CN108535886B - Intelligent glasses - Google Patents

Abstract

The invention discloses intelligent glasses, which comprise a glasses frame and two lens components arranged on the glasses frame, wherein each lens component comprises: the pair of lenses are arranged at intervals in front and back to form a vacuum mirror cavity with the mirror frame; light curtain transmitting means for transmitting one or more layers of light into the mirror cavity to form one or more layers of light curtains, respectively, the layers of light curtains being parallel to each other; a light curtain receiving device for receiving light rays irradiated to the inner side of the mirror frame; the light curtain transmitting device and the light curtain receiving device are respectively arranged on the inner side of the mirror frame and at least arranged on the two opposite sides of the mirror cavity; the intelligent glasses at least have two use states, the intensity of the light curtain of two use states is different or the wavelength of the light curtain of two use states is different. The shape and the color of the light curtain in the vacuum mirror cavity can be adjusted by changing the intensity or the wavelength of the light curtain emitting device, so that the vacuum mirror has various use states and various functions.

Description

Intelligent glasses

Technical Field

The invention relates to the field of daily necessities, in particular to intelligent glasses integrated with multiple functions.

Background

Currently, the following three types of glasses are mainly used:

(1) And conventional spectacles having functions of myopia, hyperopia, presbyopia and the like, which are made of glass materials, resin materials (such as PC materials) and the like. The glasses have the following defects: the function is single to the glasses degree is measured according to user's actual conditions and is matchd, once fixed the preparation just can not change. If the user's vision changes, such as deepens, the vision must be measured again and customized again according to the user's situation.

(2) And functional glasses such as color changing mirrors and shading mirrors made of glass materials, resin materials, plastic materials and the like. Such glasses have the disadvantage of single function and use.

(3) And glasses with informatization function. The product has the same functions as a smart phone, and can take photos, make video calls and map navigation, surf the internet, process text information, email and the like. The product has the defects that the product can only be used for leisure, entertainment and informatization processing, has no original functions of glasses, namely functions of myopia, hyperopia, presbyopia and the like, and has no other new functions which are convenient to expand at any time.

In addition, the telescope, magnifying glass, night vision device and other products in actual use at present can achieve the respective functions, but the disadvantage is that the respective products have single functions and are very inconvenient to carry and use.

Disclosure of Invention

The invention aims to solve at least one problem in the prior art and provides intelligent glasses.

The technical scheme adopted by the invention is as follows:

an intelligent glasses comprises a glasses frame and two lens components arranged on the glasses frame,

each of the lens assemblies includes:

the pair of lenses are arranged at intervals in front and back to form a vacuum mirror cavity with the mirror frame;

light curtain emitting means for emitting one or more layers of light into the mirror cavities, respectively, to form one or more layers of light curtains, the layers of light curtains being parallel to each other;

a light curtain receiving device for receiving light rays irradiated to the inner side of the mirror frame;

the light curtain transmitting device and the light curtain receiving device are respectively arranged on the inner side of the mirror frame, and at least two opposite sides (preferably upper and lower sides) of the mirror cavity are provided with the light curtain transmitting device and the light curtain receiving device; the intelligent glasses at least have two use states, the intensity of the light curtain of the two use states is different or the wavelength of the light curtain of the two use states is different.

In one embodiment, the lens includes a substrate layer and a coating layer formed on an outer side surface of the substrate layer, wherein the substrate layer is made of glass or resin.

In one embodiment, a pair of lenses of each of the lens assemblies are parallel to each other.

In one embodiment, the light curtain emitting device comprises one or more light emitting units arranged front and back, and the light emitting units are arranged on the inner side of the mirror frame; the light curtain receiving device and the light curtain transmitting device are arranged in a staggered mode; each light emitting unit corresponds to at least one light curtain receiving device.

In an embodiment, the lighting unit comprises solid state lighting devices arranged at least on opposite sides of the mirror cavity; the light curtain receiving device comprises a light receiver.

In an embodiment, the smart glasses further comprise a central processing chip for adjusting the intensity and/or wavelength of the light curtain, and the central processing chip is disposed in the lens frame and between the two lens components.

In an embodiment, the lens frame is fixedly connected or integrally formed with a first lens leg and a second lens frame, and the smart glasses further comprise additional modules arranged on the first lens leg and/or the second lens leg.

