CN104042400A - Electronic eyewear - Google Patents

Abstract

Embodiments for systems, methods and apparatuses of eyewear are disclosed. One apparatus includes a frame that includes a pair of temple arms forming eyewear that is adaptable to hold one or more lenses, and at least one switch, wherein the at least one switch is open or closed depending upon an angle of at least one of the temple arms relative to a frontal plane of the one or more lenses.

Description

Electronics protective eye lens

Related application

Present patent application requires the 61/792nd of submission on March 15th, 2013, the rights and interests of No. 481 U.S. Provisional Patent Application and priority, and its theme is that " electronics protective eye lens " and its content are incorporated herein by reference.

Present patent application is the 13/615th of JIUYUE in 2012 submission on the 13rd, the part continuation application of No. 447 U.S. Patent applications, it themes as " shutter glasses " and its content is incorporated herein by reference, this part continuation application then requires the 61/535th of JIUYUE in 2011 submission on the 15th, the priority of No. 341 U.S. Provisional Patent Application, its content is incorporated herein by reference, and require the 61/556th of submission on November 4th, 2011, the priority of No. 083 U.S. Provisional Patent Application, its content is incorporated herein by reference.

Technical field

Described embodiment is haply about electronics protective eye lens.Especially, described embodiment is about the device for electronics protective eye lens, the method and system that monitor that electronics protective eye lens uses.

Background technology

For neonate, nerve and the brain function of controlling eye movement and image processing start to converge in birth for latter 9 months.Sometimes natural process may be made mistakes and their eyes may start eye (esotropia) or outer trouble (exotropia).This situation can prevent that brain from receiving synchronous overlay path and the realization of the true 3D degree of depth is provided from every eyes.Sometimes need operation to make eyes get back to suitable configuration, but brain still may be suppressed eyes in two eyes.In other cases, although eyes are to form a line, eye may be main and another eyes are " laziness " (amblyopias).In addition, the image from two eyes need to be learnt and be processed equably to brain how simultaneously.The nerve of controlling eye muscle and receiving the output of every eye need to be accepted the training of for example stereopsis vision or stereoscopic vision.

For the child with visual problem, when wiring (wiring) becomes while being almost permanent, if before six years old begin treatment, can there is best result.Child is more older, and defect correcting is more difficult.So it is better that their visual impairment should more early be proofreaied and correct.But being applied to very young child will have multinomial challenge.For example, they have higher degree of difficulty for the abundant understanding of Treatment need, and they possibly cannot carry out the instruction of vision treatment, when especially they think that work is boring.In the time that t raining period requires to carry out particular job respectively, make more aggravation of this challenge.

Not only do not carry out vision treatment, some father and mother select vision correction surgery.For example, operation can make stravismus reply and approach aligning.But even after operation, their brain still would rather preference use an eye in eyes.They need to train or retraining utilizes eyes to watch.

Such eye defects is not limited to small children.Adult also may need vision treatment.For example, according to a research, 2 percent or more U.S. population there is no stereoscopic vision.

It is desirable to there are the method, system and device for vision treatment is provided for above-mentioned disease of eye.

Summary of the invention

An embodiment comprises device.This device comprises the mirror holder that forms a pair of temple arm that is applicable to the protective eye lens of fixing one or more eyeglass, and at least one switch, wherein at least one switch depends on that at least one temple arm opens or close with respect to the angle of the horizontal frontal plane of described one or more eyeglass.

An embodiment comprises another kind of device.This device comprises that formation is applicable to the mirror holder of the protective eye lens of fixing one or more eyeglass, a display, and a controller.Controller can operate to receive one or more instruction, and the instruction receiving based on one or more shows an operation parameter of protective eye lens on display.

Other aspects of described embodiment and advantage will, together with accompanying drawing, by means of the principle of the described embodiment of explaining, become clearer by detailed description hereinafter.

Brief description of the drawings

Fig. 1 shows according to the structure chart of the electronics protective eye lens of an embodiment.

Fig. 2 shows according to another structure chart of the electronics protective eye lens of another embodiment.

Fig. 3 shows according to another structure chart of the electronics protective eye lens of another embodiment.

Fig. 4 shows four kinds of different conditions of the electronics protective eye lens determining by the on off state of electronics protective eye lens according to an embodiment.

Fig. 5 shows according to the electrical switch of the electronics protective eye lens of an embodiment.

Fig. 6 shows according to another electrical switch of the electronics protective eye lens of another embodiment.

Fig. 7 shows according to another electrical switch of the electronics protective eye lens of another embodiment.

Fig. 8 shows according to another electrical switch of the electronics protective eye lens of another embodiment.

Fig. 9 shows the embodiment of a display, shows according to the operation of the electronics protective eye lens of an embodiment and uses information.

Figure 10 shows according to another structure chart of the electronics protective eye lens of another embodiment.

Figure 11 shows according to the structure chart of the electronic shutter glasses of another embodiment.

Figure 12 shows according to the structure chart of the electronic shutter glasses of another embodiment.

Figure 13 shows according to an embodiment shutter glasses under different operating state.

Figure 14 shows according to an embodiment, the operating time line of the shutter glasses under different conditions as shown in figure 13.

Figure 15 shows according to another embodiment, the operating time line of the shutter glasses under different conditions as shown in figure 13.

Figure 16 shows the shutter glasses that comprises capable of regulating blocking degree according to an embodiment.

Figure 17 shows the shutter glasses connecing with peripheral control unit face according to an embodiment.

Figure 18 shows and comprises according to the flow chart of the step of the operation shutter glasses method of an embodiment.

Detailed description of the invention

Describe in detail

Described at least one, embodiment comprises position one or more switch on protective eye lens, for the controller of instruction to protective eye lens is provided, or for monitoring the use of protective eye lens.In one embodiment, sufferer or doctor can to use and to monitor the reason deciding in order treating, and sufferer is worn the Cycle Length (finite time in total time and/or one period of cycle, for example a day or a week or month) of protective eye lens.In one embodiment, monitor and provide or allow the treatment that provides user to be obedient to (being called compliance) doctor suggestion to have how good designator.In one embodiment, monitor that use and/or compliance can be shown to user on the display on electronics protective eye lens in place.In one embodiment, store and monitor that use and/or compliance are for doctor's access in the future (via for example outside controller or the computer connecting).Use and/or compliance information based on monitoring, doctor can confirm that sufferer is just being subject to suitable treatment (for example sufferer be obedient to suggestion wear used time number), or doctor may determine that treatment needs to upgrade.

In one embodiment, monitor with and/or compliance be by banning use of the sufferer of embodiment described in one or more of shutter glasses to utilize.In one embodiment, doctor use monitor use and/or compliance information decide shutter glasses whether suitable shutter frequency and/or during (hide from view, the first breaking time or the second breaking time), or the no frequency that should adjust shutter and/or during.User may show mental fatigue for specific breaking time or frequency, and the further treatment of user (sufferer) special breaking time or the frequency of looking for novelty possibly.

