed injection molding are molded, and the mass percent (wt%) of each component is as follows：Optical resin：98%； Auxiliary agent：1%；Ultra-violet absorber：0.2%；Shortwave light absorbent：0.8%；Optical resin accounts for 98%, reduces ultraviolet The influence of light absorbers and shortwave light absorbent to visible light permeability, and combine anti-reflection film 11 and X ray reflection film 12 The filtration result of ultraviolet, shortwave light and X-ray is further compensated for.Wherein, above-mentioned shortwave light absorbent by Disperse yellow, disperse red and germanium powder mixed preparing are formed, and the mass percent (wt%) of its each component is as follows：Disperse yellow：71%；Point Dissipate red：13.5%；Germanium powder：15.5%；Use germanium powder as shortwave light absorbent in a creative way, germanium powder is skipper, no Blue light injury only can be effectively absorbed, and with the functions such as glasses fatigue are recovered, while harmful light is reduced to eye injury Also act the effect for slowing down eye strain；Disperse yellow in resin lens accounts for 71%, and resin lens are brilliant with human eye in faint yellow Shape body is similar in color, and can preferably absorb the light damaged to eye retina.Above-mentioned auxiliary agent be stearmide and The mass ratio of the mixture of styrene, stearmide and styrene is 1:1, stearmide makes ultraviolet radiation absorption as dispersant Agent and the dispersion of shortwave light absorbent are more uniform, it is ensured that lens quality, styrene improves the bending strength and machine of eyeglass Tool performance, reduces the shrinkage factor of eyeglass shaping.Ultra-violet absorber is UV-234, UV-326, UV-327, UV-328, UV- In 329 or UV-531 one or more mixing, specifically in the present embodiment, ultra-violet absorber be UV-234, UV-326, UV-327 presses 1：1：1 mass ratio is mixed.

With reference to shown in Fig. 3, a kind of preparation method of medical radiation-ray preventive eyeglass of the present embodiment, including following step Suddenly：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：(wt%) takes 98% optical resin, 1% auxiliary agent, 0.2% by mass percentage Ultra-violet absorber and 0.8% shortwave light absorbent, wherein, shortwave light absorbent by 71% disperse yellow, 13.5% disperse red and 15.5% germanium powder mixed preparing are formed；Can by optical resin, auxiliary agent, ultra-violet absorber and shortwave After seeing that light absorber is well mixed, heating injection moulding goes out the resin lens for having and absorbing ultraviolet and shortwave light effect, The front of the resin lens is planar structure；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is flat Face structure；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：The front of the resin lens prepared in step (a-1) uses magnetron sputtering work Skill is coated with one layer of anti-reflection film 11 and one layer of X ray reflection film 12；The anti-reflection film 11 is magnesium fluoride film layer, the X ray reflection film 12 It is indium tin oxide film layer, anti-reflection film 11 is above or below X ray reflection film 12；Specifically, anti-reflection film 11 and X are penetrated Line reflection film 12 is coated with respectively, as shown in figure 4, in plated film, with magnesium fluoride or indium tin oxide circle sheet material as cathode target 4c, cathode target 4c are fixed on negative electrode seat board 4b, and magnesium fluoride or indium tin oxide circle sheet material do even in cathode chamber 4a Fast circular motion；Resin lens are fixed on clamping fixture table 4d in array, front and magnesium fluoride or the indium tin oxygen of resin lens Compound circle sheet material is relative, and clamping fixture table 4d drives resin lens to move reciprocatingly, cloudy using above-mentioned magnetron sputtering membrane structure Pole target 4c consumption is uniform, and plated film is more uniform；Other specification on magnetron sputtering membrane process is same as the prior art, Will not be repeated here.

(b-2), glass lens plated film：Handed over using evaporation process in the front of the glass lens prepared in step (a-2) For being coated with a floor height index layer 21 and one layer of low-index layer 22 at least；High refractive index layer 21 is zirconium oxide film layer, low folding It is silica coating to penetrate rate layer 22, and high refractive index layer 21 and low-index layer 22 are alternately provided with each 2 layers；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece 1, glass lens will set as the outer plate 2 of safety goggles eyeglass Resin lens and glass lens are bonded in one by the planar structure of fat eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification；Specifically, as shown in figure 5, will be bonded together using resin glue Resin lens and glass lens are arranged on positioning seat 5a, soft trim ring 5b are then set above glass lens, and utilize The rubber band 5c that two ends are arranged on positioning seat 5a compresses trim ring 5b, finally carries out resin glue solidification, it is ensured that eyeglass is pressurized equal It is even so that the articulamentum that is formed of resin glue thickness is uniform after hardening, improve lens optical performance.