In an embodiment, the additional modules include one or more of the following:

the display module is used for displaying the left lens power, the right lens power and the left lens power;

the adjusting module is used for switching the using state of the lens assembly;

the battery is used for supplying power to the light curtain transmitting device, the light curtain receiving device, the central processing chip, the display module and the adjusting module;

and the external interface is arranged on the first glasses leg and/or the second glasses leg and is used for charging the battery or transmitting data.

In an embodiment, the smart glasses further include an expansion module disposed on the first glasses leg and/or the second glasses leg, the expansion module is detachably connected with an external expansion device, and the external expansion device is an external power supply, a storage device, a camera device, a night vision device, a projection device or a video/audio playing device.

In an embodiment, the frame, the first temple and the second temple are embedded with flexible cables for power supply and signal transmission.

Compared with the prior art, the invention has the following advantages:

the shape and the color of the light curtain in the vacuum mirror cavity can be adjusted by changing the intensity or the wavelength of the light curtain emitting device, so that the focusing condition of natural light is changed, various use states are realized, various functions are integrated, and the functions such as myopia, hyperopia, color change, shading and the like can be switched.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of an intelligent glasses of the present invention;

FIGS. 2a and 2b are two partial cross-sectional views of a lens assembly of the smart glasses of FIG. 1, respectively;

FIG. 3 is a schematic perspective view of a multi-layer light curtain;

FIG. 4 is a cross-sectional view of a multilayer light curtain;

FIG. 5 is a schematic view of a first temple;

FIG. 6 is an enlarged view of a portion of the first temple shown in FIG. 5;

fig. 7a, 7b show two external expansion devices according to the invention, respectively.

In the above-mentioned figures of the drawing,

1. a lens assembly; 11. a lens; 12. a mirror cavity; 13. a light curtain emitting device; 130. a light curtain; 131. a light emitting unit; 14. a light curtain receiving device; 141. a light receiver; 2. a frame; 3. a first temple; 4. a second temple; 5. a central processing chip; 6. an expansion module; 61. a slot; 62. a jack; 7. a display module; 8. an adjustment module; 81. function adjusting keys; 82. a degree adjusting key; 9. a power switch; 10. an external interface; 11. an external power supply; 110. a metal needle; 111. a standby battery; 12. an image pickup device; 120. a metal needle; 121. a camera is provided.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the attached drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art. The definition of the orientation of the present invention is defined according to the conventional viewing angle of a person skilled in the art and for convenience of description, and is not limited to a specific direction, i.e. "front" and "rear" correspond to the left side and the right side of the paper surface in fig. 2, respectively.

Fig. 1 shows a pair of smart glasses according to the invention, comprising a frame and two lens assemblies 1 arranged on the frame 2. Specifically, the left and right sides of the lens frame 2 are respectively provided with a mounting hole matched with the lens components 1, and the two lens components 1 are respectively arranged in the mounting holes on the left and right sides. Referring to fig. 2a and 2b, each lens assembly 1 includes a pair of lenses 11 disposed at intervals in front and rear, edges of the lenses 11 are fixedly connected to the inner side of the frame 2 (the wall of the mounting hole), and a vacuum chamber 12 is formed between the pair of lenses 11 of each lens assembly 1 and the frame 2. Each lens assembly 1 comprises a light curtain emitting device 13 and a light curtain receiving device 14 which are fixedly arranged on the inner side (the hole wall of the mounting hole) of the lens frame 2, wherein the light curtain emitting devices 13 are at least arranged on two opposite sides (in this embodiment, upper and lower sides) of the lens cavity 12 to emit one or more layers of light into the lens cavity 12 to form one or more layers of light curtains 130, and the layers of light curtains 130 are parallel to each other as shown in fig. 3 and 4; the light curtain receiving device 14 is also disposed on two opposite sides (in this embodiment, upper and lower sides) of the mirror cavity 12 to receive the light irradiated to the inner side of the mirror frame 2, so as to prevent diffuse reflection of the light curtain on the inner side of the mirror frame 2 and eliminate interference of the reflected light on the multi-layer light curtain. The intelligent glasses at least have two use states, the intensity of the light curtain of two use states is different or the wavelength of the light curtain of two use states is different.