Fig. 1 shows according to the structure chart of the electronics protective eye lens of an embodiment.In this embodiment, electronics protective eye lens comprises mirror holder 100, comprises that a pair of formation is applicable to a pair of temple arm 110,112 of the protective eye lens of fixing one or more eyeglass (for example eyeglass 160,162).This electronics protective eye lens further comprises at least one switch (for example the first switch 130 and/or second switch 132).In one embodiment, described at least one switch depends on that at least one temple arm 110,112 opens or close with respect to the angle of the horizontal frontal plane 120 of described one or more eyeglass.

Be to describe with electronics protective eye lens although should understand the embodiment of Fig. 1, this embodiment comprises glasses, protective glasses and other forms of protective eye lens, is called " without mirror holder glasses " when including.Other embodiments of protective eye lens comprise paneless protective eye lens, auxiliary mirror holder and/or multi-form glasses, for example " sunglasses, cover are worn formula glasses, prescription glasses, safety goggles, diving mask and/or other forms of protective glasses, for example ski protective glasses and diving protective glasses.Although describe two eyeglasses 160,162 in Fig. 1, electronics protective eye lens can comprise monocular type shaped glasses, and it can be protective glasses.In addition, the embodiment of mirror holder 100 comprises the mirror holder of glass, the mirror holder of protective glasses and the contiguous block between eyeglass without mirror holder glasses.In addition, the embodiment of switch 130,132 can position between mirror holder 100 and temple arm 110,112, or between at least one eyeglass and temple arm 110,112.In another embodiment, the temple arm of electronics protective eye lens can shorten significantly, and can connect a rope or a band, a for example guy rope, and it can be used in protective eye lens is fixed to wearer or user.

In one embodiment, horizontal frontal plane comprises the efficiency flat that has of one or more eyeglass 160,162.As shown in the figure, in one embodiment, at least one temple arm 110,112 can circumferential edge brace connect the place rotation that (attached) determines to protective eye lens place.For example, in the time adjusting rotatably temple arm (temple arm 110), change the angle of temple arm with respect to horizontal frontal plane (being shown as angle 140).As shown in Figure 1, temple arm 110 is spent with respect to the angle approximately 80 of horizontal frontal plane with respect to position and the temple arm of horizontal frontal plane.In this embodiment, angle can adjusted between approximately 0 degree between approximately 90 degree.

In one embodiment, protective eye lens comprises an eyeglass holder and two temples (being also known as temple arm), and each temple arrives eyeglass holder via chain connection.The hinge of each temple based on corresponding can folding or expansion.In the time of the complete folding of temple, the angle essence between temple and eyeglass holder is 0 degree; And in the time that temple launches under roughly stable state, the angle between temple and eyeglass holder is essentially 90 degree.It should be noted, for some protective eye lens, in the time forcing temple to launch completely, more than the angle between temple and eyeglass holder can reach 90 degree.In one embodiment, the angle between temple and horizontal frontal plane between 140 of the angle between temple and eyeglass holder in fact and shown in Fig. 1 is identical.

In another one embodiment, horizontal frontal plane is parallel with the back side being formed by two previously described hinges in fact.For example, the back side of a pair of glasses can, by the eyeglass of glasses is placed on horizontal frontal plane, be removed temple and allow a plane be seated in the top of two hinges and to form.Such plane can become the back side.

In one embodiment, at least one switch bit is being formed in mirror holder and a pair of adjustable side brace at least one hinge between at least one.As described in the text, in one embodiment, at least one hinge is formed at least one eyeglass and described a pair of adjustable side brace between at least one.

In one embodiment, at least one switch comprises the spring mechanism that forces at least one switch to present unlatching or close at least one state of the Central Shanxi Plain.In one embodiment, at least one switch is that position is at least one hinge being formed between one or more eyeglass and a pair of capable of regulating temple wall.

In one embodiment, at least one switch depends on that angle is less than or greater than X degree and opens or close.In one embodiment, X is about 80 degree.In one embodiment, if at least one switch angle is greater than when X spends close, and if angle be less than when X spends and open.In one embodiment, switch is electrical switch, and closing switch makes conduction of current through switch, and opening switch prevents that conduction of current is through switch.

In one embodiment, at least one switch comprises the first switch 130 that is positioned at the first hinge and the second switch 132 that is positioned at the second hinge, described the first hinge is formed between the first adjustable side brace 110 of mirror holder 100 and described a pair of adjustable side brace, and described the second hinge is formed between the second adjustable side brace 112 of mirror holder 100 and described a pair of adjustable side brace.In one embodiment, the first switch 130 depend on first angle (for example angle 140) of the first hinge whether be less than or greater than X degree and be open or close, and second switch 132 depend on the second angle of the second hinge whether be less than or greater than Y degree and be open or close.In one embodiment, X approximates Y.

In one embodiment, electronics protective eye lens comprises a controller 150.The controller 150 of Fig. 1 of demonstration is that position is for example inspected, between part (between eyeglass 160 and eyeglass 162) at the eyeglass that can be called protective eye lens nose-bridge frame.But controller energy position is in other regions of electronics protective eye lens.

In one embodiment, depend on that at least one switch is to open or cut out and can operation control 150 monitor the state of electronics protective eye lens.As described herein, if switch is electronics suitching type, if switch can conduct electricity while closing, and if open time switch cannot conduct electricity.Therefore, state (open or close) can pass through circuits sense, and therefore, comes sensing and mensuration by controller.In one embodiment, monitored state comprise monitor user whether have on glasses.

In one embodiment, by monitoring whether the first switch 130 is opened or closed and whether second switch 132 is opened or close and can operation control 150 monitor the state of electronics protective eye lens.In one embodiment, monitored state comprise monitor user whether have on glasses.

In one embodiment, can carry out instruction by operation control, wherein whether instruction is to open or close and whether second switch is opened or close and decide based on the first switch.In one embodiment, instruction comprises the instruction of at least one system On/Off, Presentation Function circulation time, and battery life shows, the adjustment of LCD frequency and reset.In one embodiment, if the first switch and second switch are all closed, carry out the first instruction, if the first switch cuts out and second switch is opened, carry out the second instruction, if the first switch open and second switch are closed, carry out the 3rd instruction, if and the first switch and second switch all open, carry out the 4th instruction.Far and away, the state based on electronics protective eye lens can be carried out and be less than four instructions.

Fig. 2 shows according to another structure chart of the electronics protective eye lens of another embodiment.This embodiment further comprises position on electronics protective eye lens or inner display 280, for example, in other regions of nose-bridge frame or protective eye lens.In one embodiment, display provides information.In one embodiment, the information providing is to control by controller 150.In one embodiment, the information providing is to control by the controller of protective eye lens outside.In one embodiment, instruction comprises that providing user to wear glasses reaches designator how long.In one embodiment, instruction comprises that user has carried glasses and reached designator how long in a given date.In one embodiment, display be position when wear protective eye lens, be close to or towards between the eyeglass of the mirror holder side of user eyes.