Embodiment 3

With reference to shown in Fig. 1, a kind of medical radiation-ray preventive eyeglass of the present embodiment, its basic structure with embodiment 1, no It is with part：In the present embodiment, above-mentioned resin lens are from optical resin, auxiliary agent, ultra-violet absorber and shortwave Light absorber mixed injection molding is molded, and the mass percent (wt%) of each component is as follows：Optical resin：97.5%；Auxiliary agent：1.5%； Ultra-violet absorber：0.6%；Shortwave light absorbent：0.4%；Optical resin accounts for 97.5%, reduces ultra-violet absorber Influence with shortwave light absorbent to visible light permeability, and combine anti-reflection film 11 and X ray reflection film 12 further more The filtration result of ultraviolet, shortwave light and X-ray is mended.Wherein, above-mentioned shortwave light absorbent by disperse yellow, point Dissipate red and germanium powder mixed preparing to form, the mass percent (wt%) of its each component is as follows：Disperse yellow：80%；Disperse red： 10%；Germanium powder：10%；Use germanium powder as shortwave light absorbent in a creative way, germanium powder is skipper, not only can effectively be inhaled Blue light injury is received, and with the functions such as glasses fatigue are recovered, is also acted while harmful light is reduced to eye injury and subtracted The effect of slow eye strain；Disperse yellow in resin lens accounts for 80%, and resin lens are in faint yellow, with human lenses color class Seemingly, the light damaged to eye retina can preferably be absorbed.Above-mentioned auxiliary agent is the mixed of stearmide and styrene The mass ratio of compound, stearmide and styrene is 1:1, stearmide makes ultra-violet absorber and the shortwave can as dispersant See that light absorber dispersion is more uniform, it is ensured that lens quality, styrene improves the bending strength and mechanical performance of eyeglass, reduces The shrinkage factor of eyeglass shaping.Ultra-violet absorber is in UV-234, UV-326, UV-327, UV-328, UV-329 or UV-531 One or more mixing, specifically in the present embodiment, ultra-violet absorber be UV-328, UV-329, UV-531 press 1：1：1 Mass ratio is mixed.

With reference to shown in Fig. 3, a kind of preparation method of medical radiation-ray preventive eyeglass of the present embodiment, including following step Suddenly：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：By mass percentage (wt%) take 97.5% optical resin, 1.5% auxiliary agent, 0.6% ultra-violet absorber and 0.4% shortwave light absorbent, wherein, shortwave light absorbent by 80% point Dissipate yellow, 10% disperse red and 10% germanium powder mixed preparing is formed；By optical resin, auxiliary agent, ultra-violet absorber and shortwave After visible light absorber is well mixed, heating injection moulding goes out the resin mirror for having and absorbing ultraviolet and shortwave light effect Piece, the front of the resin lens is planar structure；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is flat Face structure；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：The front of the resin lens prepared in step (a-1) uses magnetron sputtering work Skill is coated with one layer of anti-reflection film 11 and one layer of X ray reflection film 12；The anti-reflection film 11 is magnesium fluoride film layer, the X ray reflection film 12 It is indium tin oxide film layer, anti-reflection film 11 is above or below X ray reflection film 12；Specifically, anti-reflection film 11 and X are penetrated Line reflection film 12 is coated with respectively, as shown in figure 4, in plated film, with magnesium fluoride or indium tin oxide circle sheet material as cathode target 4c, cathode target 4c are fixed on negative electrode seat board 4b, and magnesium fluoride or indium tin oxide circle sheet material do even in cathode chamber 4a Fast circular motion；Resin lens are fixed on clamping fixture table 4d in array, front and magnesium fluoride or the indium tin oxygen of resin lens Compound circle sheet material is relative, and clamping fixture table 4d drives resin lens to move reciprocatingly, cloudy using above-mentioned magnetron sputtering membrane structure Pole target 4c consumption is uniform, and plated film is more uniform；Other specification on magnetron sputtering membrane process is same as the prior art, Will not be repeated here.