The lens component 1 is a hollow structure mainly composed of a double-layer lens 11, and can enable the one or more layers of light curtains to irradiate in the lens cavity 12 so as to avoid the influence of external environment on the light curtains; and the mirror cavity 12 is vacuum, so that the light curtain irradiates more stably in the mirror cavity 12, the diffuse reflection of light rays by air impurities is avoided, and the accuracy in specific use of micro adjustment is enhanced. The lens 11 includes a substrate layer and a coating layer formed on an outer surface of the substrate layer, wherein the substrate layer is made of glass or resin (such as PC (polycarbonate)), and the coating layer is a coating layer capable of absorbing harmful pipelines and having a wear-resistant function, absorbing light emitted from an internal light curtain and slightly overflowing, eliminating possible problems of vision disturbance to a user, and providing protection against wear of the lens 11 due to frequent use of the cleaning lens 11 or other conditions during actual use, so as to achieve an extended service life of the lens 11. The pair of lenses 11 of each lens assembly 1 are parallel to each other and the optical axis of the multilayer light curtain in the mirror cavity 12 is preferably parallel to the lenses 11.

The light curtain transmitting device 13 and the light curtain receiving device 14 are arranged on the inner side of the mirror frame 2, the upper side and the lower side of the mirror cavity 12 are respectively provided with the light curtain transmitting device 13 and the light curtain receiving device 14, and two setting methods are respectively shown in fig. 2a and 2 b. The light curtain emitting device 13 includes one or more light emitting units 131 arranged front and back, the light emitting units 131 are disposed inside the mirror frame 2 and are respectively disposed on two opposite sides of the mirror cavity 12, and each light emitting unit 131 emits a layer of light curtain 130. In a preferred manner provided in this embodiment, each light emitting unit 131 includes a solid-state lighting device respectively disposed on the upper and lower sides of the mirror cavity 12, where the solid-state lighting device may be a solid-state lighting LED chip, etc., and has a ring shape, and the spectrum and the light intensity of the solid-state lighting device are adjustable. Correspondingly, the light curtain receiving device 14 is a light receiver 141 with a light receiving function and arranged on the upper side and the lower side of the mirror cavity 12; in the structure shown in fig. 2a, two groups of light receivers 141 of the light curtain receiving device 14, which are positioned on the upper side of the mirror cavity 12, are respectively arranged on the front side and the rear side of the light curtain transmitting device 13; in the structure shown in fig. 2b, the plurality of sets of light receivers 141 of the light curtain receiving device 14 and the plurality of light emitting units 131 of the light curtain transmitting device 13 are staggered. It should be further noted that each light emitting unit 131 (specifically, each solid state lighting device) is disposed corresponding to one light curtain receiving device 14, so as to ensure that the light emitted by each light emitting unit 131 can be absorbed.

The light curtain emitting device 13 can emit one or more layers of light curtains according to the specific use condition, and can also adjust the intensity and the spectrum range of the light curtain. In the specific use of a user, the level change, the intensity change and the spectrum change of the light curtain are combined and matched together according to specific functions such as myopia, hyperopia, telescopic vision, amplifying, color changing, shading and the like to achieve specific refraction requirements. Wherein, myopia, hyperopia, presbyopia, far vision and magnification are achieved by adjusting the level of the light curtain and changing the focusing formed by natural light entering the lens 11 by the luminous intensity, and the colorless multi-layer light curtain composed of the light curtains with composite wavelengths is arranged in the lens cavity 12; the purposes of color changing, shading, night vision display screen, network informatization function display screen and the like are realized by adjusting the luminous light wavelength of the light curtain, and the light curtain with different colors, which is formed by single-layer visible light waves and is achieved according to the requirement, is arranged in the mirror cavity 12. As shown in fig. 3 and 4, by changing the intensity of each light emitting unit 131 so that the intensity of each light curtain 130 is different (e.g., sequentially increasing or decreasing from front to back), a structure similar to a concave lens and a convex lens is formed in the lens cavity 12, so that functions of myopia and hyperopia are achieved, and the degree can be adjusted by finely adjusting the light intensity. In another embodiment, the light curtain emitting device 13 includes a light emitting unit 131, emits a single layer light curtain 130, and changes the spectrum (wavelength) of the light curtain 130 by changing the spectrum of the light emitting unit 131, so that it is converted into a sunglass or a sunglass, etc.