In one embodiment, electronics protective eye lens further comprises a battery, and instruction comprises the designator that remaining battery life is provided.

Display can be for example makes for monitoring how long user has had on glasses and/or multifrequency is numerous by user.Therefore user can monitor whether user suitably follows for example doctor or therapist's instruction to use electronics protective eye lens.The operation that in addition, can monitor electronics protective eye lens is used and then by the instruction input control result that device monitors by user access is provided, makes controller on display, provide result to observe for user.

Fig. 3 shows according to another structure chart of the electronics protective eye lens of another embodiment.This embodiment further comprises an electronic interface 390, for example, at nose-bridge frame or in other regions of protective eye lens.In one embodiment, electronic interface 390 allows that controller 150 uploads the monitoring activity of the user of electronics protective eye lens.For example, the state of switch 130,132 can be used in and monitor whether user has had on electronics protective eye lens and how long had on.For example, in the time that therapist or doctor treat user, this is useful.Therapist or doctor can access be stored in the monitoring activity of the user in the memory body of electronics protective eye lens.In one embodiment, electronic interface is wiring interface, and communicating by letter between controller 150 and peripheral control unit is provided.In one embodiment, electronic interface comprises radio interface (transceiver) and the wireless connections between controller 150 and peripheral control unit is provided.In one embodiment, controller 150 and second (outside) controller transmission and/or reception information (comprising instruction).The wireless network via for example bluetooth or Wifi network is allowed in communication, via the hand held device of for example IPad, is distally configured glasses (frequency etc.).

Fig. 4 shows four kinds of different conditions of the electronics protective eye lens determining by the on off state of electronics protective eye lens according to an embodiment.That is to say, in this embodiment, the first state comprises that two switches all cut out, and the second state comprises that a switch cuts out and a switch open, the third state comprises that a switch open and a switch close, and the 4th state comprises that two switches all open.

As shown in Figure 4, the unlatching of the switch by electronics protective eye lens or four kinds of provided states are provided, can be used in the instruction as the controller in electronics protective eye lens.These instructions can comprise the instruction of system On/Off, the function circulation time of display, battery life, the adjustment of the shutter frequency of the LCD eyeglass of electronics protective eye lens, and/or reset instruction.

Fig. 5 shows according to the electrical switch of the electronics protective eye lens of an embodiment.This electrical switch comprises shift knob, and in the time that at least one corresponding temple arm exceedes a predetermined angular with respect to the angle of the horizontal frontal plane of eyeglass, described shift knob cuts out.

Fig. 6 shows according to another electrical switch of the electronics protective eye lens of another embodiment.This electrical switch comprises spring mechanism and shift knob, and in the time that at least one corresponding temple arm exceedes a predetermined angular with respect to the angle of the horizontal frontal plane of eyeglass, described spring mechanism and described shift knob are closed.

Fig. 7 shows according to another electrical switch of the electronics protective eye lens of another embodiment.This electrical switch comprises spring mechanism and shift knob, and in the time that at least one corresponding temple arm exceedes a predetermined angular with respect to the angle of the horizontal frontal plane of eyeglass, described spring mechanism and described shift knob are closed.

Fig. 8 shows according to another electrical switch of the electronics protective eye lens of another embodiment.This electrical switch comprises spring mechanism and shift knob, and in the time that at least one corresponding temple arm exceedes a predetermined angular with respect to the angle of the horizontal frontal plane of eyeglass, described spring mechanism and described shift knob are closed.

Fig. 9 shows the embodiment of a display, shows according to the operation of the electronics protective eye lens of an embodiment and uses information.This embodiment comprises the display of position on eyeglass.But, should be able to recognize, display can position in other regions of protective eye lens, for example, at the inner surface of a temple.In one embodiment, display is on another element, for example can be with electronics protective eye lens wireless or peripheral control unit that wiring ground connects.The demonstration information of demonstration comprises battery life (battery of electronics protective eye lens), accumulation cycle of operation (illustrate during in the accumulation of electronics protective eye lens number while having on, for example because with a period of time of doctor's agreement) and cycle of operation every day (illustrative examples is as having had on the number of minutes of electronics eyes in this day).

Figure 10 shows according to another structure chart of the electronics protective eye lens of another embodiment.This embodiment comprises mirror holder 1000, controller 1050 and display 1060.This embodiment more generally shows electronics protective eye lens, and its middle controller 1050 receives one or more instruction that one of may originate from many differences.In one embodiment, one or more instruction of one or more actual switch of controller 1050 received bits on electronics protective eye lens.In another embodiment, controller 1050 receives self-alignment one or more instruction at an aforementioned actual switch at electronics protective eye lens hinge place.In one embodiment, controller 1050 receives the electronic interface via electronics protective eye lens, from the instruction of peripheral control unit.In one embodiment, controller 1050 receives one or more instructions, and instruction based on one or more reception, shows the operation parameter of protective eye lens on display 1060.

In one embodiment, operation parameter comprises that user has had on protective eye lens and how long reached.In one embodiment, operation parameter comprises when user has had on protective eye lens.In one embodiment, operation parameter comprises the battery life of protective eye lens.

Operation parameter provides the information using about glasses to user and doctor.Operation parameter is not only only available to electronics protective eye lens and sets index.In one embodiment, operation parameter provides user or or the information that uses of the relevant glasses of doctor.

In one embodiment, 1060 of display are being close between the eyeglass of a side of the mirror holder 1000 of user eyes in the time having on protective eye lens.In one embodiment, receive one or more instruction from peripheral control unit.In one embodiment, self-alignment receives one or more instruction at one or more switch of mirror holder.In one embodiment, electronics protective eye lens comprises a pair of temple arm and at least one switch, and wherein at least one switch depends on that at least one temple arm opens or close with respect to the angle of the horizontal frontal plane of one or more eyeglass.In one embodiment, be open or close based at least one switch, receive one or more instruction from described at least one switch.In one embodiment, at least one switch handbag is drawn together the first switch and second switch, and wherein each switch depends on that at least one temple arm opens or close with respect to the angle of the horizontal frontal plane of one or more eyeglass.

Encourage one of in described embodiment two to use, so that brain can not suppressed from simple eye output simultaneously.Another embodiment forces the eyes work of amblyopia to be made great efforts.

In one embodiment, the eyeglass of protective eye lens, for example a pair of glasses, can be LCD eyeglass.

In one embodiment, on two eyeglasses, install shutter by alternately hiding from view back and forth left eyeglass and right eyeglass.For example can adjust the shutter speed of eyeglass.This can complete the frequency that sequencing is hidden from view by prominent part, saddle or mini-roundabout on corresponding mirror holder for example.Switching speed scope can be several milliseconds of extremely not enough several seconds.In another example, switching frequency scope is 1Hz to 15Hz (for example increment size is 1Hz).In another example, switching frequency scope is 6 to 10Hz (for example increment size is 0.5Hz).