(b-2), glass lens plated film：Handed over using evaporation process in the front of the glass lens prepared in step (a-2) For being coated with a floor height index layer 21 and one layer of low-index layer 22 at least；High refractive index layer 21 is zirconium oxide film layer, low folding It is silica coating to penetrate rate layer 22；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece 1, glass lens will set as the outer plate 2 of safety goggles eyeglass Resin lens and glass lens are bonded in one by the planar structure of fat eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification；Specifically, as shown in figure 5, will be bonded together using resin glue Resin lens and glass lens are arranged on positioning seat 5a, soft trim ring 5b are then set above glass lens, and utilize The rubber band 5c that two ends are arranged on positioning seat 5a compresses trim ring 5b, finally carries out resin glue solidification, it is ensured that eyeglass is pressurized equal It is even so that the articulamentum that is formed of resin glue thickness is uniform after hardening, improve lens optical performance.

Embodiment 4

With reference to shown in Fig. 2, a kind of medical radiation-ray preventive eyeglass of the present embodiment, its basic structure with embodiment 2, no It is with part：In the present embodiment, above-mentioned resin lens are from optical resin, auxiliary agent, ultra-violet absorber and shortwave Light absorber mixed injection molding is molded, and the mass percent (wt%) of each component is as follows：Optical resin：97.4%；Auxiliary agent：1.8%； Ultra-violet absorber：0.5%；Shortwave light absorbent：0.3%；Optical resin accounts for 97.4%, reduces ultra-violet absorber Influence with shortwave light absorbent to visible light permeability, and combine anti-reflection film 11 and X ray reflection film 12 further more The filtration result of ultraviolet, shortwave light and X-ray is mended.Wherein, above-mentioned shortwave light absorbent by disperse yellow, point Dissipate red and germanium powder mixed preparing to form, the mass percent (wt%) of its each component is as follows：Disperse yellow：78%；Disperse red：8%； Germanium powder：14%；Use germanium powder as shortwave light absorbent in a creative way, germanium powder is skipper, not only can effectively absorb indigo plant Light is injured, and with the functions such as glasses fatigue are recovered, is also acted while harmful light is reduced to eye injury and slowed down eye The effect of portion's fatigue；Disperse yellow in resin lens accounts for 78%, and resin lens are similar in color in faint yellow with human lenses, The light damaged to eye retina can preferably be absorbed.Above-mentioned auxiliary agent is the mixing of stearmide and styrene The mass ratio of thing, stearmide and styrene is 1:1, stearmide makes ultra-violet absorber and shortwave visible as dispersant Light absorber dispersion is more uniform, it is ensured that lens quality, styrene improves the bending strength and mechanical performance of eyeglass, reduces The shrinkage factor of eyeglass shaping.Ultra-violet absorber is in UV-234, UV-326, UV-327, UV-328, UV-329 or UV-531 One or more mixing, specifically in the present embodiment, ultra-violet absorber is that UV-234, UV-329, UV-531 press 1：1：1 matter Amount ratio is mixed.

With reference to shown in Fig. 3, a kind of preparation method of medical radiation-ray preventive eyeglass of the present embodiment, including following step Suddenly：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：By mass percentage (wt%) take 97.4% optical resin, 1.8% auxiliary agent, 0.5% ultra-violet absorber and 0.3% shortwave light absorbent, wherein, shortwave light absorbent by 78% point Dissipate yellow, 8% disperse red and 14% germanium powder mixed preparing is formed；Can by optical resin, auxiliary agent, ultra-violet absorber and shortwave After seeing that light absorber is well mixed, heating injection moulding goes out the resin lens for having and absorbing ultraviolet and shortwave light effect, The front of the resin lens is planar structure；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is flat Face structure；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：The front of the resin lens prepared in step (a-1) uses magnetron sputtering work Skill is coated with one layer of anti-reflection film 11 and one layer of X ray reflection film 12；The anti-reflection film 11 is magnesium fluoride film layer, the X ray reflection film 12 It is indium tin oxide film layer, anti-reflection film 11 is above or below X ray reflection film 12；Specifically, anti-reflection film 11 and X are penetrated Line reflection film 12 is coated with respectively, as shown in figure 4, in plated film, with magnesium fluoride or indium tin oxide circle sheet material as cathode target 4c, cathode target 4c are fixed on negative electrode seat board 4b, and magnesium fluoride or indium tin oxide circle sheet material do even in cathode chamber 4a Fast circular motion；Resin lens are fixed on clamping fixture table 4d in array, front and magnesium fluoride or the indium tin oxygen of resin lens Compound circle sheet material is relative, and clamping fixture table 4d drives resin lens to move reciprocatingly, cloudy using above-mentioned magnetron sputtering membrane structure Pole target 4c consumption is uniform, and plated film is more uniform；Other specification on magnetron sputtering membrane process is same as the prior art, Will not be repeated here.

