阅读说明：本技术 一种美瞳式ar眼镜 (Beautiful pupil formula AR glasses ) 是由 苏进 张志扬 李琦 杨莉 苑伟 于 2021-01-19 设计创作，主要内容包括：本发明提供一种美瞳式AR眼镜,包括互相连接的镜腿和镜框组件,还包括无线供电装置与美瞳件,所述无线供电装置包括依次电连接的供电线圈、变频器模块与电源模块,所述供电线圈环绕嵌设于所述镜框组件内；所述美瞳件朝向所述供电线圈设置,所述美瞳件包括载体、受电线圈、整流电路模块与LED模块,所述受电线圈、所述整流模块与所述LED模块依次电连接,且二者均设于所述载体。本发明提供的美瞳式AR眼镜解决了相关技术中AR眼镜功能单一,无法给未佩戴者带来用户体验的技术问题。(The invention provides American pupil type AR (augmented reality) glasses, which comprise glasses legs and a glasses frame component which are connected with each other, and further comprise a wireless power supply device and an American pupil component, wherein the wireless power supply device comprises a power supply coil, a frequency converter module and a power supply module which are sequentially and electrically connected, and the power supply coil is embedded in the glasses frame component in a surrounding manner; the beautiful pupil piece orientation power supply coil sets up, beautiful pupil piece includes carrier, receiving coil, rectifier circuit module and LED module, receiving coil rectifying module with the LED module electricity is connected in proper order, and the two is all located the carrier. The American pupil type AR glasses provided by the invention solve the technical problems that the AR glasses in the related technology have single function and cannot bring user experience to unworn persons.)

1. The American pupil type AR glasses comprise glasses legs and a glasses frame component which are connected with each other, and are characterized by further comprising a wireless power supply device and an American pupil component, wherein the wireless power supply device comprises a power supply coil, a frequency converter module and a power supply module which are sequentially and electrically connected, and the power supply coil is embedded in the glasses frame component in a surrounding mode;

the pupil beautifying component faces the power supply coil, the pupil beautifying component comprises a carrier, a power receiving coil, a rectifying circuit module and an LED module, the power receiving coil, the rectifying circuit module and the LED module are electrically connected in sequence, and the power receiving coil, the rectifying circuit module and the LED module are all arranged on the carrier.

2. The american pupil AR eyewear of claim 1, wherein the frame assembly comprises a frame and a display module embedded in the frame, wherein the power coil is embedded around the frame, and the temple is connected to the frame.

3. The American pupil AR glasses of claim 2 wherein the carrier is disposed outside the display module.

4. The American pupil AR glasses of claim 2 wherein the carrier is embedded within a transparent inner side of the display module.

5. The american pupil AR eyeglass of claim 2, wherein the display module is removably coupled to the frame, and wherein the carrier is suspended within the frame by a support when the display module is detached from the frame.

6. The american pupil AR eyewear of claim 2, wherein the display module is removably coupled to the frame, and when the display module is detached from the frame, the carrier is a contact lens, and the power receiving coil is made of ITO.

7. The American pupil AR eyeglasses according to claim 6, wherein said carrier comprises an inner layer and an outer layer, the periphery of said inner layer is connected with the periphery of said outer layer, and said power receiving coil, said rectifier circuit module and said LED module are disposed between said inner layer and said outer layer.

8. The American pupil AR eyeglasses according to any one of claims 1 to 7, wherein said transducer module and power module are provided on said temple.

9. The american pupil AR eyewear of claim 8, wherein the frame assembly, the american pupil, and the wirelessly powered device are equal in number and are both two.

10. The american pupil AR glasses according to claim 9, further comprising a control switch, the control switch comprising a housing, a rotating member, a first button, and a second button; the box body is embedded in the glasses legs, the rotating piece extends into the box body and is in rotating connection with the box body, and the first button and the second button are embedded in the rotating piece; the first button and the second button are respectively used for controlling the starting of the two wireless power supply devices.

Technical Field

The invention relates to the technical field of AR (augmented reality) glasses, in particular to American pupil type AR glasses.

Background

The AR glasses are a product with science fiction colors which is firstly made by Google and also a product with a forever technology; taking it up can experience science fiction movies immersive. The AR glasses can also be regarded as a miniature mobile phone, the current state of the user is judged by tracking the eye sight track, corresponding functions can be started, and if the user needs to make a call or send a short message, the user only needs to start Google Voice input information.

In the related art, the AR glasses are single in function and only can give the visual experience to the wearer. It can't bring decorative effect for the person of wearing, also can't bring visual experience for the person who does not wear.

Therefore, there is a need to provide new american pupil AR glasses to solve the above technical problems.