In another embodiment, between transfer period, can control the load cycle of hiding from view of left eyeglass and right eyeglass.For example, their relation can be 90 degree or other angles.In another embodiment, by thering is the opening time corresponding eyeglass long compared with other eyeglasses, can force amblyopia eyes work more to be made great efforts.In another embodiment, depend on that eyes are advantage or lazy, indivedual eyeglasses of shutter eyeglass can have different breaking time.

Embodiment comprises that the user (sufferer) to having on electronics protective eye lens grants the course for the treatment of.In one embodiment, comprise outer computer the course for the treatment of, or automatically select the controller that hides from view frequency or hide from view the electronics protective eye lens of frequency order.That selects hides from view frequency or hides from view the situation that frequency order can be based on user and automatically select.The identification of hiding from view frequency or hiding from view the reaction tendency that frequency order can be based on observing from the user/sufferer in past of selecting.That selects hides from view frequency or hides from view the test that frequency order can be based on past user/sufferer or make for identification success or not.

In addition, will hide from view frequency or hide from view frequency order the shutter protective eye lens that is applied to user.In one embodiment, doctor observes sufferer and will hide from view frequency order and be applied to the shutter protective eye lens of user simultaneously.Doctor can keep current setting, or based on monitoring or observing, or doctor can adjust and grants hiding from view frequency or hiding from view frequency order of sufferer.In some cases, sufferer is hidden from view frequency and may be produced psychological fatigue for what apply, and it is no longer valid to hide from view frequency.In one embodiment, change and hide from view frequency and reduce or remove tired impact.

An embodiment of electronics protective eye lens can identification user/sufferer hiding from view frequency or hiding from view frequency order and produced fatigue for previous selection.Electronics protective eye lens then can automatically be adjusted to hide from view frequency or hide from view frequency order and alleviate hiding from view frequency or hiding from view the fatigue effect of the user/sufferer of frequency order of previous selection.

In one embodiment, the difference of shutter eyeglass sign can be on corresponding mirror holder or via wireless far-end control, for example, via switch (previously described switch) sequencing.

In one embodiment, the shutter eyeglass that has corresponding control circuit and a power supply can be placed in the second mirror holder that is attached to main mirror holder via the different institutions of for example Magnet.

In one embodiment, the shutter eyeglass that has corresponding control circuit and a power supply can be placed in an installation mirror holder being arranged on another mirror holder.

In one embodiment, shutter eyeglass can be incorporated in the prescription lens that focus correction is provided, for example bifocus, three focuses or prism etc.

In one embodiment, shutter eyeglass automatically school is adjusted, and when using in the region that has sunlight, can provide screening capacity, but still alternating vision blocking described above can be provided.

In one embodiment, shutter glasses is chargeable, or comprises the power supply of for example battery, for example, to allow that glasses operate within a period of time, a few hours.

In one embodiment, shutter glasses can utilize the functional band of a for example guy rope to fix from rear, and described band can contain control circuit and power supply.Can provide extra ergonomics quality and fixation for active user like this.

In one embodiment, shutter glasses can sell at optometrist and ophthalmologists place.

In another embodiment, the shutter frequency of two eyeglasses can individually be controlled.

Figure 11 shows according to the structure chart of the electronic shutter glasses of another embodiment.As shown in the figure, the embodiment of these electronic shutter glasses comprises left eyeglass 1110 and right eyeglass 1112.In one embodiment, left eyeglass 1110 and right eyeglass 1112 comprise LCD eyeglass.

In one embodiment, controller 1120 provides in the first eyeglass 1110 or the second eyeglass 1112 frequency of at least one or at least one control in breaking time.In one embodiment, left eyeglass 1110 is can operate to hide from view for the first breaking time, and right eyeglass can operate to hide from view for the second breaking time, and controller 1120 is controllably set at least one in the first breaking time and the second breaking time.In one embodiment, frequency or in the blocking cycle control of at least one be adjustable.In one embodiment, the control of the control of the first eyeglass 1110 and the second eyeglass 1112 is irrelevant.In one embodiment, by the switch 1114,1116 of the one in beginning/closing control, FREQUENCY CONTROL and/or load cycle control is provided, control at least in part controller 1120.In one embodiment, data base 1130 comprises the selection of hiding from view frequency and load cycle control.As discussed previously, hide from view frequency and load cycle control and can hide from view frequency and load cycle generation fatigue and upgrade what select because of sufferer.In addition the hiding from view frequency and load cycle control and can comprise and hide from view frequency order and load cycle control of selection.In one embodiment, the shutter frequency (switching to blocking conditioned disjunction state from non-blocking conditioned disjunction state) of two eyeglasses is identical, but the breaking time of an eyeglass or load cycle are different from breaking time or the load cycle of another eyeglass, therefore force eyes of user more to be made great efforts than another eyes work.

In one embodiment, controller 1120 can operate access and store 1140 at least frequently permitted and/or the operating and setting of load cycle from operating and setting.In one embodiment, operating and setting can depend on that the disease of eye of the user of accepting shutter glasses complies with renewal.Moreover, in one embodiment, store 1140 be for store can access monitor message.

In one embodiment, in the first switch 1114 or second switch 1116, at least one can operate to provide instructions to controller 1120.

In one embodiment, display 1150 provides the use information of electronic glasses.In one embodiment, according to the instruction of the first switch 1114 or second switch 1116, provide the information of display by controller plc 1120.

Figure 12 shows according to the structure chart of the electronic shutter glasses of another embodiment.This embodiment provides the example of difference in functionality form, can comprise shutter glasses control circuit 1200.

An embodiment comprises controller 1230, control in the first eyeglass 1110 or the second eyeglass 1112 frequency of at least one or in breaking time at least one.Controller 1230 can connect with peripheral control unit face.

In one embodiment, controller 1230 connects with eyeglass driver 1220 faces of right eyeglass 1212 states with the left eyeglass 1210 of transmission.In one embodiment, eyeglass 1210,1212 comprises LCD eyeglass.Therefore, in this embodiment, eyeglass driver is LDC eyeglass driver.

In one embodiment, the state of left eyeglass 1210 and right eyeglass 1212 comprises blocking state (eyeglass is fuzzy and does not allow light pass through) and non--blocking state (eyeglass is transparent and allows most light pass through).Embodiment comprises intermediateness, depends on that intermediateness allows that not commensurability light passes through eyeglass.The process of hiding from view is included in the eyeglass replacing between blocking and non--blocking.