(b-2), glass lens plated film：Handed over using evaporation process in the front of the glass lens prepared in step (a-2) For being coated with a floor height index layer 21 and one layer of low-index layer 22 at least；High refractive index layer 21 is zirconium oxide film layer, low folding It is silica coating to penetrate rate layer 22；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece 1, glass lens will set as the outer plate 2 of safety goggles eyeglass Resin lens and glass lens are bonded in one by the planar structure of fat eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification；Specifically, as shown in figure 5, will be bonded together using resin glue Resin lens and glass lens are arranged on positioning seat 5a, soft trim ring 5b are then set above glass lens, and utilize The rubber band 5c that two ends are arranged on positioning seat 5a compresses trim ring 5b, finally carries out resin glue solidification, it is ensured that eyeglass is pressurized equal It is even so that the articulamentum that is formed of resin glue thickness is uniform after hardening, improve lens optical performance.

In embodiment 1~4, the chemical name of UV-234 is 2- (2H- BTAs -2) (1- methyl isophthalic acids-benzene of -4,6- bis- Ethyl) phenol；The chemical name of UV-326 is 2- (the 2- hydroxyl -3- tert-butyl group -5- aminomethyl phenyls) -5- chlorinated benzotriazoles；UV- 327 chemical name is 2- (2 '-hydroxyl -3 ', 5 '-di-tert-butyl-phenyl) -5- chlorinated benzotriazoles；The chemical name of UV-328 It is 2- (2- hydroxyl -3,5- di-tert-pentyl-phenyls) BTA；The chemical name of UV-329 be 2- (2 '-hydroxyl -5 '-t-octyl Phenyl) BTA；The chemical name of UV-531 is UV-531.Disperse yellow is disperse yellow 54, its Molecular formula is C₁₈H₁₁NO₃；Disperse red is disperse red 86, and its molecular formula is C₂₂H₁₈N₂O₅S。

A kind of medical radiation-ray preventive eyeglass of the invention and its manufacture craft, using with the resin for absorbing harmful light The glass lens of eyeglass and reflection harmful light are compounded to form safety goggles eyeglass, safety goggles eyeglass was both had and filter well The effect of harmful light, and be that a eye postoperative patient, the eye disease of being particularly suited for is suffered from visible light transmissivity higher Person and the medical radiation-ray preventive eyeglass of medical worker.

Below schematically the present invention and embodiments thereof are described, the description does not have restricted, institute in accompanying drawing What is shown is also one of embodiments of the present invention, and actual structure is not limited thereto.So, if the common skill of this area Art personnel enlightened by it, in the case where the invention objective is not departed from, without creatively designing and the technical scheme Similar frame mode and embodiment, all should belong to protection scope of the present invention.

Claims (10)

1. a kind of medical radiation-ray preventive eyeglass, including the interior piece (1) and outer plate (2) being compound in one by articulamentum (3), It is characterized in that：Described interior piece (1) is with the resin lens for absorbing ultraviolet and shortwave light effect, described outer plate (2) it is glass lens, described interior piece (1) and the faying face of outer plate (2) are plane, and are provided with one on the interior front of (1) Layer anti-reflection film (11) and one layer of X ray reflection film (12), the floor height being at least alternately provided with the front or the back side of outer plate (2) Index layer (21) and one layer of low-index layer (22)；

Described resin lens are molded by optical resin, auxiliary agent, ultra-violet absorber and shortwave light absorbent mixed injection molding, The mass percent (wt%) of each component is as follows：Optical resin：97%~98%；Auxiliary agent：1%~2%；Ultra-violet absorber： 0.2%~0.6%；Shortwave light absorbent：0.3%~0.8%；Wherein, described shortwave light absorbent is by disperseing Yellow, disperse red and germanium powder mixed preparing are formed, and the mass percent (wt%) of its each component is as follows：Disperse yellow：71%~88%； Disperse red：5.5%~15.5%；Germanium powder：5.5%~15.5%.