The smart glasses further comprise a central processing chip 5 for adjusting or acquiring the intensity and/or wavelength of the light curtain 130, the central processing chip 5 being arranged in the frame 2 and between the two lens assemblies 1. Referring to fig. 5 and 6, the smart glasses further comprise the following optional additional modules provided on the first and/or second temples 3 and 4 of the smart glasses:

the display module 7 is arranged on the first glasses leg 3 and/or the second glasses leg 4 and used for displaying the left glasses lens degree, the right glasses lens degree;

the adjusting module 8 is arranged on the first glasses leg 3 and/or the second glasses leg 4 and is used for switching the using state of the lens assembly 1;

the battery is arranged on the first glasses leg 3 and/or the second glasses leg 4 and is used for supplying power to the light curtain transmitting device 13, the light curtain receiving device 14, the central processing chip 5, the display module 7 and the adjusting module 8;

the external interface is arranged on the first glasses leg 3 and/or the second glasses leg 4 and is used for charging a battery or transmitting data;

the expansion module 6, the expansion module 6 is connected with an external expansion device in a detachable way. The external expansion device is specifically an external power supply (as shown in fig. 7 a), a storage device, a camera device (as shown in fig. 7 b), a night vision device, a projection device or a video and audio playing device.

The display module 7 comprises a liquid crystal display screen, is electrically connected with the central processing chip 5, and mainly displays battery power, network signals, function identifiers, degree measurement and the like.

The adjusting module 8 comprises a function adjusting key 81 and a degree adjusting key 82, which are respectively electrically connected with the central processing chip 5, and can perform function selection and degree selection through the function adjusting key 81 and the degree adjusting key 82.

The battery is fixedly embedded in the first glasses leg 3 and/or the second glasses leg 4 and is used for supplying power to the lens assembly 1, the central processing chip and each additional module, and the battery is particularly a rechargeable high-performance battery.

The external interface 10 may be a USB interface, and is electrically connected to the central processing chip and the battery, so as to charge the battery module, and upload and download data of the whole glasses system, and upgrade and set software functions.

The expansion module 6 specifically comprises two slots 61 arranged on the first glasses leg 3 or the second glasses leg 4, the slots of the two slots 61 are oppositely arranged, and the external expansion device can be slidably inserted into the two slots 61, so that the stability of the insertion of the external expansion device is enhanced when the external expansion device is specifically used, and the external expansion device is not easy to fall off; in addition, the expansion module 6 further includes a plurality of jacks 62, the jacks 62 are provided with contacts, the external expansion device is provided with metal pins matched with the jacks 62, and when the external expansion device is inserted into the two slots 61, the metal pins are inserted into the jacks 62 and connected with the contacts in the jacks 62 for power transmission and/or data transmission so as to supply power and data communication. The external power supply 11 shown in fig. 7a comprises a standby battery 111 storing electric energy, wherein one end of the standby battery 111 is provided with a plurality of metal pins 110, and the metal pins 110 are used for charging or supplying power to the intelligent glasses; the camera module 12 shown in fig. 7b includes a lens 121 and the metal pin 120, and the shot image is transmitted to the central processing chip 5 through the metal pin 120.

The first glasses leg 3 and the second glasses leg 4 are integrally formed or fixedly connected with the glasses frame 2 to form a framework of the intelligent glasses. In this embodiment, the first temple 3 and the second temple 4 are respectively connected to the left and right sides of the frame 2 as left and right temples. The expansion module 6, the display module 7, the adjusting module 8, the battery and the power switch 9 are sequentially arranged on the first glasses leg 3 from front to back, and the power switch 9 is specifically a switch pulling piece and is arranged at the rear end of the first glasses leg 3 for starting up and shutting down the power supply of the whole intelligent glasses. The second glasses leg 4 is provided with the expansion module 6, the battery and the external interface 10 from front to back.