In one embodiment, controller 1230 connects with memory body 1250 faces.In one embodiment, the left eyeglass 1210 that controller 1230 Self-memory body 1250 accesses store and the operator scheme of right eyeglass 1212 states.In one embodiment, the operation information of the shutter glasses in controller 1230 storing memory bodies 1250 is for future access.In one embodiment, operation information comprises the use of shutter glasses.In one embodiment, operation information comprises the user information that monitors or collect.Can monitor message, the by this compliance of permission decision shutter glasses user by peripheral control unit.That is to say, user within the designated time, have on shutter glasses compliance can by the shutter glasses user of access have on and storing data of kenel decided.

An embodiment comprises the e-management of shutter glasses.In one embodiment, shutter glasses comprises battery.In one embodiment, charhing unit 1242 is controlled the charging of battery.An embodiment comprises power switch 1244.In one embodiment, electrical management 1240 provides and distributes electric power to for example eyeglass driver 1220, controller 1230, memory body 1250, radio communication circuit, touch sensor 1235, LED (light-emittingdiode) 1236, USB (USB (universal serial bus)) interface 1232, in touch sensor 1233 and/or buzzer 1234 at least one.

An embodiment comprises radio communication circuit 1260, allows controller 1230 to communicate by letter with peripheral control unit.In one embodiment, radio communication circuit 1260 is two-way, because controller 1230 can provide information to peripheral control unit, or controller 1230 can receive information from peripheral control unit.Embodiment further comprises antenna 1262, for radio communication can be carried out.Radio communication can be continuous or interrupt.

An embodiment comprises touch sensor 1235.In one embodiment, touch sensor 1235 allows user to communicate by letter with controller 1230.In one embodiment, touch sensor 1235 allows controller 1230 to monitor the user of shutter glasses.

An embodiment comprises LED1236.In one embodiment, LED1236 allows shutter glasses to provide visual communication to for example user.In one embodiment, LED1236 provides the visual indicator of the shutter glasses with the electric power demonstration that for example shutter glasses electric power is opened.

An embodiment comprises USB port 1232, for the wiring communication of connecting up and being communicated to controller 1230 or providing self-controller 1230 is provided.For example, peripheral control unit can be communicated by letter with controller 1230 via USB port 1232.

An embodiment comprises contact/proximity sense 1233.In one embodiment, contact/proximity sense 1233 provides shutter glasses by the person's of wearing instruction.In one embodiment, controller 1230 monitors and uses (having on shutter glasses) based on contact/proximity sense 233.

An embodiment comprises buzzer 1234.In one embodiment, buzzer 234 provides the communication that can hear to for example user.In one embodiment, buzzer pilot cell power shortage.In at least some embodiments, buzzer is for providing guiding to user.For example, buzzer can provide designator to user, to take off or to put on shutter glasses.

In one embodiment, in the first switch 1216 or second switch 1218, at least one is to operate to provide instruction to controller 1230.

In one embodiment, display 1214 provides the use information of electronic glasses.In one embodiment, the information of display is according to the instruction of the first switch 1216 or second switch 1218, provides by controller 1230.

Figure 13 shows according to an embodiment shutter glasses under different operating state.As shown in drawings, embodiment comprises the first state, and wherein the first eyeglass and the second eyeglass are all at non-blocking state.In one embodiment, the second state comprises that an eyeglass (for example, the first eyeglass) is at blocking state, and another eyeglass (for example, the second eyeglass) is at non--blocking state.In one embodiment, the third state comprises that another eyeglass (for example, the second eyeglass) is at blocking state, and eyeglass (for example, the first eyeglass) is at non--blocking state.In one embodiment, the 4th state comprises that two eyeglasses are all at blocking state.As described in, at least some embodiments comprise controls the frequency that changes in other state at least one from a state, or in the blocking cycle of one or more state (and on the contrary, non--blocking cycle) at least one.

Figure 14 shows according to an embodiment, the operating time line of the shutter glasses under different conditions as shown in figure 13.Very first time line shows that the first eyeglass is along with the control of time between non--blocking and blocking.The second timeline shows that the second eyeglass is along with the control of time between non--blocking and blocking.Four kinds of possible states of Figure 13 are by showing according to the timeline of Figure 14 of an embodiment.

Figure 15 shows according to another embodiment, the operating time line of the shutter glasses under different conditions as shown in figure 13.This embodiment comprises that the blocking cycle of the first eyeglass is shorter than the blocking cycle of the second eyeglass, returns alternately to hide from view (blocking) left eyeglass and right eyeglass simultaneously.In this embodiment, the shutter frequency of two eyeglasses is almost identical.The second eyeglass interdicts, in order to make shutter frequency period percentage ratio be greater than the first eyeglass.Therefore, force the vision that uses the user of shutter glasses to use the eyes of corresponding the first eyeglass with longer percentage of time.By interdicting eyes (via hiding from view corresponding eyeglass), shutter glasses forces the brain of user to switch to another eyes.Force those eyes (the corresponding eyeglass not hiding from view) suitably to aim at interesting same target, and brain continue to use eyes until be cycled to repeat and switch to another eyes.Shutter causes the user experience muscle of shutter glasses to aim at the combination of training and the treatment of resistance to compression system.

Figure 16 shows the shutter glasses that comprises capable of regulating blocking degree according to an embodiment.In one embodiment, the blocking level of any eyeglass or degree are adjustable.That is to say, the light quantity of the eyeglass by least one shutter glasses is adjustable.Figure 16 shows the first eyeglass of shutter glasses, wherein the level of blocking or degree be by approach transparent be adjusted to approach fuzzy, between there is by-level or the degree of blocking.In at least some embodiments, blocking level can slowly or rapidly increase, and then blocking can reduce individually lentamente or rapidly.Grant the treatment of shutter glasses user and can indicate blocking and blocking degree how to control indivedual eyeglasses.

At least one embodiment comprise according to wish order adjustment level.The for example level of blocking can be complied with thought and sequencing to be increased or reduces.The blocking degree of each eyeglass can rely on ground or control independently.

In one embodiment, the part blocking of eyeglass comprises the part of interdicting eyeglass, and described part can be selected.

Figure 17 shows the shutter glasses connecing with peripheral control unit face according to an embodiment.In one embodiment, shutter glasses control circuit 200 can operate to communicate by letter with for example peripheral control unit 1700.In one embodiment, peripheral control unit allows the use of user or iatrarchy (1720) user.In one embodiment, user or doctor can be via peripheral control unit 1700 sequencing shutter glasses.In one embodiment, user or doctor can fetch shutter glasses program and the controller 1730 of storage.Therefore, doctor can no thoroughfare the treatment of sequencing shutter glasses.In addition, doctor can monitor that user uses shutter glasses, allows by this iatrarchy user to use compliance and the behaviour in service of shutter glasses.Moreover sensor can be included in the surveillance operation of passing through user that can store.