Disclosure of Invention

The invention provides beautiful pupil type AR glasses, which solve the technical problems that AR glasses in the related art are single in function and cannot bring user experience to unworn persons.

In order to solve the technical problem, the American pupil AR glasses provided by the invention comprise glasses legs and a glasses frame component which are connected with each other, and are characterized by further comprising a wireless power supply device and an American pupil component, wherein the wireless power supply device comprises a power supply coil, a frequency converter module and a power supply module which are electrically connected in sequence, and the power supply coil is embedded in the glasses frame component in a surrounding manner;

the pupil beautifying component faces the power supply coil, the pupil beautifying component comprises a carrier, a power receiving coil, a rectifying circuit module and an LED module, the power receiving coil, the rectifying circuit module and the LED module are electrically connected in sequence, and the power receiving coil, the rectifying circuit module and the LED module are all arranged on the carrier.

Preferably, the picture frame subassembly includes mirror frame and display module assembly, the display module assembly inlays to be located in the mirror frame, wherein, power supply coil encircles to inlay to be located in the mirror frame, the mirror leg with the mirror frame is connected.

Preferably, the carrier is arranged on the outer side of the display module.

Preferably, the carrier is embedded in the transparent inner side of the display module.

Preferably, the display module is detachably connected to the mirror frame, and when the display module is detached from the mirror frame, the carrier is suspended in the mirror frame by a support.

Preferably, the display module is detachably connected with the mirror frame, when the display module is detached from the mirror frame, the carrier is a corneal contact lens, and the power receiving coil is made of an ITO material.

Preferably, the carrier includes an inner layer and an outer layer, the periphery of the inner layer is connected to the periphery of the outer layer, and the power receiving coil, the rectifier circuit module and the LED module are disposed between the inner layer and the outer layer.

Preferably, the frequency converter module and the power module are arranged on the glasses legs.

Preferably, the number of the mirror frame assembly, the number of the cosmetic pupil piece and the number of the wireless power supply device are equal, and the number of the cosmetic pupil piece and the number of the wireless power supply device are two.

Preferably, the american pupil AR glasses further comprise a control switch, wherein the control switch comprises a box body, a rotating part, a first button and a second button; the box body is embedded in the glasses legs, the rotating piece extends into the box body and is in rotating connection with the box body, and the first button and the second button are embedded in the rotating piece; the first button and the second button are respectively used for controlling the starting of the two wireless power supply devices.

Compared with the related art, the American pupil type AR glasses provided by the invention have the following beneficial effects:

starting the battery module to supply power, wherein the frequency conversion circuit module converts direct current of the battery module into alternating current and supplies the alternating current to the power supply coil; the power supply coil generates an alternating magnetic field due to the access of alternating current. The change of the magnetic field can generate induction current in the power receiving coil, thereby generating alternating current; the rectifier circuit module converts alternating current in the power receiving coil into direct current for the LED module to use, so that the LED module flickers and emits light; therefore, the gorgeous visual effect of the luminous pupil-beautifying piece is achieved, and good user decoration experience is brought to both a wearer and a non-wearer.

Drawings

Fig. 1 is a use scene diagram of the american pupil AR glasses according to the present invention;

fig. 2 is a schematic structural view of a first embodiment of american pupil AR glasses according to the present invention;

figure 3 is a schematic structural view of the aesthetic pupil piece shown in figure 1;

figure 4 is a cross-sectional view of the aesthetic of figure 3;

figure 5 is a schematic diagram of the design of the american pupil AR glasses shown in figure 2;

fig. 6 is a schematic structural view of a second embodiment of american pupil AR glasses according to the present invention;

FIG. 7 is a cross-sectional view of the control switch shown in FIG. 6;

FIG. 8 is a use scenario diagram of the control switch shown in FIG. 7;

fig. 9 is a circuit schematic of the control switch shown in fig. 7.

Reference numbers in the figures:

1-glasses legs, 2-glasses frame components, 3-wireless power supply devices, 4-pupil beautifying pieces and 5-control switches;

21-mirror frame, 22-display module;

31-a power supply coil, 32-a frequency converter module and 33-a power supply module;

41-carrier, 42-power receiving coil, 43-rectifying circuit module and 44-LED module; 411-inner layer, 412-outer layer;

51-box, 52-turn, 53-drive shaft, 54-first button, 55-second button, 56-first conductive piece, 57-second conductive piece, 58-first contact, 59-second contact, 59 a-third contact.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a pair of American pupil type AR glasses.