2. a kind of medical radiation-ray preventive eyeglass according to claim 1, it is characterised in that：Described anti-reflection film (11) It is magnesium fluoride coating.

3. a kind of medical radiation-ray preventive eyeglass according to claim 1, it is characterised in that：Described X ray reflection Film (12) is indium tin oxide film layer.

4. a kind of medical radiation-ray preventive eyeglass according to claim 1, it is characterised in that：Described high refractive index layer (21) it is zirconium oxide film layer, described low-index layer (22) is silica coating.

5. a kind of medical radiation-ray preventive eyeglass according to claim 1, it is characterised in that：Described articulamentum (3) It is resin glue.

6. a kind of medical radiation-ray preventive eyeglass according to claim 1, it is characterised in that：Described auxiliary agent is tristearin The mass ratio of the mixture of acid amides and styrene, stearmide and styrene is 1:1；Described ultra-violet absorber is UV- 234th, one or more mixing in UV-326, UV-327, UV-328, UV-329 or UV-531.

7. a kind of preparation method of medical radiation-ray preventive eyeglass, it is characterised in that comprise the following steps：

(a), resin lens and glass lens are prepared respectively：

(a-1), prepared by resin lens：(wt%) takes 97%~98% optical resin, 1%~2% helps by mass percentage Agent, 0.2%~0.6% ultra-violet absorber and 0.3%~0.8% shortwave light absorbent, wherein, shortwave light Absorbent is by 71%~88% disperse yellow, 5.5%~15.5% disperse red and 5.5%~15.5% germanium powder mixed preparing Form；After optical resin, auxiliary agent, ultra-violet absorber and shortwave light absorbent are well mixed, heating injection moulding goes out With the resin lens for absorbing ultraviolet and shortwave light effect, the front of the resin lens is planar structure；

(a-2), prepared by glass lens：Glass lens are prepared using abrasive polishing process, the back side of the glass lens is planar junction Structure；

(b), coating film treatment is carried out to resin lens and glass lens respectively：

(b-1), resin lens plated film：Plated using magnetron sputtering technique in the front of the resin lens prepared in step (a-1) System one layer of anti-reflection film (11) and one layer of X ray reflection film (12)；

(b-2), glass lens plated film：The front or the back side of the glass lens prepared in step (a-2) use evaporation process Alternating is coated with a floor height index layer (21) and one layer of low-index layer (22) at least；

C (), resin lens and glass lens are compound：

Resin lens as safety goggles eyeglass interior piece (1), glass lens will set as the outer plate (2) of safety goggles eyeglass Resin lens and glass lens are bonded in one by the planar structure of fat eyeglass and glass lens as faying face using resin glue Rise, medical radiation-ray preventive eyeglass is obtained after solidification.

8. the preparation method of a kind of medical radiation-ray preventive eyeglass according to claim 7, it is characterised in that：Step B the anti-reflection film (11) described in () is magnesium fluoride film layer；Described high refractive index layer (21) is zirconium oxide film layer, described low folding It is silica coating to penetrate rate layer (22).

9. the preparation method of a kind of medical radiation-ray preventive eyeglass according to claim 7, it is characterised in that：Step (b-1) specific method of magnetron sputtering technique is in：In plated film, with magnesium fluoride or indium tin oxide circle sheet material as negative electrode Target (4c), and magnesium fluoride or indium tin oxide circle sheet material do uniform circular motion in cathode chamber (4a)；By resin lens It is fixed on clamping fixture table (4d) in array, the front of resin lens is relative with magnesium fluoride or indium tin oxide circle sheet material, and Clamping fixture table (4d) drives resin lens to move reciprocatingly.

10. the preparation method of a kind of medical radiation-ray preventive eyeglass according to claim 7, it is characterised in that：In step Suddenly in (c), the resin lens and glass lens that will be bonded together using resin glue are arranged on positioning seat (5a), Ran Hou Soft trim ring (5b) is set above glass lens, and rubber band (5c) on positioning seat (5a) is arranged on by trim ring using two ends (5b) is compressed, and finally carries out resin glue solidification.