Figure 18 shows and comprises according to the flow chart of the step of the operation shutter glasses method of an embodiment.First step 1810 comprises the first blocking cycle of the first eyeglass of selecting corrective lens device.Second step 1820 comprises the second blocking cycle of the second eyeglass of selecting corrective lens device.In one embodiment, select the period 1 and treat the vision disease of sufferer second round.For example, the period 1 can be selected with different from second round, more makes great efforts than another eyes work with eyes that force sufferer.Third step 1830 comprise select the first eyeglass blocking and the second eyeglass interdict at least one frequency.For example can determine specifically to interdict frequency to make more efficiently the treatment of current sufferer than more effective percentage of other sufferers.In one embodiment, depend on how sequencing or set shutter glasses that to make frequency be selective and adjustable.

An embodiment of the invention encourage to use two eyes simultaneously, so that brain can not suppressed the output from another eyes.Another embodiment helps amblyopia eyes work more to make great efforts.Other embodiments focus on the other problems about eyes.

As aforementioned, in some embodiments, the eyeglass of a secondary protective eye lens can be shutter, and shutter frequency can be adjusted.For example two eyeglasses can be installed shutter by alternately hiding from view back and forth left eyeglass and right eyeglass on two eyeglasses, utilize an eyeglass to close and the unlatching of another eyeglass, and vice versa.In order to explain, shutter frequency range can be from several milliseconds to the several seconds.In an example, shutter frequency range can be 1Hz to 15Hz.In another embodiment, shutter frequency range can be 6 to 10Hz.In another example, shutter frequency is no more than the frequency that shutter can be arrived by common people's visual experience.For the increment within the scope of, increment is 0.5Hz for example, 1Hz, 2Hz, 3Hz or other increments.

In at least some embodiments, one of can select in two eyeglasses or the shutter frequency of whole various different range.Embodiment comprises that the vision based on sufferer or user or disease of eye are selected the scope of shutter frequency at least partly for doctor or clinicist (or other).The for example treatment of the first disease can suitably provide the first shutter frequency range, and can suitably provide the second shutter frequency range when treatment the second disease.Other factors also can affect the range of choice of shutter frequency.For example experiment can determine that desired shutter frequency is to change along with for example person's age, time, environment, race etc.Embodiment comprises that doctor or clinicist (or other) one or more test result based on carrying out in sufferer selects shutter frequency with it.For example, various shutter frequency range can be tested by the sufferer that wears a secondary shutter glasses, and has on the shutter glasses operating under different shutter frequencies, makes sufferer carry out one or more test.As explanation, the scope of selection can from 0 to 10 hertz.The lowest limit of scope during another one or many day week of can extending.

Embodiment comprises when sufferer is actual and carries out sensing while having on a secondary shutter glasses.This can be for example by being incorporated in the sensor having in glasses and completing.If it is the positions of launching that sensor can determine the temple of for example glasses.If an embodiment further comprises when user has on glasses and monitoring.In one embodiment, a secondary shutter glasses comprises timer, the timing sufferer person of wearing glasses how long and multifrequency numerous at least one.In one embodiment, timer is a part that is attached to, is integrated into shutter glasses or form shutter glasses.In one embodiment, by the information storage relevant with the supervision/sensing of glasses in glasses.In one embodiment, after storing, monitor message can for example be fetched by doctor or clinicist in the future, allows that clinicist determines or measure the compliance (for example having on the time cycle of glasses) of the sufferer of counting the treatment of carrying out doctor or clinicist's suggestion.Fetch and utilize wiring (for example, via the electric connector on glasses) or wireless (for example, via infrared ray sensor).

In one embodiment, timer carries out sensing in the time that sufferer is worn over shutter glasses on his/her head.As explanation, in one embodiment, this comprises the sensor having on.Another embodiment comprises the timer by starting event, for example, press button or the switch of position at glasses.

In one embodiment, motion detector is the sensor as " having on " state.Can setting threshold, if for example actuating quantity exceedes threshold value, suppose that protective eye lens is to have on state.Motion detector can for example be reached by Ji Xie Zhuan Catching-rabbits or accelerometer.

At another embodiment, the sensor of " having on " state comprises two heat sensors.A sensor approximately in the centre of temple, for example, has on the region of the user head of glasses in position in contact.Another sensor can position at the end of temple, approach hinge place.If the temperature contrast of two sensors exceedes particular preset value, protective eye lens is assumed to be the state of having on.Difference is speculated as the people who has on this pair of glasses and causes.

In another embodiment, the sensor that " has on " state is included in the strain gauge at temple hinge place.Suppose in the time having on protective eye lens, because in general, when two temples are during at expanded position, the head breadth of user is a bit larger tham the width between temple, and hinge is generally extended state.If strain gauge exceedes particular preset value, glasses hypothesis is had on.

At another embodiment, the sensor of " having on " state can comprise switch.For example the hinge between temple and corresponding eyeglass holder is switch.In the time of complete export-oriented expansion of temple, switch is opened.Switch can be a pin.In the time that temple completely outwards launches, pin is pressed.In the time that two temples completely outwards launch, in one embodiment, suppose that user has on glasses.

Except monitoring about having on by sufferer the state of a pair of glasses, supervision can comprise and monitors and grant the treatment of sufferer.In another embodiment, monitor and further comprise the feature that monitors sufferer.For example, the eyes of sufferer move or head moves, and sufferer is granted treatment via sensor multi-form on shutter glasses simultaneously.Moreover monitor message can store for fetch in the future.For example, doctor or clinicist can fetch monitor message, not only for measuring the compliance of sufferer, also can be used for obtaining extra sufferer information, and described extraneous information is available from having on glasses in sufferer and providing treatment by shutter glasses.

In an embodiment that utilizes two eyeglasses, the shutter of each eyeglass is by Waveform Control, for example voltage waveform, and can adjust two phase relations between eyeglass waveform.In an example, be about mutually 90 degree.In another embodiment, phase relation can be set other angles for.

In one embodiment, the shutter frequency of two eyeglasses can individually be controlled.

In one embodiment, the shutter eyeglass of describing in this application also can be improved light transmission capacity or tone.As an example, shutter eyeglass automatically school is adjusted and can be provided screening capacity when being used in sunlight region.As an example, light transmission capacity can manually reduce, if for example used before bright supervision, carries out via the switch on corresponding mirror holder.Be found to, in some cases, the eyes stress that the brightness of supervision is directly received with computer is relevant.In another embodiment, two of mirror holder eyeglasses can be adjusted individually with regard to their light transmission capacity.

Change light transmittance and can have different application.An example is amblyopia eye.Can drop to for the light transmittance of the eyeglass of good eyes very low, for example 10% or be more low to moderate approximately 5%, or interdict in fact all light and do not arrive good eyes.If eyes can be seen some things, instead of all sight lines are blocked, and it is more comfortable that some user may be felt.