First embodiment

Referring to fig. 1-2 and fig. 5 in combination, in the first embodiment of the invention, the mydriatic AR glasses include a temple 1 and a frame assembly 2 connected to each other, and further include a wireless power supply device 3 and a mydriatic member 4, where the wireless power supply device 3 includes a power supply coil 31, a frequency converter module 32 and a power supply module 33 electrically connected in sequence, and the power supply coil 31 is embedded in the frame assembly 2 in a surrounding manner;

the pupil beautifying component 4 faces the power supply coil 31, the pupil beautifying component 4 comprises a carrier 41, a power receiving coil 42, a rectifying circuit module 43 and an LED module 44, the power receiving coil 42, the rectifying circuit module 43 and the LED module 44 are electrically connected in sequence, and the three components are all arranged on the carrier 41.

Referring to fig. 5 again, in the embodiment, the power module 33 may be a rechargeable battery, and the power module 33 is configured to provide direct current to the frequency converter module 32.

Starting the power module 33 to supply power, and the frequency converter module 32 converting the dc power of the power module 33 into ac power and supplying the ac power to the power supply coil 31; the power supply coil 31 generates an alternating magnetic field when an alternating current is supplied thereto. The change in the magnetic field induces an induced current in the power receiving coil 42, thereby generating an alternating current; the rectifier circuit module 43 converts the alternating current in the power receiving coil 42 into direct current for the LED module 44 to use, so that the LED module 44 flashes; therefore, the luminous gorgeous visual effect of the pupil beautifying piece 4 is realized, and good user decoration experience is brought to both a wearer and a non-wearer.

In this embodiment, the power supply coil 31 and the power receiving coil 42 may be arranged in a manner conforming to a wireless charging QI protocol.

Referring to fig. 2 again, the spectacle frame assembly 2 includes a spectacle frame 21 and a display module 22, the display module 22 is embedded in the spectacle frame 21, wherein the power supply coil 31 is embedded in the spectacle frame 21 in a surrounding manner, and the spectacle legs 1 are connected to the spectacle frame 21.

Referring to fig. 1-4, in an embodiment, the carrier 41 may be disposed outside the display module 22. The carrier 41 may also be embedded inside the display module 22, for example, the carrier 41 is embedded inside the transparent glass of the display module 22. In order to ensure the visual effect of the pupil beautifying device 4, the wearer can close the display module 22 when the pupil beautifying device 4 is used.

In another embodiment, the display module 22 is detachably connected to the mirror frame 21, and when the display module 22 is detached from the mirror frame 21, the carrier 41 is suspended in the mirror frame 21 by a support.

In another embodiment, the display module 22 is detachably connected to the mirror frame 21, and when the display module 22 is detached from the mirror frame 21, the carrier 41 is a contact lens (contact lens), and the power receiving coil 42 is made of ITO material.

The ITO material is an N-type oxide semiconductor, i.e., indium tin oxide, and the ITO thin film, i.e., a transparent conductive film of an indium tin oxide semiconductor, is a mature transparent conductive material in the prior art. The power receiving coil 42 is made of an ITO material, so that transparent installation can be achieved, and meanwhile, the stability of receiving and converting electric energy of the power receiving coil 42 is guaranteed.

Referring to fig. 3 and fig. 4, in detail, the carrier 41 includes an inner layer 411 and an outer layer 412, a periphery of the inner layer 411 is connected to a periphery of the outer layer 412, and the power receiving coil 42, the rectifier circuit module 43, and the LED module 44 are disposed between the inner layer 411 and the outer layer 412.

In this embodiment, the frequency converter module 32 and the power module 33 are disposed on the temple 1. It is understood that, in other embodiments, the frequency converter module 32 and the power supply module 33 may be disposed in the mirror frame 21.

In this embodiment, the numbers of the mirror frame assembly 2, the pupil beautifying component 4 and the wireless power supply device 3 are equal to each other, and are two, and the mirror frame assembly, the pupil beautifying component 4 and the wireless power supply device can be arranged in a one-to-one correspondence manner.

It is understood that, in other embodiments, the number of the mirror frame assembly 2 and the cosmetic pupil device 4 may be two, and the number of the wireless power supply device 3 may also be one, so long as the effect of the cosmetic pupil device 4 emitting light is satisfied.

The working principle of the american pupil AR glasses provided by this embodiment is as follows:

starting the power module 33 to supply power, and the frequency converter module 32 converting the dc power of the power module 33 into ac power and supplying the ac power to the power supply coil 31;

the power supply coil 31 generates an alternating magnetic field when an alternating current is supplied thereto. The change in the magnetic field induces an induced current in the power receiving coil 42, thereby generating an alternating current;

the rectifier circuit module 43 converts the ac power in the power receiving coil 42 into dc power for the LED module 44 to flash the LED module 44.