The flexible cables are embedded in the mirror frame 2, the second mirror leg 4 and used for electrically connecting the lens assembly 1, the central processing chip and the additional modules, so that power transmission, power supply and charging are realized, and data communication is realized. The material of the mirror frame 2, the second mirror leg 4 and the second mirror leg 4 is metal.

The intelligent glasses provided by the invention have the following characteristics:

(1) Solves the problem that the conventional glasses have single function. The smart glasses integrate one or more functions of myopia, hyperopia, presbyopia, color change, shading, telescopic vision, amplification, night vision, informatization and the like.

(2) Solves the problems that the degree of the conventional glasses products such as myopia, hyperopia and the like is fixed and cannot be adjusted. In the specific use of this intelligent glasses, the user can adjust the number of degrees according to own actual conditions. The product is suitable for users with various myopia and hyperopia degree requirements.

(3) The characteristics of single function and inconvenient carrying of products such as a telescope, a microscope, a magnifying glass, a night vision device and the like are solved. This intelligent glasses can set up through the function switching button, carry and use more conveniently.

(4) Solves the problem that the prior glasses with informationized functions have single entertainment and leisure functions, but do not have other functions. The glasses are returned to the original purpose of the glasses, and more special functions can be expanded according to the needs on the basis.

The above-described embodiments are provided for illustrating the technical concept and features of the present invention, and are intended to be preferred embodiments for those skilled in the art to understand the present invention and implement the same according to the present invention, not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. An intelligent glasses comprises a glasses frame and two lens components arranged on the glasses frame, and is characterized in that,

each of the lens assemblies includes:

the pair of lenses are arranged at intervals in front and back to form a vacuum mirror cavity with the mirror frame;

the light curtain emitting device is used for emitting multiple layers of light rays into the mirror cavity respectively to form multiple layers of light curtains, and the multiple layers of light curtains are parallel to each other;

a light curtain receiving device for receiving light rays irradiated to the inner side of the mirror frame;

the light curtain transmitting device and the light curtain receiving device are respectively arranged on the inner side of the mirror frame, and at least two opposite sides of the mirror cavity are provided with the light curtain transmitting device and the light curtain receiving device; the intelligent glasses at least have two use states, the two use states have different intensities of the light curtain, change the intensity of the light emitting unit, make the intensity of the light curtain increase gradually or decrease gradually.

2. The smart glasses according to claim 1, wherein the lens comprises a substrate layer and a coating layer formed over an outer side surface of the substrate layer.

3. The smart glasses according to claim 1, wherein a pair of lenses of each of the lens assemblies are parallel to each other.

4. The intelligent glasses according to claim 1, wherein the light curtain emission device comprises one or more light emitting units arranged back and forth, and the light emitting units are arranged on the inner side of the glasses frame; the light curtain receiving device and the light curtain transmitting device are arranged in a staggered mode; each light emitting unit corresponds to at least one light curtain receiving device.

5. The smart glasses according to claim 4, wherein the lighting unit comprises solid state lighting devices disposed at least on opposite sides of the mirror cavity; the light curtain receiving device comprises a light receiver.

6. The smart glasses according to claim 1, further comprising a central processing chip for adjusting the intensity and/or wavelength of the light curtain, the central processing chip being provided in the frame and between the two lens assemblies.

7. The smart glasses according to claim 6, wherein the frame is fixedly connected to or integrally formed with a first temple and a second temple, the smart glasses further comprising additional modules provided on the first temple and/or the second temple.

8. The smart glasses according to claim 7, wherein the additional modules comprise one or more of the following modules:

the display module is used for displaying the left lens power and the right lens power;

the adjusting module is used for switching the using state of the lens assembly;

the battery is used for supplying power to the light curtain transmitting device, the light curtain receiving device, the central processing chip, the display module and the adjusting module;

and the external interface is arranged on the first glasses leg and/or the second glasses leg and is used for charging the battery or transmitting data.

9. The pair of smart glasses according to claim 8, further comprising an expansion module disposed on the first temple and/or the second temple, wherein the expansion module is detachably connected to an external expansion device, and the external expansion device is an external power source, a storage device, a camera device, a night vision device, a projection device or a video/audio playing device.

10. The pair of smart glasses according to claim 7, wherein flexible cables for power supply and signal transmission are embedded in the glasses frame, the first glasses leg and the second glasses leg.