Another tilts about the eyeglass that makes a secondary shutter glasses or the application of reflection is to make shutter more not remarkable.The low frequency shutter of glasses may be considerablely to see for other people that approach sufferer, the attention that therefore attracts potentially non-sufferer to want.The attention that non-sufferer is wanted may cause does not wear glasses or seldom wears glasses.By the eyeglass of glasses is tilted or reflection, the effect of shutter may be pretended at least partly, therefore reduces the attention of wanting from other people non-sufferer.The inclination of eyeglass or reflection can be by for example utilizing reflectance coating coated lens to realize.In one embodiment, such coating is known as polychromatic finish or REVO coating.

In one embodiment, the light transmittance of the eyeglass by eyeglass can homogeneous.For example, eyeglass can subregion.Use liquid crystal is example, and eyeglass driver circuit can provide the signal of telecommunication to one or more region, as addressing display panels.As illustrative examples, region can be hurdle or vertical area.Another illustrative examples, region can be the row that cross eyeglass.In another illustrative examples, region can be and is listed as the region intersecting with hurdle.With hurdle as an example, each hurdle can be individually by corresponding conductor addressing to control light transmittance.The application of embodiment is that instruction brain moves the region of eyes to eyeglass like this, and in described region, eyes can be seen.Two eyeglasses supposing a pair of glasses are separated into individually the hurdle that 10 homogeneous separate.After labor, optometrist determines blocking light or at least interdicts part light to enter the left side of left eye, encourages left eye to move towards nose with activation.Then optometrist handling lens driver circuit, so that the light on three hurdles, a left side of left eyeglass is interdicted, utilizes 7 remaining hurdles to allow light to enter.In another embodiment, eyeglass driver circuit can change by the discontinuous gradient that the sequencing light transmittance on each hurdle is carried out in any direction.

In one embodiment, do not block the transformation of shutter, but gradually.In other words, the change speed of light transmittance is little by little, for example, with linear or sinusoidal wave form, or changes via other forms of waveform.In some cases, the change more relaxing of light transmittance, for example, during shutter, can more smoothly inject eyes.

In one embodiment, wherein shutter transformation is more precipitous, for example, be the waveform of essence rectangle, can control the On/Off load cycle of the shutter of eyeglass.In an example, load cycle is 50%.In another embodiment, load cycle is other percentage ratios.Have in the embodiment of two eyeglasses at another, the load cycle of each eyeglass can be controlled independently.

In an example, by making corresponding eyeglass open the longer time than another eyeglass, can force the eyes work of amblyopia more to be made great efforts.In another embodiment, each eyeglass can have different breaking time, depends on which eye is more dominant or lazier.In another example, the eyeglass of normal eye can be coupled with shutter, and the eyeglass of amblyopia eyes retains not blocking simultaneously, or does not establish shutter.

In an embodiment with two eyeglasses, the change of the light transmission features of each eyeglass is to control by waveform, and the waveform of two eyeglasses can be different.If the frequency of two waveforms, the applicable words of light transmission capacity, the blocking-up of shutter, and/or applicable words, the load cycle of On/Off can be different.

In one embodiment, one or more sign of shutter eyeglass can be via one or more switching programme on corresponding mirror holder.The example of switch can be included in prominent part, saddle or mini-roundabout on mirror holder, carrys out for example shutter of sequencing or hides from view frequency.In another embodiment.The micro-wirelessly sequencing of table of one or more shutter eyeglass, for example, by far-end control.

In one embodiment, shutter eyeglass can be integrated on prescription lens, and focus correction is provided, for example two focuses, three focuses, prism etc.

In one embodiment, shutter eyeglass is based on liquid crystal lens technology.

In one embodiment, protective eye lens comprises single lens.For example, eyeglass can be the single eyeglass of package around.

In one embodiment, the distance between the eyeglass of a for example secondary shutter glasses is less than 13mm, and between other eyeglasses, more short distance is less than 13mm.

In one embodiment, the electronic component of shutter eyeglass is in the protective eye lens mirror holder of shutter eyeglass.Another embodiment, has the shutter eyeglass of the corresponding electronic component of for example control circuit, can be in the second mirror holder, and it can be attached to main mirror holder via the different institutions of for example Magnet.Main mirror holder can comprise a pair of prescription lens.As illustrative examples, can there be shell or chassis fixing prescription lens, utilize via the outside shutter eyeglass that is arranged in clip for example.In another embodiment, having the shutter eyeglass of corresponding control circuit can be for being assemblied in assembling mirror holder on another mirror holder.In one embodiment, the electronics protective eye lens with shutter glasses is chargeable or comprises power supply, and for example battery to allow glasses within a time cycle, for example, operates in a few hours.

In at least some embodiments, comprise the system and method that electronic glasses treatment is provided.In one embodiment, can preselected treatment be pre-storage, and can carry out access (for example doctor or clinicist) by treatment supplier.In one embodiment, can preselected therapy be that the sufferer of suffering from similar disease based on utilization is tested in advance and tests.According to an embodiment, based on the situation of sufferer of suffering from present disease, can download one or more preselected therapy to electronics protective eye lens.In one embodiment, by the treatment accessible servomechanism of supplier or computer, can operate to provide user interface to treatment supplier, allow treatment supplier easily the situation based on sufferer one of select in preselected therapy.In one embodiment, a menu that provides treatment to select is provided user circle person.Electronic therapy provides system to provide an easy method to make to treat supplier and selects therapy and then the therapy of selection be downloaded to electronics protective eye lens.

In one embodiment, the therapy of selection is downloaded to the electronics protective eye lens of sufferer from treatment supplier's computer or the servomechanism of far-end.As the application's explanation, in one embodiment, electronics protective eye lens comprises wiring or radio interface, allows electronics protective eye lens face to connect peripheral control unit, for example, treat supplier's computer or far-end servomechanism.

At least some embodiments comprise the use of the electronics protective eye lens that monitors user (sufferer).Monitor the information that allows sufferer and treatment supplier to comply with the what state of the treatment of selection about sufferer.Moreover, along with the use monitoring, if phase user is not suitably complied with the use of the electronics protective eye lens based on prescribed treatment suggestion, can provide and remind to user.

Monitored user further allows treatment supplier determines how to make the treatment of granting carry out well.If the effect that the treatment of selecting is not expected, can do extra treatment and select.Extra treatment selects formerly prerequisite for during treating, to utilize the supervision of electronics protective eye lens to make for assisting.Moreover, in one embodiment, extra selection can be easily and/or automatically by or carry out for treatment supplier.In one embodiment, provide the system and method for electronic glasses treatment that extra selection is provided, in one embodiment, can be undertaken by for example menu at user interface by treatment supplier.