Second embodiment

Referring to fig. 6-9, when the number of the frame assembly 2, the pupil beautifying component 4 and the wireless power supply device 3 is equal to two, and the two are all able to be disposed in one-to-one correspondence; based on the american pupil AR glasses provided by the first embodiment of the present invention, a second embodiment of the present invention provides another kind of american pupil AR glasses, which are different in that:

the mydriatic AR glasses further comprise a control switch 5, wherein the control switch 5 comprises a box body 51, a rotating part 52, a first button 54 and a second button 55; the box body 51 is embedded in the glasses legs 1, the rotating piece 52 extends into the box body 51 and is rotatably connected with the box body 51, and the first button 54 and the second button 55 are both embedded in the rotating piece 52; wherein, the first button 54 and the second button 55 are respectively used for controlling the activation of the two wireless power supply devices 3.

Through the arrangement of the first button 54 and the second button 55, the light-emitting effect of the two pupil beautifying pieces 4 can be conveniently controlled, and the two pupil beautifying pieces 4 can emit light at the same time, or one pupil beautifying piece 4 emits light, and the other pupil beautifying piece 4 does not emit light.

The control switch 5 further includes a driving shaft 53, and the driving shaft 53 is disposed on the rotating member 52 and located between the first button 54 and the second button 55.

The control switch 5 further includes a first conductive member 56, a second conductive member 57, a first contact 58 and a second contact 59 which are disposed in the box 51, the first conductive member 56 and the second conductive member 57 are respectively embedded at two ends of the rotating member 52, and the first contact 58 and the second contact 59 are respectively disposed at the top end and the bottom end of the box 51; the first conductive member 56, the first button 54 and the first contact 58 are connected in series with the power supply coil 31, the frequency converter module 32 and the power supply module 33 in one of the wireless power supply devices 3; the second conductive member 57, the second button 55 and the second contact 59 are connected in series with the power supply coil 31, the frequency converter module 32 and the power supply module 33 in another wireless power supply device 3.

The rotation of the rotating member 52 driven by the driving shaft 53 can make the first conductive member 56 disengage from the first contact 58 and the second conductive member 57 disengage from the second contact 59, thereby controlling the light emission and non-light emission of the two pupillary devices 4 at one time.

The control switch 5 further includes two third contacts 59a, the third contacts 59a are located between the first contact 58 and the second contact 59, and the two third contacts 59a are respectively disposed on two sides of the box 51; one of the third contacts 59a is connected to the power supply coil 31 of one of the wireless power supply devices 3, and the other third contact 59a, the frequency converter module 32 of the other wireless power supply device 3, the power supply module 33, and the second button 55 are electrically connected in this order.

The rotating member 4 is driven by the driving shaft 53 to rotate, so that the first conductive member 56 is conducted with one third contact 59a after being separated from the first contact 58, and the second conductive member 57 is conducted with the other third contact 59a after being separated from the second contact 59, thereby conveniently realizing the switching between the state that two pupil members 4 emit light and the state that one pupil member 4 emits light.

For ease of understanding of the switching states, the detailed description is as follows:

referring to fig. 9, it is not defined that the first button 54 is S1, the second button 55 is S2, the first conductive member 56 is S3, the second conductive member 57 is S4, the first contact 58 is i, and the second contact 59 is iv; one third contact 59a is iii and the other third contact 59a is ii.

The power supply coil 31 in one wireless power supply device 3 is L1, the frequency converter module 32 is R1, the power supply module 33 is E1, the power supply coil 31 in the other wireless power supply device 3 is L2, the frequency converter module 32 is R2, and the power supply module 33 is E2.

Referring to fig. 7 and fig. 9 in combination, when the first button 54 and the second button 55 control the activation of two wireless power supply devices 3 simultaneously; (i.e., both S1 and S2 are closed).

The first conductive member 56 is in communication with a first contact 58, and the second conductive member 57 is in communication with a second contact 59; that is, S3 is communicated with I, and S4 is communicated with IV; at the moment, the two wireless power supply devices 3 work simultaneously, and the two pupil beautifying pieces 4 can emit light;

referring to fig. 8 and 9, when the driving shaft 53 drives the rotating member 4 to rotate, the first conductive member 56 is conducted to one third contact 59a after being separated from the first contact 58, and the second conductive member 57 is conducted to the other third contact 59a after being separated from the second contact 59;

i.e., S3 communicates with II, S4 communicates with III; at this time, L1, E2, and R2 constitute a new wireless power supply device, so that the pupil 4 corresponding to L1 emits light, and the other pupil 4 does not emit light.

Through the driving shaft 53 driving the rotating part 52 to rotate for multiple times, the switching between the state that two aesthetic pupils 4 emit light and the state that one aesthetic pupils 4 emit light can be realized, so that a more dazzling and attractive user visual experience can be obtained.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.