In one embodiment, treatment system is to depend on to hide from view frequency or hide from view frequency order.The correspondence of the shutter protective eye lens that is automatically applied to user is hidden from view frequency by the treatment of downloading.In one embodiment, clinicist observes sufferer and the order of hiding from view frequency is administered to simultaneously the shutter protective eye lens of user.Clinicist can keep current setting, or based on monitoring or observing, clinicist can adjust and will be applied to hiding from view frequency or hiding from view frequency order of sufferer.This is adjusted, for example, via the menu of different therapys, select by clinicist.In some cases, the psychology of sufferer may for application hide from view frequency produce tired, and hide from view frequency may be no longer valid.In one embodiment, change and hide from view frequency and reduce or remove tired impact.For at least some embodiments, hide from view frequency or hide from view frequency order and be predetermined and automatically select, and situation based on sufferer is downloaded to the electronics protective eye lens of user.

The specific embodiment although described and explained, these embodiments are not limited to specific form or the configuration describing and explain.These embodiments are only limited to claims.

Claims (37)

1. a device, is characterized in that comprising:

Mirror holder, comprises and forms a pair of temple arm that is applicable to the protective eye lens of fixing one or more eyeglass, and

At least one switch, wherein at least one switch depends on that at least one temple arm opens or close with respect to the angle of the horizontal frontal plane of described one or more eyeglass.

2. device as claimed in claim 1, is characterized in that described at least one switch bit is at least one hinge, and described hinge is formed in described mirror holder and described a pair of adjustable side arm between at least one.

3. device as claimed in claim 2, is characterized in that described at least one switch comprises during forcing at least one switch to present opens or close the spring mechanism of at least one.

4. device as claimed in claim 1, it is characterized in that at least one switch be position at least one hinge, described hinge forms boundary between one or more eyeglass and described a pair of adjustable temple arm.

5. device as claimed in claim 4, is characterized in that depending on whether described angle is less than or greater than X degree, described at least one switch open or close.

6. device as claimed in claim 5, if it is characterized in that, described angle is greater than X degree, described at least one switch cuts out, and if described angle be less than X degree, described at least one switch open.

7. device as claimed in claim 1, it is characterized in that described at least one switch comprises first switch of position in the first hinge, described the first hinge is formed between the first adjustable side brace of described mirror holder and described a pair of adjustable side brace, and the second switch of position in the second hinge, described the second hinge is formed between the second adjustable side brace of described mirror holder and described a pair of adjustable side brace.

8. device as claimed in claim 7, it is characterized in that whether the first angle that depends on described the first hinge is less than or greater than X degree, described the first switch is for opening or cutting out, and whether the second angle that depends on described the second hinge be less than or greater than Y degree, described second switch is for opening or closing.

9. device as claimed in claim 1, is characterized in that further comprising controller.

10. device as claimed in claim 9, is characterized in that described controller can operate with by depending on the state of monitoring arrangement is opened or closed at least one switch whether.

11. devices as claimed in claim 1, is characterized in that the state monitoring comprises supervision user and whether has on glasses.

12. devices as claimed in claim 7, is characterized in that further comprising controller.

13. devices as claimed in claim 12, is characterized in that described controller can operate with by monitoring whether described the first switch is opened or closed and the state of monitoring arrangement is opened or closed to described second switch whether.

14. devices as claimed in claim 12, is characterized in that the state monitoring comprises whether supervision user has on glasses.

15. devices as claimed in claim 12, is characterized in that described controller is to operate to carry out an instruction, and whether wherein said instruction is to open or close and whether described second switch is opened or close and decide based on described the first switch.

16. devices as claimed in claim 15, is characterized in that described instruction comprises at least one in On/Off instruction, Presentation Function circulation time, battery life demonstration, the adjustment of LCD frequency and reset.

17. devices as claimed in claim 15, if it is characterized in that the first switch and second switch all closes, carry out the first instruction, if the first switch cuts out and second switch is opened, carry out the second instruction, if the first switch open and second switch are closed, carry out the 3rd instruction, if and the first switch and second switch all open, carry out the 4th instruction.

18. devices as claimed in claim 15, it is characterized in that described instruction comprises provides user to have on glasses designator how long.

19. devices as claimed in claim 15, it is characterized in that described instruction comprises provides user in a few days having on given day glasses designator how long.

20. devices as claimed in claim 15, is characterized in that further comprising battery, and wherein said instruction comprises the designator in the residual life-span that battery is provided.

21. devices as claimed in claim 1, is characterized in that display position is between the described eyeglass of the described mirror holder side of contiguous user eyes in the time that user has on eyes.

22. devices as claimed in claim 1, is characterized in that further comprising controller and transceiver.

23. devices as claimed in claim 22, is characterized in that described controller can operate to communicate by letter with second controller via described transceiver.

24. 1 kinds of devices, is characterized in that comprising

Formation is applicable to the mirror holder of the protective eye lens of fixing one or more eyeglass;

Display;

Controller, wherein said controller can operate with

Receive one or more instruction; And

Receive based on one or more operation parameter that instruction shows described protective eye lens on described display.

25. devices as claimed in claim 24, is characterized in that operation parameter comprises that user has had on the time how long.

26. devices as claimed in claim 24, is characterized in that operation parameter comprises when user has had on protective eye lens.

27. devices as claimed in claim 24, is characterized in that operation parameter comprises the battery life of protective eye lens.

28. devices as claimed in claim 24, is characterized in that display position is between the described eyeglass of the described mirror holder side of contiguous user eyes in the time that user has on eyes.

29. devices as claimed in claim 24, is characterized in that receiving one or more instruction by peripheral control unit.

30. devices as claimed in claim 24, is characterized in that receiving one or more instruction by position at one or more switch of described mirror holder.

31. as device as claimed in claim 24, it is characterized in that device further comprises:

A pair of temple arm; And at least one switch, wherein depending on the angle of at least one temple arm with respect to the horizontal frontal plane of one or more eyeglass, described at least one switch is open or cut out

32. as the device of claim 31, it is characterized in that whether opening or close based at least one switch, receives one or more instruction from described at least one switch.

33. as the device of claim 32, it is characterized in that described at least one switch comprises the first switch and second switch, wherein depends on the angle of at least one temple arm with respect to the horizontal frontal plane of one or more eyeglass, and each switch is open or cut out.

34. devices as claimed in claim 24, it is characterized in that described one or more eyeglass comprises the first eyeglass and the second eyeglass, and it is characterized in that the first eyeglass can operate to carry out the blocking of the first breaking time, the second eyeglass can operate to carry out the blocking of the second breaking time; And further comprise: set at least one controller of the first breaking time and the second breaking time for controlling.

35. as the device of claim 34, it is characterized in that the first eyeglass and the second eyeglass replace between blocking and non--blocking.

36. as the device of claim 34, it is characterized in that during the first breaking time, and the first eyeglass prevents that in fact light from passing through the first eyeglass, and during the second breaking time, the second eyeglass prevents that in fact light from passing through the second eyeglass.

37. as the device of claim 34, it is characterized in that, in the time not operating, the first eyeglass allows in fact light to pass through the first eyeglass within the first breaking time, and in the time not operating within the second breaking time, the second eyeglass allows in fact light to pass through the second eyeglass.